SAUDI ELECTRICITY COMPANY
SCOPE OF WORK AND TECHNICAL
SPECIFICATIONS
FOR INTEGRATED SECURITY SYSTEM
SECTION 3.0 DESIGN CRITERIA
3.01 GENERAL
The detail design and
installation of various equipment and facilities of this PROJECT shall be
developed utilizing the basic design criteria and the specification
requirements provided in this section.
3.02 ENVIRONMENTAL
CONDITIONS
The material section and design
shall comply with the below listed site environmental conditions.
The outdoor environmental
conditions of the construction site are harsh and corrosive due to the action
of salt, dust, humidity, and sand.
3.02.1 The site outdoor environmental data
is as follows:
· Absolute
maximum ambient temperature 60oC
· Absolute
minimum ambient temperature -5oC
· Average
maximum ambient temperature +45oC
· Average
minimum ambient temperature 15oC
· Peak
ambient temperature during summer period
65oC
· . Temperature due to direct exposure to
sunlight 85oC
· Maximum relative humidity 100%
· Maximum
wind speed (westerly to north-westerly) 60
kph
· Yearly maximum rainfall 104
mm
· Dust concentration in air mg/ cubic meter
|
CASE |
SAND STORM |
DUST STORM |
SETTING |
CLEAR |
|
3 m above
grade |
1350 |
41.3 |
6.2 |
0.21 |
|
8 m above
grade |
69 |
34.4 |
5.3 |
0.21 |
|
Duration
(hr/yr.) |
*15 |
134 |
1440 |
7171 |
* Note: Assume sandstorm condition exist
approximately 10% at the average 149 hr/yr storm period for this case
· Annual
dust road (grams) per cubic meter air handled
|
CASE |
SAND STORM |
DUST STORM |
SETTING |
CLEAR |
|
3 m above
grade |
20.25g |
5.53g |
8.93g |
1.51 g |
|
8 m above
grade |
1.04 g |
4.61 g |
7.63 g |
1.51 g |
· Particle
size distribution
|
Particle Size in Microns |
% by Weight for Sand and Dust Storms |
% by Weight for Setting |
% Weight for Clear |
|
0.01 - 0.1 |
1.0 |
1.0 |
1.0 |
|
0.1 - 0.5 |
7.0 |
9.0 |
11.0 |
|
0.5 - 1.0 |
12.0 |
15.0 |
18.0 |
|
1.0 - 5.0 |
33.0 |
42.0 |
50.0 |
|
5.0 - 10.0 |
16.0 |
20.5 |
17.0 |
|
10.0 - 20.0 |
9.0 |
11.5 |
3.0 |
|
20.0 - 40.0 |
10.0 |
0.0 |
0.0 |
|
40.0 - 80.0 |
10.0 |
0.0 |
0.0 |
|
80.0 - 200.0 |
2.0 |
0.0 |
0.0 |
|
Total |
100.0 |
100.0 |
100.0 |
· Total
annual dust hold (grams) per cubic meter is:
36.22 grams at 3 m above grade
14.79 grams at 8 m above grade
3.02.2 The site indoor environmental data
are as follows
The indoor areas will be
air-conditioned; however, the facility shall be capable of continuous operation
during air conditioning failure with the following conditions:
·
Air Conditioned Temperature 19 - 30oC
·
Air Conditioned Humidity 50%
·
.Unconditioned Temperature
Maximum 65 oC
·
.Unconditioned Temperature
Minimum 0oC
3.03. APPLICABLE CODES AND STANDARDS
The system shall be designed and
constructed in accordance with the stated requirements and the Security and
Safety Directives (SSD) issued by the High Commission for Industrial Security
listed bellow and attached:
SSD-12 Security Communications System
SSD-16 Automatic Control Entry (ACS)
System
SSD-23 Automatic Control of Entry
Royal Decree No. 2139 HCIS Requirements for ID Badging System
The supplied materials shall
fully comply with the recognized industrial standards for design, construction,
performance, reliability, and safety. These shall include but not limited to
the applicable sections of codes and standards (last edition) published by any
of the following bodies:
Institute
of Electrical and Electronic Engineer IEEE
American
National Standard Institute ANSI
National
Fire Protection Association NFPA
National
Electrical Manufacturer Association NEMA
International
Radio Commutative Committee CCIR
Other applicable documents are
mentioned under section.
Materials design certificates shall
be issued by a known authorized authority as UL, FM, BASSEFA, etc.
All materials for use in
explosion hazardous (classified) location shall be supplied with type test
certificates.
In the event of conflict between
the above listed standard, codes and regulation, and the stated requirements,
the CONTRACTOR shall refer to the COMPANY to resolve it in writing.
***
END OF SECTION 3.0 ***
SECTION 4.0 SYSTEM DESIGN REQUIREMENTS
The COMPANY Integrated Security
System is a site wide security information system. This is composed of the
following:
4.01 Fence Detection System
The purpose of the fence detection
system is to alert the security that an in intruder has entered the perimeter
security fence, or is within a predefined distance of the site boundary.
The type of detection methods
employed shall be function of climate, location, environmental conditions, and
site terrain as detailed elsewhere in this document.
4.01.1 Vibration Detection Technology
4.01.2 Microwave Detection Technology
Output from these systems shall be
combined in the central processor and full alarms raised only for coincident
events registered by the two systems. This alarm shall be displayed on console
at the security control center and will be recorded by the system event
logger. Actual location where the alarm
occurred shall also be displayed in the Console Monitor by means of GUI-type
Interactive Site Map. Audible indication shall be made available as stated in
the preceding specification. However, a pre-alarm (as a warning) shall be
generated when a single system triggered an event and shall be logged.
All sensors shall be linked to
the DCCTV cameras to enable the security control center to observe (through the
monitors) and record the video events (through Digital Software Recorder) the
point of intrusion where the alarm is indicated. This event shall occur
automatically and/or after an operator-initiated instruction from the security
control room. The DCCTV system shall also have Digital Recording (DVR) capability to automatically record pre-alarm and
post-alarm video events, which will be available for playback and re-recording
(e.g. archiving or backup) at a later time.
All detectors shall have low
false and nuisance rate (one false alarm per zone per month). The detection
methods shall prevent alarms from small animals entering the detection zones,
and those caused by weather effects such as sand drifts and wind. Alarms shall
be activated if an attempt to climb and cut the security perimeter fence. False
Alarm per zone per month shall conform to the HCIS/SSD Standard.
The vibration detection cable
must be made of dual fiber optic cables.
The communications link between
fence intrusion detection system (fiber optic sensor and microwave) and control
room shall be designed using “Dual Loop” fiber optic lines.
The signal transmission delay
from the sensors to the
The Fence
Detection system shall be “fail safe”, i.e. any failure in the system
component/cabling shall be enunciated in control room.
The probability of detection of
intruders shall not be less than 95%.
The maximum
zone length for fence detection system shall not exceed 250 meters.
4.02 Digital Closed Circuit Television
(DCCTV)
This subsystem of Integrated
Security System shall be composed of the following components:
1. Day/Night Color Cameras
2. digital video recording
(DVR)
3.
21-Inches TFT-LCD Color Flat
Video Monitor Stations (02 numbers at Main Gate
Security House).
4. 50-inches TFT-LCD Color
Monitor inside the Security Control Room.
The primary purpose of this
subsystem is as follows:
4.02.1 To provide accurate indication, alarm
information and video events (i.e. real-time, pre-alarm, post alarm, playback
of recorded file, etc.) if an intruder enter within certain sections of
security fence and any strategic areas.
4.02.2 To enable to have a continuous
monitoring of any strategic area and full surveillance of the whole plant.
Cameras shall
be installed in dedicated camera poles, around inner side of COMPANY perimeter
to satisfy requirement..
Camera shall
be installed outside the Security Control Center Room in appropriate place to
enable the Security Operator to oversee the access to the Control Room and UPS
Room. In addition, Intercom System shall be installed between the Security
Control Room Operator and outside the Security Control Room.
Two (2)
Cameras each shall be installed in appropriate place in the Main Gate to enable
the Security Operator to supervise the entrance and exit of people and
vehicles, and to be displayed in separate monitor screens in the Security Gate
Room.
Camera shall
be installed in appropriate place in the Employee Entry/Exit of Main Gate to enable the Security Operator
to entrance and exit of people to the plant.
Digital Closed
Circuit Television (DCCTV) system general design considerations are as follows:
Fence cameras
shall be provided with high-resolution picture without geometric distortion,
lag or image retention. All cameras shall be Day/Night Type, color camera and
shall be able to adjust automatically for varying light intensity. It should
cover the largest part of the
outside and
inside of the fence at the nearest point of its range.
Day/Night
Type, Auto-Focus with manual override, Color Cameras to be mounted in dedicated
camera poles (provided by the CONTRACTOR). (Security Lighting Poles shall not
be used).
Maximum zone
length of 125 meters to be covered by one camera.
A single zone
shall be monitored by maximum two (2) cameras.
Minimum 10%
screen height from the beginning of camera range for the picture of a man
standing up at 125 meter.
Proper
overlapping of coverage of adjacent cameras shall be considered to eliminate
dead zone..
Day/Night
Type, PTZ, Auto-Focus, Color Cameras will be installed in strategic areas (i.e.
Inbound/Outbound of main gate, employee entry/exit shades, and outside security
control room).
All Cameras
shall have Image Stabilizer Feature to compensate the vibration caused by wind
drift especially when it is zoomed-in to its maximum range.
50-inches
TFT-LCD Color Monitors inside the Security Control Room shall be able to
display images around COMPANY Plant perimeter fence, main gate, employee entry/exit
shades, and hallway outside the security control room, parking lots, and the
overall view of the plant.
In addition to
the DCCTV monitoring stations inside the Security Control Room the CONTRACTOR
shall also provide DCCTV monitoring stations; two each (2 Ea) 21-inches Color Monitors at the Security Guard houses
of gate at the employee entry/exit shades.
Full-Control
of the security cameras (e.g. programming, PTZ control with 360 rotation, focus
control, pre-positions, sequencing, single/multiple camera display, housing
lens shield cleaning – washer and wiper, etc.) shall be done in the Security
Control Center through the DCCTV System workstations (e.g. DCCTV system
software, GUI software/ interactive map, DCCTV control keyboard, etc.).
Maximum ten
(10) color monitors shall be designed for the DCCTV system considering only one
(1) operator in the control room.
The DCCTV
system shall be “fail safe”, i.e. any failure in the system component/cabling
shall be enunciated in control room.
The DCCTV system
shall possess a high reliable motion
Detection (VMD) features that provides reliable detection of intruders under a
wide range of changing environmental conditions.
The
digital video recording (DVR) System
shall be capable of minimizing the probability of false and nuisance alarms
caused by small animals, blown debris/papers, birds, clouds, sand storms, rain,
moving trees, and wind induced camera pole movements.
AND will record all video events such as
alarms received from the DCCTV’s AND, fence
detection system, and others.
AND also have
capability to automatically record pre-alarm and post-alarm video events, which
will be available for playback and re-recording for archiving or backup at a
later time..
4.03 Access Control and Door Monitoring
System.
The function of this system is to
monitor and record personnel and vehicle entry to and exits from the site, and
to restrict staff areas of high security.
4.03.1
4.03.2 Security
MONITOR Room and UPS Room.
4.03.3. Turnstile System at Plant Main Gate and Inner Gate.
4.03.4 CONTROLL ROOM OF POWER PLANT.
The existing Plant Control Room doors at
both Control Room and Security Control
Room shall be integrated to the new Access Control and Door Monitoring System
to satisfy
requirements. All doors of the Power
Plant Control Room shall be provided with Smart card reader (inside and
outside) and emergency exit button inside the control room.
ANEW ACCESS CONTROL AND DOOR MONITORING SHALL
BE INSTTAL . The Security Control Room
should be in the first floor with under
ground connections. All processors with UPS should placed in suitable
air conditioning room.
Entry to the areas shall be gained by
showing the Smart card to the sensor .
Smart card reader shall raise an alarm if attempts are made to use a damage or
tampered card or if the PIN is entered incorrectly. In these circumstances the
turnstile or door monitoring system shall deny access to the site.
Communications between the Access
Control System Server at Security Control Room and the Remote Controller at
Existing communications duct bank and
conduit system wherever available. Any additional duct bank and conduit
requirements shall be done by the CONTRACTOR.
The access control system shall be able
to specify/configure “
Alarm raised and events logged by the
card readers shall be displayed at the Security Control Room.
“The access control system shall be
designed such that the maximum two (2) turnstiles (card readers/keypad for
entry & exit for each turnstile) are connected to single controller in
stand-alone mode. This stand-alone mode controller should be able to cater the
entire range of system card database.
I.D./Access Control System shall be
“fail safe”, i.e. any failure in system component/cabling shall be enunciated
in control room.
Integrated Security System shall have
bilingual (English & Arabic) capability in the following:
System menus/screen.
Messages for display and print.
ID card generation (ID Badging System)
and printing at pp#3 .
The security personnel shall be able to
generate (i.e. ID Badging Hardware & Software) and program the cards and
set access privileges for varying levels of security of the site. Security
shall also be able to program cards for predetermine expiry dates and times.
In addition to the Access Control
System’s workstations inside the Security Control Room the CONTRACTOR shall
also provide Access Control System’s workstations; one each (1 Ea) with 21 inches TFT-LCD Color Monitors at the Security
Guard house of main gate the employee entry/exit shades.
4.04 Security Control Room
COMPANY new
4.04.1 Main Computer
4.04.2 DCCTV System Workstations and
Command/Control Platform
4.04.3 TFT-LCD Flat Color Video Monitors
4.04.4 DVR
4.045 Printers
4.04.6 Console Desk and Heavy Duty Chairs
All transmission and communication lines
to the system’s remote elements should use fiber optic cables. The existing
communications duct bank wherever available shall be utilized for routing the
cables. Any additional duct bank and conduit requirements shall be constructed
by the CONTRACTOR.
Graphic displays and event logs shall be
grouped according to subsystem intruder detection, DCCTV, access control etc.,
and event type alarm, equipment malfunction etc. A summary log of all system
events shall also be configured in a single display. The graphics (GUI)
capability should be multi layered allowing the system to depict sub graphic of
individual zones.
Zones must be identified by different
colors. Alarms should be enunciated by a flushing graphic at zone accompanied
by an audible alert from the microprocessor.
The
graphic screens should be bilingual .
The operator should have direct control for camera
switching & PTZ functions from the
Graphics screens
The system software must record and
retain the following information and be printed as desired:
·
All alarm events; by date,
time, zone and classification.
·
The automatic system self check
by date, time, and results.
·
All information about the
changes made to system parameters, and all the comments entered into the system
by the operator.
The system must permit command and
control over the DCCTV system directly from the command and control platform.
This control includes all PTZ functions, camera sequencing, frame times,
monitor assignment, and camera enclosure lens shield cleaning (i.e. washer and
wiper).
The system will be configured to require
that all alarm events be classified by the system operators; this information
is then retained in the system history file.
Operationally the routine would be as
follows:
DCCTV system is active and storing short
duration pre-alarm video events (Note: pre-alarm video length shall be
configurable between 0 – 2 minutes) on the DCCTV system’s buffer. These
pre-alarm video events shall be refreshed/updated automatically, replacing the
older pre-alarm video events in order not to congest the DVR buffer/hard disk.
An
alarm was received (alarm may come from DVR of
DCCTV system, fence detection system, access control system or fire alarm
system. and enunciated both visually and audibly based on priorities defined.
The
DCCTV system will display the video of area where the alarm originated. The
DCCTV system shall automatically record the post alarm video events, including
the pre-alarm video events of that area to the DCCTV DVR
system’s hard disk and show a record status on the screen (Note: video
filenames shall indicate identifiable details). The DCCTV system shall be able
to continue monitoring the entire system and maintain its pre-alarm
recording/updating of other locations/zones on the buffer, while recording
video events on the hard disk for specific alarm events.
The
system must automatically log the date, time, zone in alarm, and hold this
information in an active alarm queue.
Once
the alarm has been investigated the operator is then required to classify this
alarm event in order to release the alarm from the active queue. The operator
selects the alarm to be classified and is furnish with a number of alarm cause
selection from which to choose.
The
system shall be able to continue monitoring the entire system while
investigation for a specific alarm by the operator is going on.
The
system shall have the capability to configure different priority levels for
various alarm types, and shall have a facility to display pre-defined
instruction/procedure to the operator in event of each type of alarm.
The
system software must be bilingual (using both Arabic and English languages) and
shall be furnished with flexible multi level password and pass-code access
security features, and working files shall be archived on , disc, DVR or
other storage medium. DVRS should be provided with
DVD writer for immediate storage and backup.System operators shall
be provided with pass-codes to be used for logging on or off duty. System
passwords are usually required to modify or changes significant system
parameters, to enable or disable alarm points, perform system maintenance
operations such as deletion of outdated history files or to make global changes
in time, date etc.
The
entire security system shall be equipped with state-of-the-art components
diagnostic system and shall be presented in a manner that is easily deciphered,
and equipped with an automatic diagnostic subroutine that can be set at a
predetermined time to automatically interrogate and check/evaluate the status
of the processor, communication lines, and equipment, critical devices and all
power sources.
If
a non standard condition is detected by the system then discreet graphic alert
will be displayed and accompanied by an audible alert to gain the operators
attention. The alert graphic must continue to be until the non standard
condition has been resolved.
System
display shall be menu driven with option selected by mouse or from the
keyboard.
Workstation
shall allow personnel to configure the system including display building,
programming of site passes and system database.
Heavy-duty printers shall be provided
for printing a real time event and generating reports and screen dumps.
A heavy-duty laser color printer capable
of generating copy of frozen image from the DCCTV system shall also be
provided.
The system must be configured so that a
back-up controller is always on line that can assume control of the entire
security system in the events of a catastrophic failure of the primary
controller. The back-up system must be continually updated by the primary
controller so that all information is accurate and up to date.
The Security Control Room shall be
provided with Smart card reader (inside and outside) and emergency exit button
inside the control room.
4.05 Road Rising Arm Barriers:
ANEW rising arm barrier gates at the
plant main gate (in both direction entry & exit) shall be integrated with
the access control system. This will be
equipped with both vehicle smart card reader and employee smart card reader.
As the vehicle approaches the gate
and/or the arm barrier, the vehicle card reader will read the card in front of
the vehicle and at the same time the driver or operator of the vehicle will
show his card to the smart card reader. These readers will process the
information and if both the car and the driver/operator possess valid
clearances to the area then the access control system should be able to grant
them access to the facilities either automatically (i.e. the system
automatically open the sliding gate or raise the road arm barrier) and manually
(i.e. the access control system will give signal to the security guard to open
the sliding gate or raise the arm barrier via a manual switch). Granting of access
(entry/exit) by either automatically and manually shall be integral to the
system’s software and shall be system’s configurable.
Smarty and vehicle card reader shall
raise an alarm if attempts are made to use a damage or tampered card and at the
same time if one or both of the cards are invalid.
Alarm raised and events logged by the
card readers shall be displayed and printed at the
The barrier shall be equipped with a
vehicle force entry sensors attached to a rising arm barrier.
The barriers
should have automatic reversal mechanism
if it strikes on a vehicle so
that it can reverse its direction.
The barrier should have an Auto closure
mechanism with adjustable time which can be programmed after the vehicle has
passed over the sensor loop.
The barrier should have a boom
monitoring sensor which can give signal to Alarm monitoring system incase it is
broken or loose. The boom monitoring should also have the facility to be interlocked with the Crash Barriers for
higher security.
A
safety loop, which is automatically controlled, shall be installed at the plant
main gate.
Manual override switch shall be
installed inside the guard house to raise/close the arm barriers during
emergency, and triggers the alarm in the Security Control Room.
4.06 UPS System
The
system shall interface with local main power supply. The system is an essential
service and shall be operational at all times. An uninterruptible power supply
unit shall be provided by the CONTRACTOR to support the system in the event of
failure of the site power supply. This shall be sized to provide up to four (4)
hours support time.
UPS
System shall be sized to accommodate a minimum of 20% additional power capacity
for future expansion.
The
UPS Room door shall be provided with Smart card reader (inside and outside) and
emergency exit button inside the UPS room.
4.07 Employee
Entry/Exit Shade
Two
(2) New Employee Entry/Exit Shade/Room shall be constructed by the CONTRACTOR under this PROJECT to house the Turnstile system,
X-Ray System and accommodate post station for at least two (2) security
personnel at the Plant Main Gate .
This shade shall be high
density polyethylene .
4.08 Fire Alarm System
The
existing fire alarm system of PP3 Power Plant shall be integrated/interfaced to
the new Security System.
The
CONTRACTOR shall be responsible in checking and confirming the compatibility of
the existing Fire Alarm System to be integrated to the new Security System. Any
modifications, and additional materials needed for the successful integration
of the Fire-Alarm System shall be provided by the CONTRACTOR as part of this
PROJECT.
4 .9 Crash-Rated Main Plant Sliding Gate
New
crash-rated linear sliding gate and its associated electromechanical
components, motors and controls shall be provided and installed by the
CONTRACTOR at Power Plant Main Gate.
The
crash-rated sliding gate and auxiliary equipment shall be of proven design and
the Manufacturer shall have a minimum of 5 years documented field experience for
all major components and design features.
The
gate design and specifications shall have successfully passed an actual
full-scale crash test conducted by a qualified independent agency in accordance
with D.O.S. Specification SD-SDT-0201 of K12/L3.0.
All
components of the crash-rated sliding gate system shall be capable of working
in various environmental conditions.
4 .10 Crash-Rated hydraulic barrier at Main
Plant Gate
New crash-rated rising road barricade and its associated
electromechanical components, hydraulic power systems, traffic/warning lights,
and controls shall be provided and installed by the CONTRACTOR at Power Plant Inner Gate.
The Crash-rated rising road barricade and auxiliary equipment shall
be of proven design and the Manufacturer shall have a minimum of 5 years
documented field experience for all major components and design features.
The gate design and specifications shall have successfully passed an
actual full-scale crash test conducted by a qualified independent agency in accordance
with D.O.S. Specification SD-SDT-0201 of K12/L3.0.
All components of the crash-rated flush mounted rising road
barricade system shall be capable of working in various environmental
conditions as specified in Section 3.02 of this document. The barricade should
be made of Hot Dip Galvanized steel to extend the lifetime of the barricade and
resist bad weather conditions.
Refer to Section 6.10 of this document for further specification
details of the crash-rated rising road barricade.
The proposed crash-rated flush mounted
rising road barricade at the inner gate (in both direction entry & exit)
shall be integrated with the new access control system similarly with the
rising-arm barrier. Granting of access (free-pass and guard positions of barricade)
may be either automatically (i.e. through access control system) or manually
(i.e. through switch buttons by the operator/guard), shall be integral to the
system’s software and shall be system’s configurable.
Manual override switch
shall be installed inside the guard house to raise/close the arm barriers
during emergency, and triggers the alarm in the Security Control Room
*** END OF SECTION 4.0 ***
SECTION 5.0
SCOPE OF WORK
5.01 Project Description
The work to be performed under this Project consists of the design,
supply, construction, installation, training and maintenance of New COMPANY
Integrated Security System to be located
Power Plant consists of the following subsystem
5.01.1 Fence
Detection System
i. Fence Detection
System shall employ two (2) types of detection system
Vibration Detection System
Microwave Detection System
ii This detection
system shall cover the COMPANY perimeter fenced area of approximately …….
meters as illustrated on the attached drawings
.
5.02.1 DCCTV System
·
Digital Closed Circuit Television (DCCTV)
System made of cameras, units, Digital Video Recorder (DVR), monitors, controllers, workstations,
heavy-duty laser color printer .
·
PTZ, Day/Night type, Color
Cameras shall be installed around the inner side of the perimeter fenced area.
These cameras shall be mounted (fixed oriented) on dedicated camera poles with
an approximate height of 5.0 meters. The CONTRACTOR shall determine the actual
quantity and location of cameras to be installed and ensure that all strategic
areas are adequately covered.
·
Day/Night type, Color Cameras (mobile
oriented). cameras shall be installed
at convenient locations in order to provide an overall plant monitoring
facility for safety purpose.
·
A PTZ, Day/Night type, color
camera shall be installed outside the Security Control Room to monitor the
corridor and the entry door of the Control Room.
·
A PTZ, Day/Night type, color
camera shall be installed in appropriate places in the Gate vicinity, to monitor the inbound and
outbound access of vehicles and employees to the plant and to be displayed in a
separate monitor screen (inbound/outbound) in Security Guard House gates.
·
A PTZ, Day/Night type, color
camera shall be installed in the Employee Entry/Exit gate, to monitor the entrance and exit of
people on foot to the plant and to be displayed in a separate monitor screen
(inbound/outbound) in security guard console desk at the Employee Entry/Exit of
main gate.
5.02.2 Access Control and Door Monitoring
System:
·
Access Control System consists
of, Smart card readers, emergency exit buttons, ID Badging Facility including
all hardware, software, and accessories.
·
The CONTRACTOR shall install
the combination of both the Smart card reader and keypads on the following
areas:
Main gate (entry/exit)
Security Control Room Door (entry/exit)
MAIN CONTROL
ROOM OF POWER PLANT
·
Door monitoring and control
system made of hardware, Smart card reader, software, and accessories.
·
The quantity of Smart ID Card
for COMPANY for employee, contractors, visitors, and students is 500 Smart
cards. Also, Smart ID Card for Vehicles
be supplied. The design of the cards will be provided at the later date
(the ID badging facility shall be capable of designing the card).
·
The CONTRACTOR shall install a
vehicle access reader and smart card reader (for driver/passenger) .
5.02.3 Security Control Room
·
·
Separate partition/
room should be provided for the server
and Rack room. This room should have a separate temperature control
mechanism.
5.02.4 Remote Administration Terminal
The CONTRACTOR shall provide
a remote administration terminal with a printer at SEC-WRB Hqs. to provide
remote configuration, troubleshooting, and reporting facility for Integrated
Security System.
5.02.5 The existing fire alarm system shall be
integrated to the new security system..
5.02.6 Each system shall be capable of future
expansion and addition/inclusion to install in parallel or at a later stage
throughout COMPANY Plant, and COMPANY Expansion Projects.
5.02.7 Uninterruptible power supply units
complete with batteries and other accessories. This shall hold the system of up
to 4 hours as detailed elsewhere in this document.
5.02.8 Wiring tools and any other materials
required for installing and commissioning the system.
5.02.9 Quantities, general locations, and flow
diagrams of all the equipment shall be shown in the drawings. Exact mounting
locations shall be such that the equipment is readily accessible during
maintenance.
5.02.10 All above facilities shall be installed
and integrated together to form one complete reliable system.
5.02.11 The Integrated Security System for COMPANY
shall be installed based on the following:
5.02.12 Road Barriers
The CONTRACTOR shall integrated security system with the
rising arm barriers . Any additional materials or modifications necessary for the
barriers to be compatible with the new integrated security system shall be done
by the CONTRACTOR.
.
5.02.13 The existing fire alarm
system shall be integrated to the new security system.
5.02.14 New crash-rated linear sliding steel gate
shall be provided and installed at Plant’s Main Gate.
502.15
crash-rated BARRCADE SYSTEM.
5.02.16 Bidirectional
Stainless Steel TURNSTILE
5.03 Summary
of Work
5.03.1 The CONTRACTOR shall provide the detail
engineering works, including design, materials selection and documentation
generation base on this document.
5.03.2. The CONTRACTOR shall furnish all
supervision, materials, supplies, labor, construction tools and equipment,
listed as described on the drawings or in these specifications, subject to
qualifications, conditions, or exceptions as noted to complete the work.
5.03.3 Construction of the proposed Integrated
Security System and associated facilities shall include, in addition to
electrical and civil works, all connected services and systems such as
communication system.
5.03.4 Rendering all necessary assistance and
coordination with other Contractor's selected by the COMPANY for the supply
and/or installation of items excluded from the Contractor's scope of work and
ensuring that the construction requirements and sequence of execution match
with such works by others, shall be the responsibility of the CONTRACTOR.
5.03.5 These specifications apply to the entire
work covered by the contract drawings and are to provide guidance in the
execution of all parts of the construction work under this contract. Compliance
with the regulations of the High Commission for Industrial Security for
developed planning and Safety Security Codes are essential and shall if
required overrides the contents of these specifications.
5.03.6 The CONTRACTOR shall provide all
supervision, materials, supplies, labor, construction tools, and equipment for
temporary structures and facilities.
5.03.7 The CONTRACTOR shall carefully examine
the premises before submitting his proposals. Before the execution of the work,
the CONTRACTOR shall check existing conditions and all dimensions involved in
the project to ensure compatibility with the drawings, proper coordination, and
interfacing.
5.03.8 The CONTRACTOR is assumed to have
visited the site to acquaint him with all the conditions relevant to the
execution and successful completion of the work No claim shall be entertained
on this account except where contract documents make definite provision for the
adjustment of cost or extension of time due to conditions not readily
foreseeable.
5.03.9 Any items of work deemed necessary for
the proper execution and completion of the project and which are not covered by
the drawings and specifications and for which amendments and change orders are
issued, shall be performed by the CONTRACTOR in accordance with the approved
standards and specifications and good engineering practices of the trade
involved.
5.03.10 The CONTRACTOR shall, unless otherwise
stipulated, secure and pay for all permits and approvals required to be
obtained from any government AGENCIES/COMPANY authorities under whose
jurisdiction the work is being performed.
5.04 Related Work:
5.04.1 Coordination:
i. This section covers all the
coordination required to execute the project.
ii. Description
a. All works shown in drawings and in
specifications shall be coordinated under this contract.
b. Coordinate the efforts of all
subcontractors, vendors and individuals. Cooperate and coordinate the work with
others operating in areas to or in the vicinity of the construction site.
c. The CONTRACTOR shall be responsible for
advance notification for required tests and inspections specified in the
technical section for certain items.
d. Inform the COMPANY REPRESENTATIVE about
such shutdown well in advance.
e. The CONTRACTOR shall not allow or cause
any of his work to be covered up or encased until it has been inspected and
approved by the COMPANY REPRESENTATIVE, should any of his work be enclosed or
covered up before such inspection, he shall uncover the work for inspection.
5.04.2 Submittals
i. Description
a. Works specified in this section are all
submittals to be made by the CONTRACTOR.
b. The CONTRACTOR shall review submittals
for compliance with codes and standards and contract document requirement,
before submission to the COMPANY.
ii. Submittals:
a. Construction Schedule
Before the work is started, the
CONTRACTOR shall prepare a detailed schedule of all construction operations
involved indicating the sequence of work, time of starting and completion of
each activity and installation dates of major items of equipment manpower
loading, cash flow, etc.
b. Samples
Three samples of all materials
proposed for use in works shall be submitted in three (3) sets for approval by
the COMPANY REPRESENTATIVE, but limited to the items as specified to be
submitted in the individual sections. Acceptance of certifications of test and
inspection shall not eliminate the right of the COMPANY to reject any materials
not conforming to specification even after delivery and installation.
c. Shop Drawings and Engineering Data
Shop drawings and engineering data
covering all products equipment fabricated materials, and all other
construction activities to be furnished under this contract shall be submitted
to the COMPANY for review and approval. These data shall include drawings and
descriptions, in sufficient details to show the kind, size, arrangement and
operation of component materials and devices, and also the connections,
anchorage, supports with dimensions needed for installation and correlation
with other materials and/or equipment
5.04.3 Quality Control
i. Description
a. The CONTRACTOR shall be responsible for
the quality control conforming to standards set forth for each item and
materials.
b. All electronic modules and components
used within the system shall be functionally tested and burned-in by the
vendor/manufacturer prior to system assembly.
c. The system components shall be
assembled as per job requirements and given a complete functional hardware test
including a 24 hours burn-in.
d. The entire system including any
application software shall be given a complete point-to-point functional test
prior to a factory acceptance test (FAT).
e. The CONTRACTOR shall notify the owner
of this intention to carry out factory test.
f. The CONTRACTOR shall furnish the
COMPANY with a detailed procedure for review and acceptance prior to testing.
This procedure shall form a checklist for use during the FAT. The COMPANY shall
be provided with a copy of the complete checklist.
g. The test witnessed by the COMPANY
REPRESENTATIVE shall include loop-to-loop check of each input, output and
control function for proper operation and display.
h. All testing, including requests,
reports, etc., are the responsibility of the CONTRACTOR. The COMPANY
REPRESENTATIVE reserves the right to verify the test by any testing laboratory
or independent agency.
i. If the COMPANY desires that any person
or firms appointed by him for his purpose periodically inspect the work, the
CONTRACTOR shall provide facilities and access to the work at all time as
required to facilitate such inspections.
j. CONTRACTOR shall be responsible for
the supervision of the entire work and maintain competent construction
management team on the job who is authorized to act in all matters pertaining
to this project.
ii. Inspection of Work
a. COMPANY shall at all times have access
to the work wherever it is in preparation or progress and the CONTRACTOR shall
provide facilities for such access and for inspection.
b. If the specification, Company's
instruction, laws, ordinances or any public authority require any work to be
specially tested or approved, the CONTRACTOR shall give the COMPANY or any
other authority than the COMPANY, timely notice of its readiness for
inspection, and date fixes for
such inspection. Inspection by the
COMPANY REPRESENTATIVE shall be promptly made, and where applicable, at the
source of supply. If any work is covered up without approval consent of the
COMPANY REPRESENTATIVE, be uncovered for examination at the Contractor's
expense.
c. All inspection and test shall be
performed in such a manner as not to unnecessarily delay the work. Special,
full load and performance test shall be as prescribed in the specification. The
CONTRACTOR shall be charged for any additional cost of inspection when
materials and workmanship are not ready at the time inspection is requested by
the CONTRACTOR.
d. Defective work materials may be
condemned by the COMPANY at any time before the final acceptance of the work,
and when such work has been condemned, it shall be removed at once by the
CONTRACTOR from the line of the work.
e. Failure or neglect on the part of the
Engineer to condemn or reject any bad or inferior work or materials shall not
be construed to imply an acceptance of the work if such bad or inferior work or
materials are discovered at any time prior to the final acceptance of the work
by COMPANY and release the CONTRACT.
f. All the safety regulations govern by
the COMPANY is to be followed in the site.
5.04.4 Construction Facilities and
Temporary Controls
i. Description of Work
a. The CONTRACTOR shall provide and maintain
on-site and off-site temporary facilities and temporary control necessary for
the performance of the work.
b. Materials may be new or used, but must
be adequate in capacity, safe for the conditions, and in conformance with the
requirements of applicable codes and regulations.
c. The CONTRACTOR shall provide a
temporary site office at the approved location for the use of the COMPANY
REPRESENTATIVE and engineer.
5.04.5 Material and Equipment
i. Description
a. Specified materials and equipment establish
the standard of quality intended.
b. Where available and complying with the
requirements, provide standard materials and equipment, which have been used
previously and successful in similar applications indicated.
ii. Materials
a. All materials and equipment used in the
works shall be of the best quality of their respective kinds as specified
herein obtained from source and suppliers approved by the COMPANY and shall
comply with the test prescribed and requirements stipulated the standard listed
Section 2.0 (Applicable Codes and Standard).
b. When reference is made in the
specifications to trade names or to the names of the manufacturers such
reference are made solely to designate and identify the quality of materials or
equipment. The CONTRACTOR shall have the option to elect any materials or
equipment, which are considered equal and suitable to those specified with the
written approval of the COMPANY.
c. The CONTRACTOR is required to use
available in-Kingdom produced materials and equipment and in-Kingdom fabricated
materials that meet the specifications as matter of preference and for speedy
execution of the work. The CONTRACTOR shall plan and procure long lead items
well in advance to meet the scheduled activity and execution completion dates.
d. Samples of all materials proposed for
use in the works shall be submitted for approval by the engineer, but limited
to the items as specified to be submitted in the individual sections. No
materials shall be used in the works without the written approval of the
COMPANY.
e. All manufactured articles, materials
and equipment shall be applied, installed, connected, erected, used, cleaned
and conditioned as directed by the manufacturers, unless herein specified to
the contrary.
5.05 Electrical Works:
5.05.1 General Provision
5.05.1.1. General
·
The CONTRACTOR shall furnish
all labor and materials necessary to install, complete and ready for use, the
power, all integrated security system equipment, grounding, control, and ,
including the installation access, excavating, concrete, paint for electrical
work and wiring of miscellaneous instrument and devices, as indicated on the
drawings and as herein specified.
·
The CONTRACTOR shall install
the whole of the electrical work in a professional workmanship and substantial
manner and in strict conformance with the latest rules and requirements of the
United States National Fire Protection Association Standard No. 70 (National
Electrical Code) and with the requirements of Local Authorities having
jurisdiction.
·
Different National or
International Standards and Codes that correspond to the American ones may be
used, provided that their requirements are not less stringent. All works shall
be done according to the same standard.
·
All underground cable shall be
in conduit, even if the Contractor proposes direct buried armored type cables.
·
The system shall interface with
local main power supply. The following voltage levels available at COMPANY are:
220/380
VAC or
127/220
VAC
·
An uninterrupted power supply
unit shall be provided to support the entire security system.
The
unit shall provide power to the following facilities:
a. Fence vibration and microwave detection system
b. Digital Closed Circuit TV System
(DCCTV)
c. Access Control System
d. Rising Arm Barriers
e. Door Monitoring/Alarm Units
f. Turnstile System
h. Crash-Rated Plant Sliding Gate
i. Crash-Rated Rising Barricade at Plant
Inner Gate
g. All Facilities installed inside the security control room
for integrated security system and covered in the CONTRACTOR Scope of Work.
The UPS system design shall comply with SEC
Standard requirements.
Other security system shall be fed separately with
a minimum of one circuit breaker, depends on load size and location.
Circuit protecting devices shall be well
coordinated for optimum reliability, such as ground fault and overload relays.
The CONTRACTOR shall specify lead-acid type
batteries for the UPS system.
5.05.1.2 Basic Materials Section and
Methods
·
All electrical materials and equipment
shall be new and standard product of the latest approved design. Like items for
the same service, shall be the products of a single MANUFACTURER in order to
provide maximum interchangeability. All items shall be properly stored to
prevent deterioration due to rust or entrance of dust.
·
All wires and cables shall be
new. Cables shall have permanent identifications conforming to NEMA and UL
standards. Conductors shall be copper, annealed Class-B standard. Cables shall
be multi-core and insulation shall be suitable for permissible conductor
temperature of 90 degree centigrade.
5.05.1.3 Nameplates, Identifications, and
Markings
·
Nameplates shall be installed
on all devices or pieces of equipment for which the use of identification may
not be readily apparent, such as, but not limited to, relays, contactors,
push-button indicating lights and switches.
·
The end of all wires cable
including splices and joints made in junction boxes and at terminals shall be
marked for identification. Instructions and circuit details shall be furnished
in Arabic and English with Arabic taking precedence as necessary for operation
and safety. All controls shall be also located to permit observation of the
equipment controlled and at an effective height for ready accessibility of
operation.
5.05.1.4 Interference and Erroneous
Locations
·
The location of electrical
equipment, devices, outlets, similar items, as indicated on the drawings, are
the approximate only. Exact locations shall be determined or accepted during
construction.
·
The CONTRACTOR shall verify in
the field all data and final locations of work, done under sections of
specifications, required for the execution of electrical work.
·
In case of interference with
other work or erroneous locations with respect to equipment or structures, the
CONTRACTOR shall be responsible for all labor and materials necessary to
arrange and perform the work in an acceptable manner.
5.05.1.5 Protection of Electrical
Equipment
·
Electrical equipment shall be
protected from weather especially from water dripping or splashing upon it, at
all times during shipment, storage, and construction. Any damage or defective
item shall be replaced by the CONTRACTOR without additional charge.
5.05.1.6 Approval and Marking of
Equipment
·
Electrical devices and
materials shall be as listed and/or labeled by the Underwriters Laboratories
Inc., or equivalent recognized institution wherever standards have been
established.
·
All equipment shall have the
name or trademark of the manufacturer, the rating in volts and amperes, and
other pertinent information clearly marked thereon on a location where they can
be observed easily after installation. No work shall proceed until shop
drawings and samples have been approved. All works shall conform to the
approved shop drawings and
5.05.2 Installation
5.04.2.1 Installation of Panels
·
Before installing equipment and
devices, the floor shall be cleaned.
·
Self standing panels shall be
installed carefully checking for level and perpendicularly in all directions, and
liners shall be used to correct the level and perpendicularly when necessary.
·
When panels are installed in a
line, care must be taken to prevent irregularity, especially taking into
consideration level and perpendicularly, and joint bolts shall exactly be
tightened to prevent looseness and failure.
·
When equipment and devices are
delivered and installed, care shall be taken to prevent their coatings from
damage. When positioning has been determined, equipment and devices shall be
fixed to the foundations as soon as possible.
5.05.2.2 Installation of Electrical
Equipment and Devices
·
When equipment and devices are
installed, positioning shall be determined taking into consideration the
following items:
a. Locations, which permit easy access for
operation and maintenance.
b. Locations, which are not significantly
affected by vibration.
c. Locations, which are not affected by
stream and exhaust gases and which are not close to high temperature pipes or
equipment.
·
Bolts having sufficient
strength are to be used, and spring washers to be provided to prevent
looseness.
·
Equipment and devices shall be
rigidly installed to resist their weights, and care shall be taken to ensure
that they are water proof, moisture proof and heat resistant.
·
The standard installation
heights of equipment and devices shall be as follows:
|
|
LOCATION |
|
|
ELECTRICAL EQUIPMENT AND DEVICES |
HAZARDOUS AND ORDINARY OUTDOOR LOCATIONS (m) |
ORDINARY INDOOR LOCATIONS (m) |
|
a. Distribution Boards (top of board) |
2.0 above
floor |
1.8 above
floor |
|
b. Local Push Bottom Station (center of P.B.
Station) |
1.5 above
floor |
1.5 above
floor |
|
c. Outlet (center of outlet) |
0.8 above
floor |
0.3 above
floor |
|
d. Tumbler switches (center of switches) |
1.2 above
floor |
1.2 above
floor |
5.05.2.3 Cable Work
·
Cable and wires which are
specified in wiring diagrams, connection diagrams or other specifications shall
be used for works. Splicing of cables should not be executed in principle. If
splicing is unavoidable, it shall only be executed with the approval of
COMPANY.
·
Cable sheaths shall be black,
and identification of power and control cables shall not be performed.
·
The cables shall be newly
manufactured.
·
Color identification of cable
conductors shall be as follows:
|
APPLICATION |
No. Of CONDUCTORS |
COLOR IDENTIFICATION |
|
Low-Voltage
power and for control cable |
2 |
Black &
White |
|
|
3 |
Red (U),
White (V) and Black (W) |
|
|
4 |
Black,
White, Red & Green |
|
|
6 |
By Numbering
from 1 and Over |
|
|
|
|
·
Color identification of wires
shall be as follows:
127 VAC : Red and white (white neutral phase)
220 VAC : Red and red
Grounding wires : Green with yellow stripes
·
Cable termination caps to be
provided on both cable ends, for Low Voltage and control cables.
Cable number tags, which are
specified in design drawing to be attached to cables.
·
Underground Pipe System (Duct
Bank)
a. Non-metallic pipes of minimum 50 mm
(2”) diameter shall be used for underground pipe system.
b. The earth shall be excavated, and
then tamped. On locations having weak ground, ballast shall be placed and then
tamped, and underground pipe system shall be constructed.
c Pipe connection shall be made by
adequate couplings and sealed.
d. Power and control cables must not
be laid in the same pipe.
e. The cable shall utilize maximum of
the conduit space allowed in accordance with NEC.
·
Laying Cables
a. Before laying cables and conduits,
the site (i.e. laying ground) shall always be cleaned and inspected to remove
foreign matter. In addition, cables shall carefully be laid to prevent them
from damage due to fall of scaffolding plates and nails etc.
b. When leading cables in conduits,
cables shall not be coated with hazardous substances such as oil and grease. If
coating is unavoidable, paraffin or mica powder shall be used.
c. In principle, cables to be laid on
cable rollers to prevent unreasonable force on cables, and tensile strength,
which the cable manufacturer recommends, shall be observed.
d. Cables shall be laid with minimum
bends. When cables require bending, it shall conform to the standard stated
elsewhere in this specification.
e. Cable from cable pit or duct to
equipment shall be installed in conduit pipe.
f. After cables have been laid,
adequate measures shall be taken to protect them from damage until permanent
protective devices are provided.
·
Cable Gland on Terminal Box
a. The lead-in method of cables to
terminal boxes to be as follows:
Flameproof packing type cable
gland shall be used for flameproof terminal boxes.
Flameproof packing type cable
gland shall be used for safety-increased terminal boxes.
·
Cable
Termination
a. When termination is done by taping,
self adhesive tape and rubber tape shall be used.
5.05.2.4 Conduit Works
·
Conduits and Accessories
a. Rigid hot dip galvanized steel
conduits of minimum size 25 mm diameter and their accessories shall be used for
conduit works.
·
Installation of Boxes
a. Where pipes are longer than 30 m.
Pull boxes shall be provided.
b. Where there are more than 2-90
degree pipe bend requirements, pull boxes shall be provided.
c. Where there are more than four (4)
branches, joint boxes shall be provided.
d. The boxes shall be rigidly fixed to
buildings or supports.
e. The boxes covers, which are located
two meters above ground, shall be faced to platforms or stages.
·
Joint of Conduits and
Accessories
a. Joints of conduits and accessories
in hazardous locations shall be executed as following:
Screw thread shall be ISO
parallel thread, and shall fit each other by more than 5 threads.
Conduits transitions shall be
jointed by couplings and explosion-proof union couplings shall be used at the
one end of conduit run.
Conduit joints shall be coated
with sealant.
b. Joint of conduits and accessories
in non-hazardous locations shall be executed as follows:
Screw thread shall be ISO
parallel thread and shall be fit each other firmly.
Conduits transitions shall be
jointed by couplings, and union coupling shall be used in one end of conduit
run.
When conduit is jointed with
box, conduit shall be tightened to the box by lock nuts and bushing shall be provided.
When boxes or cabinets are
coated with paint, paint shall be completely removed, and lock nuts shall be
tightened to perform electrical connection.
·
Installation of Conduits
a. Support of conduit shall be
provided in every 1.5 m on hazardous locations and every 2 m on non-hazardous
locations.
b. Conduit support shall be welded to
steel structure.
c. Conduits shall be installed
avoiding unnecessary bends, and measures to prevent condensation shall be
provided.
d. Normal bends shall be installed
avoiding unnecessary bends, and measures to prevent condensation shall be
provided.
e. Bending radius of the conduits
shall be more than 6 times of the conduit inside diameter.
f. U shape piping shall not be
performed for conduit runs to avoid water condensation.
g. Conduit shall not be installed at
locations, which are exposed to the high temperatures equipment or piping.
h. Conduits shall be provided with
bushings, at the cable pit or duct side to prevent cables from damage during
installation of cables into conduits.
i. Grounding resistance of conduits
to be less than 100 ohm.
·
Wiring
a. Before installing cables into
conduits, the inside surfaces of conduits shall be cleaned to prevent cables or
wires from damage.
b. Wires in boxes shall have enough
spare length for maintenance.
c. Connections of wires to boxes and
equipment shall be performed by solder less sleeves or terminals, and tape
shall be sufficiently lapped on the connections.
d. Connection must not be done in
conduits.
e. When cables or wires are extended
to conduit etc., wiring works should be executed to ensure that cabling or
wires should not have abnormal stress.
·
Sealing Fitting.
a. Explosion Proof sealing fittings
shall be provided at the following points of division 1 locations.
Boundary of hazardous location
and non-hazardous locations.
Within 45 cm from terminal boxes
or boxes.
Every 15 m. when conduit length
exceeds 15 m. and conduit sizes are 54 mm and over.
b. Connection and branching of wires
must not be performed in sealing fittings.
c. Drain type sealing fittings shall
be provided to remove drips from the conduits, which come down to boxes or
devices.
d. Sealing compound shall be filled
exactly, and thickness will be more than the inside diameter of a conduit and
minimum 20 mm.
e. Sealing compound shall be filled
after wiring check and operation test have, completed. After that, the filling
part shall be completely plugged.
·
Flexible Fitting Connection
a. Flexible fittings shall be provided
for conduit jointing to motors and devices where the adjustment of position or
angle is required.
b. Flexible fittings shall be provided
to release the stress of conduit runs.
c.
Length of flexible fittings
shall be 1 m for the 42 mm diameter and above, 0.5 m for the 36 mm diameter and
less.
d. Flame proof type flexible fittings
shall be used in division 2 locations and water-proof types flexible fittings
shall be used on outdoor locations.
When bending flexible fitting,
radius shall be more than 5 times of outside diameter of flexible fittings.
Flexible fittings must not be twisted.
·
Grounding
a. Grounding Conductor:
Bonding and grounding conductors
shall be insulated stranded annealed copper wire.
Grounding conductors within
cable assemblies shall be insulated and shall be of the same materials and
stranding as the line conductors.
b. Grounding Methods:
Burial depth of grounding
conductor shall be more than 60 cm.
Where the wiring method is
buried cable, grounding conductors shall be laid in cable trench as far as
routing permits.
In case the wiring method is
underground pipe, grounding conductors shall be laid in the pipe as far as
routing permits.
Where grounding wire passes
under the main roads, paved roads, or paved areas they shall be run in rigid
metal conduit pipe sleeves or duct bank.
In case grounding wire pass
under the roads which are not paved, burial depth or wire protective cover
shall be considered to prevent damage to the wires from anticipated heavy loads
such as mobile cranes or equipment transport.
c. Grounding:
Grounding resistance shall be
based on the worst season through out the year considering seasonal variations
in soil condition (total resistance shall be 10-15 ohms).
Grounding electrodes shall
consist of rods and shall be as follows:
Rods shall be copper lad steel.
Tops of rod shall be 75 cm below
grade as minimum.
The grounding conductor shall be
connected to the rod by silver soldering welding.
Distance between the grounding
electrodes shall be more than 3 meters.
d. Grounding Connection:
Grounding conductor connection
to structures and equipment shall be made above ground and as follows:
Grounding wires shall be
connected to grounding piece.
If splices or branches are
required in underground runs, they shall be made using compression connectors.
Screw-type solder less
connectors or similar mechanical connectors shall be used in underground runs.
Bolt and nut (with washer and
spring washer) for grounding connection shall be stainless steel.
e. Enclosure Grounding:
Metal enclosure for wire and
cable such as conduits, cable tray and raceway shall be grounded.
Grounding wire connection to
metal enclosure it be made by solder less terminal.
f. Grounding wire stub up points
to the ground shall be as follows:
Conductors shall be protected by
non-metallic conduct pipe or sleeves.
Sleeves shall be extending a
minimum of 0.3 m below grade and 2 m above grade.
Non-metallic pipe or sleeves
shall be rigid polyvinyl chloride or high density polyethylene.
*** END OF
SECTION 5.0 ***
6.0 SYSTEM SPECIFICATION
6.01 General
6.01.1 Overall system configuration drawing
shall be submitted indicating the following as a minimum for the, fence intrusion, ID/Access Control, DCCTV, Door
Monitoring,, UPS System :
·
Signal flow diagram from
sensors/field devices up to the security control room, indicating all interface
equipment.
·
Cable configuration indicating
number of cores used and spare.
·
Integration/networking in
control room indicating all the subsystem - alarm management system, DCCTV
system, ID/Access control system), hardwire semi-graphic mimic
and etc.
6.01.2 All the system components including
hardware and software shall be fully interchangeable.
6.01.3 The entire security system shall be
“fail safe”, i.e. any failure in the system component/cabling shall be
enunciated in control room.
6.01.4 The entire security system shall be
equipped with state-of-the-art components diagnostic system and shall be
presented in a manner that is easily deciphered, and equipped with an automatic
diagnostic subroutine that can be set at a predetermined time to automatically
interrogate and check/evaluate the status of the processor, communication
lines, and equipment, critical devices and all power sources.
6.01.5 A 25% spare capacity shall be installed
(or built) into the system for following as minimum
·
All type of main cables (fiber,
power, signal, etc.)
·
All type of cables connection for all camera are fiber
·
Input/output hardwired points
for monitoring and controlling units. The actual/spare numbers for the proposed
cable and input/output devices shall be indicated.
·
System database and storage
capacity.
6.01.6 All major components of the system
(i.e. Computer Hardware, Controls, Signaling and Data Communication Network etc.)
shall be fully redundant.
6.01.7 The overall system shall be designed
for high degree of availability considering mean time to repair of 2 hours and
24 hours for minor faults and major faults respectively.
6.01.8 All hardware particularly planned to be
installed in the field shall be proven for similar environment and the vendor
shall provide installation references in KSA/Gulf countries.
6.01.9 All box enclosures utilized in the
system shall have a tamper monitoring device that will activate the alarm at
Security Control Room in case of box tamper.
6.01.10 A list of various international standards
according to which the proposed hardware is designed shall be provided.
6.01.11 Tentative requirements for preventive
maintenance schedule of all components shall be provided .
6.02 Fence Detection System
6.02.1 Vibration Detectors
The intruder alarm and
indication methods shall comply with the regulation set out in HCIS SSD-15.
“Intruder Detection System” and Section 5.0 of HCIS specification pertaining to
perimeter intruder detection and shall meet or exceed the following
specification. Inspection of the condition of current fence will be the
responsibility of each CONTRACTOR prior to quotation.
i. Intruder alarms shall be displayed
on consoles in main control room and recorded in the system event logger.
ii. Audible indication alarms shall be
made available. An option for sound suppression shall be included.
iii. The fence detection system shall be
linked to the DCCTV cameras, so that when an alarm is activated, the video
events of the point of intrusion can be recorded (both pre-alarm and
post-alarm) and observed on monitors within the control room and guard houses.
This event shall occur automatically or manually, depending on the preference
as configured on the system by the operator at the Security Control Room.
iv. Detectors shall have a very low
false and nuisance alarm rate. The detection method shall prevent alarms
resulting from small animals entering the perimeter detection zones and those
caused by weather effects such as sand drifts, flying birds, papers, and other
debris. A rate of one (1) false alarm per month per zone is acceptable.
v. The detection method shall be
secure against radio frequency and electromagnetic interference and acoustic
effects.
vi.
The detection field shall cover
the entire fence, including the fence height being a minimum of 2.9 m. The
CONTRACTOR shall confirm full compliance with this minimum requirement.
The digital
signal processing shall enable detection and analysis of sensor cable
stimulation. The digital signal Processor (DSP) also provides discrimination
between natural phenomena and intrusion attempts. Using a pre – programmed
algorithm senses wind effects and continuously adjusts the system sensitivity
to components.
vii. The detector shall withstand the
environmental and climatic conditions as detailed on Section 2.0 of this
document.
viii. The detector shall be easy to maintain
and repair. The system diagnostics shall include detector faults and
malfunctions.
ix. An alarm shall be activated if
attempts are made to climb the perimeter security fence.
x. An alarm shall be activated if
attempts are made to cut the perimeter security fence.
xi. The total fence areas shall be
divided, possibly in equal length not exceeding 250 meters.
xii The cable outer sheath shall be of
the polyethylene group of sheathing grade polymers and must be resistant to
environmental degradation with and anticipated life of not less than twenty
years.
xiii The design of the sensor cable should
be such that any electromagnetic interference shall not cause any degradation of system performance.
xiv. The cable shall have uniform
sensitivity along its entire length.
xv. Sensor cable shall be terminated in
an end of line resistor to provide tamper alarms in the event of any attempt to
short circuit or cut the sensor cable.
xvi Signal analysis can be performed at the control center or locally at each zone
location, incorporating individual zone
setting for sensitivity, actuation time delay (minimum of zero) and count.
xvii The fence mounted interface unit shall
be remotely
relocated in the control room and shall withstand local environment
mentioned elsewhere in this document.
The fiber alarm processing unit should be advanced next –
generation alarm processor compatible with insensitive lead – in fiber optic
cable. The use of intensive lead – in fiber allows the APU to be mounted up to
20 Kilometers away from the protected zone, leaving only the inert fiber optic sensor
cable deployed in the zone
The APU can connect to and support sensor cable from two
detection zones regardless of their applications. Both channels support up to 5 Km, of senor cable
.
xviii The interface shall convert the sensor
cable signal into a medium for transmission to the central console and provide
zone tamper monitoring and activation to
the control room. The internal calibration drifts of the interface units shall
be kept to a minimum and CONTRACTOR shall explicitly state the frequency of
calibration on yearly basis.
xix Sensor cable and feeder cable
connections shall be made via a multi-way terminal block within the interface
enclosure. Cable entry into enclosure shall be via appropriately sized
weatherproof glands. Surge suppressors shall be fitted to all connections.
xx. Power Supply: All system electronics
shall be supplied from UPS located at
xxi The control system shall provide
visual and audio indications of activity on the perimeter for each zone on a
hardware semi-graphic panel and PC console/GUI Interactive Map in the security
control room.
xxii The equipment in each zone shall be
tampered-free.
xxiii Indicators: Audio and visual
indications shall be provided on PC console as follows:
Alarm for each zone (Vibration
Detection System)
Alarm at each Zone (Microwave
Detection System)
Full Alarm Condition
Sensor cable fault
xxiv Perimeter
Pre alarm
Full Alarm (when both detection
system coincide)
Zone failure
UPS failure
Access System: Equipment failure
Duress Alarm
Reject entry
xxv All gates installed on perimeter fence
shall be possible to open and respective zone protection shall be isolated or
blocked whenever required by the console operator.
xxvi Operating
Temperature : The System shall operate correctly in ambient temperatures
as detailed in this document.
xxvii Humidity : The system shall operate correctly in
relative humidity levels as detailed in this documents.
6.02.2 Microwave
Detectors
The microwave intrusion
system shall be installed as an independent fence protection system based on Digital Technology and fuzzy logic.
However, the output from fence intruder (vibration detection - section 6.02.1),
and microwave detection system shall be combined in the central processor and
full alarms rose only for coincident events registered by both systems Microwave detection system shall meet or
exceed the following specification:
i.
The system shall utilize an
effective antenna patterns to achieve an optimum detection. This antenna range
shall cover a zone length of max. 200
meters with height coverage of 6 meter from ground level.
The system
should be able to detect belly crawl.
ii. Microwave transmitters and
receivers shall be designed and installed such that those will not cause any
interference to surroundings or being interfered by others sources of same kind
and shall be environmentally safe.
iii. Zone overlapping shall be considered
for optimum coverage of the perimeter areas.
iv. Transmitters and receivers shall be
installed on properly designed 4” pole mountings with concrete foundation
meeting COMPANY’S standards.
v. Microwave antennas and other
equipment shall have an anticipated life span of not less than fifteen (15)
years.
vi.
All cabling to and from the
transmitter and receivers shall be from the bottom side.
Vii Technical
Data Required:
Frequency X – Band Certified
Target Speed From 0cm /
sec to 15 m/sec.
Probability of detection:
0.99 minimum based on S/N Ratio.
MODULATION CHANNELS: 16
TEMPERATURE: -5°C / +
65°C
ALARM
OUTPUTS: ALARM, FAULT, TAMPER
6.03 Digital
Circuit Television Monitoring System (DCCTV)
6.03.1 The DCCTV system shall conform to all
clauses of HCIS standard section 5.0 pertaining to DCCTV system. The DCCTV
system in general shall serve the following functions:
·
Shall be capable of monitoring
the overall view of the entire plant area
·
Shall be capable of monitoring
the entire perimeter fenced area (through the camera installed on camera poles
near the fence).
·
Shall provide accurate view of
the alarmed area.
·
Shall be capable to have a
continuous monitoring of the affected areas.
·
Shall provide high reliable Video Motion
Detection System.
·
Shall be capable of archiving
and playback video events and images (through DVR).
·
Shall be a Central
Video Management System for security
surveillance and video control – both
analogue and digital networks
The
control software component shall base on
a client / server software
architecture using TCP / IP addressing. Which makes it suitable for use on distributed hardware interconnected via
standard LAN/WAN systems.
- The set – up client
software is used to define all user specific functions either locally or
remotely:
§ Matrix hardware control
§ Outdoor video motion
§ Alarm signal processing.
§ Display and recording of
video alarm events.
Note: All other installation materials,
suitable camera lenses for cameras, video controllers etc., shall be proposed
by the CONTRACTOR for an approval by COMPANY.
6.03.2 DCCTV Day/Night Color Cameras:
The
below listed specification are the general guidelines for designing and
selection of Day/Night type color cameras as being referenced under scope of
work, scope of supply and design details elsewhere in this document.
·
Cameras shall be of a suitable
image format that will satisfy the requirements, high-resolution Day/Night type
color video cameras for use in environmental enclosures, pan/tilt/zoom
(mobile/dynamic), and static (fixed) mounts.
·
Camera shall feature enhanced
sensitivity, low power consumption, wide environmental operating range, making
this camera suitable for a wide variety of surveillance applications.
·
The Camera must perform well
under range of lighting conditions. To enhance sensitivity when night falls,
the Day/Night camera shall be able to automatically or manually (i.e. depends
on configuration) switch from color to monochrome (B/W) and adjust its shutter
to a lower speed to increase its sensitivity.
·
The minimum sensitivity of the
day/night camera to create usable video shall be as follows:
Day Mode (Color) :
.5 lux
Night Mode (Monochrome/Black
& White) : 0.002
lux
·
The camera feature shall
include “image stabilization” which filters out vibrations to compensate for
camera movements caused by environmental conditions such as wind, ensuring a
steady picture, especially when camera is zoomed to its maximum range.
·
Primary features shall include
intelligent backlight compensation, automatic shutter, selectable electronic
shutter, and automatic with manual override focus and iris control.
·
Camera design shall incorporate
digital adjustment control in place of conventional color setup potentiometers
and most other potentiometers. Alignment parameters shall be permanently stored
in non-volatile memory for increased stability and consistency.
·
Camera shall incorporate an
interline transfer CCD suitable image format imager with 752 horizontal and 582
vertical active picture elements. Horizontal resolution shall be 540color ,600monochrome lines or better.
·
Design shall include a built-in
ground insulation transformer, which shall inhibit ground fault conditions.
·
Power shall be supplied to the
camera by means of screw terminals located on the camera back panel in a
weatherproof junction box.
·
Design shall feature an
all-metal housing.
·
All controls shall be located
on the side of the camera and shall be concealed by a cover. Control and their
function shall include:
White
balance : Fixed or Auto
Phase
Adjust : 0-360
Auto
shutter control : Level and ALC
Back
light compensation : On/Off
Synchronization
Mode : Internal crystal reference or line-lock
AGC : On/Off
Focus Control : Auto Focus with Manual Override
Iris Control : Auto Focus with Manual Override
·
Shutter speed operation shall
reduce camera light sensitivity by one (1) fc -stop for each additional shutter
speed.
·
If required, cameras shall be
fitted with lights, which shall give white illumination to assist in night
surveillance.
·
The Camera and its enclosure
shall be designed to handle the site environmental conditions as detailed on
Section 3.0 of this document as well as the actual plant area classification.
·
ALL CAMERAS SHALL BE
DIGITAL PROCESSOR.
·
ALL CAMERAS SHALL BE
BUILD IN FIBER OPTIC.
·
Operation
temperature ( 60oC).
6.03.3 PTZ
Units:
·
Pan travel shall be 0-360 continuous and tilt shall be ± 90o
for cylindrical or rectangular tube mounting type.
·
Pan travel shall be 360o
continuous and tilt shall be –5o ± 90o from horizontal
plane for dome type camera mounting.
·
Pan tilt speed shall be 60o/sec
minimum.
·
PTZ units shall be industrial
type, heavy duty for outdoor use and shall meet the area classification
requirements.
·
Optical and digital zoom range
of the cameras shall be designed and selected to successfully meet the
monitoring requirement of each camera per assigned area and to provide accurate
and clear video events and images of the area it covers.
·
PTZ units shall be capable of
having a minimum of 16- configurable preset positions and respond to control
commands from a matrix system, and can be set automatically, including the
dwell time duration per position to simulate guard tours activity.
·
Pan/tilt shall have a feed
through style wiring harness providing for pan/tilt and lens control, camera
power enclosure power and video design of harness shall allow for all
connection to be made at a single input connector.
·
Pan and tilt movement shall be
driven by worm gears to minimize backlash and prevent wind drift. Worm gear
assembly shall allow for wear adjustment.
·
All PTZ units shall be equipped
with duty continuous scanning operation controllable by the operator in
security control room.
·
Grease nipple shall be provided
wherever necessary.
·
When the operator stops manual
control of the camera, the “inactivity” option determines what the camera
should do next, (as configured). The options are:
·
128 PRE- SET
6.03.4 TFT
- LCD Video Monitors:
Video monitors which shall be
installed in control console in security control room, gatehouses, plant
control buildings, and SEC-WRB Hqs. shall meet or exceed the following
specification:
·
LCD Panel shall be 21”
(diagonal) SXGA TFT LCD
·
16.7 Million Color Display
·
Television standard shall be
EIA 525 lines, 4:3 aspect ratio.
·
376.32 mm x 301.056 mm display
area.
·
Resolution of 1280 x
1024 .
·
Linearity shall be less than 2%
of raster height.
·
The monitor shall be flicker
and static free.
·
Video input shall be 1.0 V, pp
/ 75 ohms unbalanced.
·
Video Interface shall be
compatible with the video matrix, workstations, and servers. The CONTRACTOR
shall provide any video interface converter/adapter as necessary.
·
All panel controls shall be
located in the front.
·
Monitor shall operate on a
127/220 VAC, 60 Hz power supply.
·
Monitor shall be capable of
desktop or rack mounting installation.
·
SHALL DISPLAY UP TO 64 CAMERAS ON ONE Monitor
6.03,5 Outdoor
Camera Enclosures:
·
Design of this enclosure shall
allow easy and convenient access to camera for installation or maintenance.
·
The Lid design shall be such
that it extends over the front of the enclosure to obstruct direct exposure to
sunlight.
·
Cable/wiring shall enter the
enclosure through appropriate cable gland as per the area classification
requirements located on the bottom of the enclosure.
·
Enclosure shall be designed
according to area classification requirement as mentioned in this document and
shall be sealed and pressurized, and capable of withstanding the site ambient
temperatures.
·
Sunshields shall be provided
for all outdoor enclosure.
·
The metallic materials of the
enclosure shall comply with the site conditions as mentioned in this document.
·
The mounting pole for the
camera should be securely fixed so that excessive movement of the camera by
wind or general climatic condition is prevented. The camera in the perimeter
fence should be installed at a height of approximately 4.5 to 5.0 meters above
ground level.
·
The camera shall possess an
automatic cleaning mechanism for the glass-shield such as wiper and washer that
is controllable from the security control center.
·
The camera should be installed
at a height of approximately:
4.5 to 5.0 meters above ground
level - For perimeter fenced camera.
The PTZ cameras housing shall be nitrogen
pressurized.
The outdoor Fixed camera
housing with bracket should be IP
67 stainless steel 316 suitable for marine time type and industrial application with heater.
6.03.6 Digital
Video Recorder (DVR)
The below listed specification are
the general guidelines for designing and
selection of DVR system for the DCCTV system as being referenced under scope of
work, scope of supply and design details elsewhere in this document.
·
The Digital Video Recorder/Software (DVR)
·
designed as a single system
·
Monitor shall automatically
display camera ID, time and date information, as well as 56 programmable
alphanumeric characters, and system generated status prompts.
·
System shall be controllable
with up to … independent keyboard controllers and/or through GUI intuitive
software and using mouse.
·
Programming capabilities shall
allow for assignment of any or all camera inputs to any or all monitor outputs
based on individual user(s) and keyboard-to monitor lockout software programs.
·
The system shall allow user to
view live and recorded video from multiple camera utilizing easy to use GUI
software. User can choose from single, 2x2, 3x3, 4x4,4X8, 4X16 display modes.
·
The GUI software can
be displayed on Two computer monitors, one dedicated for multiple camera views
and one for the Camera layout maps.
Map
allows the user to click on camera, monitor or other security system icons on a
screen, causing the relevant reactions on any subsystems. Vice versa, any alarm
event can cause Multi-Map to pop up a certain map.
·
Programming shall be done from
any system keyboard utilizing any system monitor without the need for any
external PC. Programming shall be menu-driven. Pull-down menus shall be
displayed on any system monitor and through the aid of intuitive GUI
software/map. Cursor movement, menu selection, and data input shall be made
directly from any system keyboard.
·
Programming capability as well
as any keyboard operations shall be restricted to specific user(s) based on
user password. (4-Digit user number plus 5-digit ID code)..
·
Keyboard to monitor lockout shall be
programmable by authorized user(s).
· Time and data information shall be programmable by authorized user(s)
·
Sequences, tours, alarm
definitions, and events shall be programmable by authorized user(s).:
Manual and internally interlock
latch type buttons for 16 preset PTZ positions shall be provided in the
security control room keyboard for call-up of any camera to any monitor.
“Next camera” and “Previous
cameras” ” and
by number selection .
Control function shall include
pan/tilt, motorized zoom lens, cameras power, preset position call-up, and
auxiliary functions.
control the PTZ Day/Night cameras and correlated through intuitive GUI
software.
· Design/Configuration
Modular build-up design shall be utilized to accommodate system expansion.
Card cage shall contain CPU and power supply and support all video input, video output, alarm input and relay output cards.
CPU card shall contain as a minimum of eight (8) keyboard ports (expandable to 16 keyboard ports), one (1) parallel printer port, and two (2) serial ports.
Keyboard controllers shall be available in both desktop and rack mount versions.
· Electrical Specifications:
Electrical input power shall be 127/220 VAC, 60 Hz from UPS Panel mentioned in this document.
Input power cord to CPU/card shall be detachable.
Video connections for all video inputs and outputs shall be standard BNC type connectors.
Video input level: 1V p-p
nominal
· The Digital Video Recorder (DVR) ) WILL be designed AS independent systems.
· Design shall be state-of-the-art, powerful, reliable, and intelligent Digital Video Recorder (DVR) system and access control systems to complete the new integrated security system
· Video Motion Detection Software suite
· Camera Mapping.
· FULL VEW OF THE SITE SHOWING INTRUTION DETECATION SYSTEM AND SHOWING THE INTRUTION LOCATION.
· View live and recorded video from any camera on the network
· The new Digital Video Recorder (DVR) system is a combination of powerful and high reliability computer/processor with enough hard disk storage capacity and an intuitive user friendly GUI based video recorder management software, running on either Windows 2000 or Windows XP platform, and shall be designed to support and manage video events and image files of the DCCTV system …. Plant integrated security system.
· The system operates as a virtual matrix proving camera switching and selection and shall support simultaneous records, display live video, plays back recorded video, and archiving, and control
· DVR system features shall include but not limited to the following:
Processor, hardware, and peripherals shall be the latest available in the market. The COMPANY shall approve specification during the base design stage.
Shall have hard disk storage capacity of not less than 3TB to be used for saving video events, where it is available for immediate playback and/or can be archived/saved .
Running on either Windows 2000, or Windows XP platform. These OS shall be preloaded on the DVR computer. The CONTRACTOR may propose newer Windows OS platform such as Windows XP if supported by the proposed DVR software and hardware.
Shall be equipped and preloaded
with the advanced, intuitive, user-friendly GUI based video recorder management
software for controlling and programming.
Shall support multi-camera view. The operator can choose from single, 2x2, 3x3, and 4x4 4X8,4X16 display modes.
Shall support multiple recording operations and features .
SHALL playback features shall include normal motion, slow motion, freeze frame, forward and reverse frame and intelligent alarm/event or file searches or retrieval.
DVR system shall be capable of
assigning or tagging an organized and easy to identify filenames for all
recorded video events and images. :
Scheduled Recording:
DVR can be configured to record
only during specific hours of the day and days of the week.
On-demand Recording:
DVR can be configured to record
at the request or activation of the operator.
Alarm-triggered Recording:
Recorders can be configured to
record only when an alarm condition occurs (e.g. from motion detection , access control system, fire alarm system,
etc.), providing pre, and post event recording.
As a minimum:
Pre-alarm video events may be
set to 0 – 2 minutes.
Post-alarm video events may be
set to 0 – up to end of alarm (i.e. until the acknowledgement/clearing of
alarm).
Continuous Recording:
DVR can be configured to record
24 hours, 7 days a week.
Activity or Motion Detection
Recording:
DVR can be configured to record
video events (both pre-alarm and post-alarm)
) as a component of the DCCTV system.
·
The system shall provide high performance and
reliable detection of intruders under a wide range of changing environmental
conditions.
·
The system shall minimize the
occurrences of false and nuisance alarms caused by small animals, blown
debris/papers, birds, clouds, sand storms, rain, moving trees, and wind induced
camera movements.
·
Intruder alarms shall be
displayed on consoles in main control room and recorded in the system event
logger.
·
DVR recorder/player shall be
able to support standard PAL frame rates (100 fps) for both MPEG-1/VCD and MPEG-2/DVD quality (720 x 576)
resolutions
·
Cd/rw, dvd,+r/-r , dvd/rw
6.04 Access
Control System
The
function of the access control system is to monitor and record personnel entry
to and exits from the site, and to restrict staff entry in areas of high
security.
The Access Control system
should support Alarm color graphics maps, video badging, and basic time and
attendance provides support for up to 1000
readers (various reader technologies), 255 access levels, 128 time zones per
controller with 6 intervals per time zone as standard.
- Multi
– user operating environment.
- TCP/IP
protocol / Network support.
- Time
activated reader modes.
- 2
Card control /2 man control.
- Integrated
graphic map display included.
- Integrated
badging included
- Basic
time and attendance included.
- Alarm
zone grouping / group arming / disarming.
- Inputs
to Outputs Linkages.
- Database
segmentation.
- On
Screen reader control in alarm mode.
6.04.1 Turnstile
Turnstiles
shall be supplied at main gate of the
plant entrance used by personnel who are largely on foot.
Turnstiles
shall be fitted with card readers. The turnstiles and readers shall have the
following minimum requirements.
·
The turnstiles installed shall
conform to SSD-16-23-24.
·
Turnstiles shall have a
proximity card reader on both sides. The card reader shall be fitted with a
keypad for entering personal identification number (PIN). It should be
bi-directional movement and shall be automatically and manually selected from
the central processing unit.
·
Entry to (and exit from) the
site shall be gained by verification of the card through the reader and
entering a PIN in the keypad.
During
rush hours PIN number punching may be suppressed/disabled, i.e. card
verification shall be means of entry/exit in order to avoid long queues at the
turnstiles.
·
Turnstiles shall be heavy-duty,
and made of stainless steel, and of full height not less than two (2) meters
and be installed side by side to minimize the required space.
·
Cable entry point shall be at
the bottom side from the underground.
Construction: Portal frame: steel construction, Anti
Tamper upper housing locked
with cylinders
Surface: Steel parts: hot-galvanised (portal frame, entry/exit
enclosure, barrier element)
Column:
stainless steel glossy (AISI 304) (electro-polished)
Function: Servo-positioning (motor) drive in 1 or 2 directions
electrical controlled.
Electrical Equipment: Control unit integrated in the upper
portal housing
Power
supply: 115V to 230V AC / 60 Hz / 95VA
Control
voltage: 24 Volt DC
Installation: Floor fixing on finish floor. .
Power failure: In the
event of power failure entry or exit directions are free or locked or
combination
6.04,1 Card Readers
·
Re-entry to the site shall be
gained only after first leaving the site having used the card reader.
·
Card readers shall raise an
alarm if attempt are made to use a damaged card or a card that has been
tampered with or a card that has been blocked.
·
An alarm shall also be raised
if card pass-back is attempted or more than one person uses the same card. In
these circumstances the turnstiles shall deny access to the site.
·
An alarm shall be raised in
case of entry attempted by force (Duress Alarm). The system must also be able
to initiate other responses that have been setup for the
·
Alarms raised and events logged
by the card readers shall be displayed and printed at the workstations and
printer in the Security Control Room.
·
Security personnel shall be
able to generate (i.e. ID Badging facilities) and program the card an access
privileges for varying levels of security on site. Security shall also be able
to program cards for predetermined expiry dates and times, e.g. for visitors
and temporary staff.
·
Three lights red, green and
amber should be on the card readers and operate after verifying as follows:
Red : Reject Entry
Green : Accepted
Entry (Normally No Indication)
Amber : Reader
Fault Indication
·
The bottom bearing shall be
dust and waterproof with thrust bearing.
·
System Unit:
The
latest hardware speed and capacity available in the market at the time of
equipment delivery.
19”
diagonal LCD-TFT flat color monitor
PC-DOS
and Window-NT or Windows 2000 software (supplied preloaded and original). The
CONTRACTOR may propose newer Windows OS version, such as Windows XP, if
supported by the proposed Access Control System.
Card
access control software (including a flexible, customizable report generator).
Multiplexer
card or similar adapter to control access card network.
Remote
terminal support software and hardware.
Connection
interface to DCCTV controller. (This could be RS-232, RS-485, ethernet, or as
appropriate).
Connection
interface to fence protection system. (This could be RS-232, RS-485, ethernet,
or as appropriate).
The
two (2) processor must be linked and under software control to operate as a
main and “hot standby” with full disk mirroring to ensure continuous operation
of the security system.
Continuous
feed, heavy-duty matrix printer, shared by main and backup (1 pc).
The
system will draw electrical power from the security system UPS (1 set).
Display
panel located in the security control room (1 pc).
Loop
controllers or wiring connectors (4 pcs).
6.04.2 System
Software Capacity (Minimum)
Simultaneous users 10
Card
Readers 1000
Card in Database 10,000
6.04.3 Card
Issuing (ID Badging) Facility
PC
based image system and ID card printer (4 complete sets)
PC
Windows 2000 or Windows XP Software. The CONTRACTOR may propose newer Windows
OS version, such as Windows XP, if supported by the proposed Access Control
System.
High
quality Color Digital Video Camera.
Professional
quality camera tripod.
Video
interface card
High
quality ID card printer (color) Dual side English/
Arabic
Image
management software
Laser
Color printer for reports.
19”
diagonal LCD-TFT flat color monitor
Cabling
and connectors (as required).
Card
encoding facility
6.04.4 ID
Cards:
Access
card (Smart type)
Smart
Card reader with keypad
An
internal power supply of 127/220 VAC at 60 Hz should be fed to provide the
system from the UPS panel.
6.05 Door
Monitoring System
6.05.1 Sensing
Units:
All
doors are to be provided with a tamperproof magnetic door contract switch
assembly, which shall give a contact change over in case of OPEN door.
CONTRACTOR
shall check the construction of existing doors and provide the necessary hardware
suitable to the existing doors. Any modification of existing doors required to
install door-monitoring components shall be in the scope of the CONTRACTOR.
Suitable
door monitor strikes are to be provided for remote door monitoring through the
use of a signal switch 9 (DPDT) mounted in the strike to monitor the latch -
bolt. Monitor strike shall be of stainless steel construction.
Signal
switch shall be magnetic type, hermetically sealed dry contact switch Material
of casing shall be aluminum.
Local
LED indication at sensor is to be provided to display the status of the door.
Green : Door Closed
Red : Door
Open
6 .5.2 Control
Units:
All
door monitoring sensor contacts shall be connected to the control unit located
at security control room.
It
is preferred to install control unit at security control room. All door status
contacts are to be hardwired to individually to the weatherproof junction box
to be installed close to the area of monitoring.
A
multi-core shall be laid from this junction box to control unit to be installed
in security control room.
Monitoring
and control unit shall have provision to configure the unit or by downloading
the configuration database from the central access control system terminal.
Control
Unit shall have LED displays for the status of each door and also diagnostics
LED’s for easy troubleshooting.
Control
unit hardware shall be of modular design for easy and quick maintenance.
System
shall be freely expandable.
In
case of failure of control unit, control unit shall generate a “fault” status
alarm, which shall be displayed on the main system terminal.
Control
unit shall be housed in a weatherproof enclosure (minimum class IP 1) suitable
for indoor installation.
Additional
buzzer/hooter is to be connected to the system and is to be installed locally
near the area to be monitored.
6.05.3 Alarm
and Display Function:
Control
unit shall be connected to the central access control system and all the doors
status information shall be communicated to the main system.
A
dedicated alarm panel is to be provided at security control center to display
audio-visual alarm of individual door. Each door is to be identified by a door
number and a location on to this panel.
Audio
alarm shall have acknowledged push button to mute the buzzer.
A
reset push button is to be provided to reset the alarm indication lamp once
alarm condition has become normal.
A
dynamic graphic display shall be provided on access control system terminal to
display status of all doors being monitored.
Alarm
information such as location, door no., date, and time of alarm, etc. Shall be
automatically logged on to the system terminal and a printer.
Minimum
10,000 alarm messages shall be stored in the hard disk of the system terminal
as historical data for minimum three months with a provision to retrieve the
same as and when required.
In
case of failure of control unit or main system hardware, all status indications
on alarm panel and on monitor should flicker with an audio signal.
“Test”
push button shall be provided to test the indication lamps of this panel.
Additional
buzzer/hooter is to be connected to the system and is to be installed locally
near the area to be monitored.
6.05.4 Power
Supply
Power
supply for door monitoring system is to be provided from the UPS, which shall
be supplied by the vendor for the entire system power requirement.
6.05.5 Cables
All
required cables from individual door sensor to the control unit and from
control unit to central system should be in the scope of CONTRACTOR.
6.06 Road
Arm Barriers:
6.06 .1 General
i. CONTRACTOR
shall
ii. The CONTRACTOR shall install a vehicle
access reader and proximity card reader (for driver/passenger) at:
Plant Main Arm
Barrier Gate (entry/exit)
iii. Road barriers shall be painted with reflectorize black and yellow line colors that comply with the security sign international standard.
iv. All road barriers drivers shall be
mounted with the manually operated device.
v. A safety loop shall be installed to all
road barriers. This is to ensure that safety of the vehicle/personnel passing
on any of the barriers.
vi. The control system shall be connected to
the UPS system.
vii. The barrier shall have logic module,
which is compatible with the card readers, radio control, vehicle loop
detectors, key switch, automatic identification system and etc.
viii. The control station include opening and
closing push button; opening indicating lamp Red color; closing indication lamp
Green color; trouble indication lamp Amber color. This control station shall be
installed at the location specified in this document.
ix.
Power supply voltage shall be
based on load demand and in accordance with the COMPANY standard and
preferences.
Construction: Housing of aluminium with reserved space for
extra equipment
Lockable
opening for maintenance and removable hood.
Boom: reinforced Aluminum
with below edge rubber protection.
Surface: Stove enamel finish.
Function: Electro
mechanical drive 115V. Drive with end position damping of the
barrier boom
by means of sinusoidal movement.
In case of
accident/use of force: boom holder disengages from the main shaft.
Power failure: Barrier can
be lifted by hand after manual unlocking behind the lockable maintenance panel.
Manual
operation:
A Toggle switch for opening and closing the
barrier shall be provided
6.07 Security
Control Room Requirements
6.07.1 Power
Supply
Power
supply for door monitoring system is to be provided from the UPS, which shall
be supplied by the vendor for the entire system power requirement.
6.07.2 Cables
All
required cables from individual door sensor to the control unit and from
control unit to central system should be in the scope of CONTRACTOR.
6.07.3 Layout
·
Layout of SCR shall be designed
and engineered by the CONTRACTOR.
·
It should be possible to
operate/control all the systems by a single operator while sitting in front of
the system.
6.07.4 Work Station
Console:
·
This shall accommodate hardware
for the following systems:
DCCTV monitoring
Digital Video Recorder (DVR).
Main computer
printers
Access control and door monitoring
system
PLASMA /LCD
·
Main computer shall be 3.5 GHz
Pentium 4 pro, 1025mb of ram , 80gb of hard drive space , 52xcd-rom drive + r/w
, tcp/ip rs 232 ,rs484 ,graphic 1280x1024 svga, digital lcd 19 in
·
Printer shall be color LaserJet
,22ppm , paper input capacity 850 sheets
·
Keyboards are to be installed
at convenient orientation and height for easy use by an operator.
·
Electronics is to be housed
below the console desk and installation shall be engineered such that it is not
tampered by the movement of operator. If it cannot be accommodated under the
desk, electronics has to be housed in a separate cabinet.
·
All video monitors shall be
arranged and oriented such that operator can easily watch any of the monitors
from his sitting position.
·
The tops of various components
in a row shall be aligned to give a neat appearance to the finished console.
·
All wiring/power supply
sockets/cables are to be laid and dressed such that they are properly secured
and create no personal hazard of electrical shock etc. to the operator.
·
All cables/wiring should be
concealed in IMC conduits of suitable size.
·
Console shall have modular
design to create the exact console to meet the present requirement and for easy
expansion in future. The manufacturer of the console shall be Evans
Console/Panel Systems or approved equivalent.
·
Console shall be ergonomically
designed.
·
Color of the console shall be
decided later.
·
Interior cooling, heat
dissipation or air purging requirements shall be checked taking into
considerations the prevailing conditions and the density of components to be
installed.
·
Installation arrangement of
various components shall be such that it is easy to remove/replace any
component/unit.
·
Console shall no have any
left-out gaps, holes etc. All unused holes, etc., shall be sealed properly to
make it dust/waterproof.
·
Console shall have spare
space/cutout to add one more size monitor in future. Such cutout is to be
properly covered with surface to surface matched for elegant look.
·
Engraved identification tag
numbers and description shall be provided for each component just below the
component.
·
INTEGRATE ALL THE
SYSTEMS.
6.07.5 LCD/Plasma
Display
A
new state-of-the-art 50” (diagonal size),LCD Color Plasma display unit shall be
provided to present a simplified site layout diagram of the area indicating
various zones and alarms as well as to view video events of the DCCTV system as
desired by the operator and can display all the cameras on one time.
The LCD/plasma
display unit shall have the following specification as a minimum:
Resolution: 1,048,320 pixel (1365 x 768 dots)
Colors: 16.77 Million colors minimum
Coating:
Anti-Reflection Coating
Contrast:
3000:1
Power
Supply: 127/220 VAC, 60Hz.
SHALL DISPLY ALL THE CAMERA IN SAME TIME.
SHALL DISPLY ALL THE FENCE DETECTION SYSTEM.
6.07.6 Adequate
required high quality furniture/console desk (EVANS Console or approved equal)
shall be provided to install access control system terminal, printer, DCCTV
system terminal printer. Arrangement for these hardware maybe an extension of
console or stand-alone separate furniture.
6.07.7 The
CONTRACTOR shall also provide six (6) Heavy-duty ergonomic chairs (steel case
or approved equal) for operator.
6.07.8 Any
other furniture/panel required to install in the system hardware shall be the
scope of the CONTRACTOR. : Indoor
in air-conditioned room
6.08 Fire
Alarm System
The
existing fire alarm system of Plant
shall be integrated/interfaced to the new Security System.
CONTRACTOR
shall check the construction and configuration of existing Fire Alarm System
for compatibility issues in integration to the new Security System and
compliance issues to HCIS standards. Any modification, additions, and/or
changes of existing Fire Alarm System required to successfully install Access
monitoring and control components shall be in the scope of the CONTRACTOR.
The
Main Fire Alarm Panel located at Fire Station Building shall be interfaced with
the new Security System.
All
interface cables, hardware, software, controllers and accessories shall be
provided by the CONTRACTOR under this PROJECT.
6.09 Crash-Rated Main Plant Linear Sliding
Steel Gate
The below listed specification are the
general guidelines for designing and selection of Crash-Rated Linear Sliding
Steel Gate and its associated components, which to be installed at Power Plant Main Gate as being referenced
under scope of work.
6.09.1 General Specification
·
The Gate shall be an above
grade assembly consisting of a heavy steel structure capable of being opened
and closed in a linear sliding motion. When in the closed position it shall
present a formidable obstacle to approaching vehicles. Upon impact, forces
shall be first absorbed by the steel structure of the Gate assembly and then
transmitted to the end support buttresses and their foundations.
·
The design of the Gate system
shall have been confirmed by the detailed examination of the structure with a
finite structural analysis computer program. A print out of the analysis
defining the applied loads at all connections and reaction points, and the
induced stresses and moments at each node and element shall be available with
the system.
·
The lower portion of the Gate
shall constitute a composite structure composed of steel structural members.
The superstructure of the Gate shall provide a solid framework to which bars,
panels and grills.
·
The ground track shall be
suitable for guiding a V- groove type Gate support wheel. Sufficient track
shall be provided to allow full run back of the Gate leaf while in the fully
open position. The track base shall be flush with grade.
·
The Gate will be supported in
the fully closed and open positions by an end support buttress system. These
supports will include all necessary guide wheels for the smooth operation of
the Gate. The end support buttresses shall absorb the forces received from the
Gate leaf during a vehicle collision and transmit them to their foundations.
·
The Gate and end support
buttresses of the system shall be mechanically and chemically cleaned and
painted per SEC-ERB painting standard 78-SMSS-13.
·
The gate shall provide
excellent security and positive control of normal traffic in both directions by
providing insurmountable obstacle to vehicles within the weight and velocity
characteristics as defined below (Note: Test Certifications shall be
submitted to the Company for review):
a.
The gate shall be fully operational after successfully stopping vehicle(s) in
the priority direction, with weight and speed of:
66.7 kN at 113 kph.
(15,000 lbs at 70 mph)
88.9 kN at 100 kph.
(20,000 lbs at 60 mph)
b.
The gate shall be capable of stopping and destroying (immobilize) vehicle(s)
with weight and speed of:
58.7 kN at 137 kph.
(13,200 lbs at 85 mph)
88.9 kN at 113 kph.
(20,000 lbs at 70 mph)
o
The gate and its auxiliary
components shall be designed to work with various environmental conditions as
specified in Section 3.02 of this document.
·
The gate system and subsystems
shall have a neat and workmanlike appearance.
·
The Gate System, (i.e. power,
control, drive unit, accessories) for entry and exit bounds shall be
independent with each other.
·
Installation of the entire gate
system shall be in accordance with the Manufacturer’s standard instructions and
procedure. The installer must possess a valid installer certification from the
Manufacturer.
6.09.2 Drive System Unit
·
The Gate shall be positioned
and locked in place by hydraulic motor. The drive system shall be designed and
constructed in a manner to insure long, trouble free operation and be capable
of operating under extreme environmental conditions. Normal servicing and
repair work shall be possible with readily available tools and components.
·
The power source for the
electric motor and control circuits of the Gate system shall come from the new
UPS system installed at ISD building for Security System under this PROJECT.
Operating voltage shall be 127 VAC, 60 Hz.
·
The Drive System Unit shall
control the position of the moving Gate by means of heavy-duty sensors. These
sensors will interface with the system logic and control circuits and will be
sealed from environmental impurities/contaminants.
·
In the event of power-off
condition, the Drive System Unit can be disengaged from the gate. The gate
shall be capable of being pushed open or closed without damage to the drive
components.
6.09.3 Speed of Operation
i. Sliding Gate operating speed (opening
and closing) shall be as per 600 mm/second .
ii. The Gate system shall be provided with
Emergency Override Close (EOC) System. The emergency override close system
shall provide a separate oversize control button on the remote control panel,
which when pressed will signal the control and logic circuit to close the gate
and ignore any intervening signals from safety detectors or sensors .
6.09.4 Control and Logic Circuits
·
Control circuits and control
panels shall be provided to interface between all gate control stations and the
drive system unit (operator unit). The control circuits shall contain all
relays, timers, and other devices necessary for the Gate operation. Independent
Control system shall be installed for the entry and exit gate.
·
Two remote control panels
(master and slave) to control the Gate operation (separate for entry and
exit) shall be supplied and installed at:
Master Control Panel: Security
Control Room.
Slave Control Panel: Guard House of
Plant Main Gate.
·
As a minimum, the control panel
shall have the following:
a.
Key lockable main switch.
b.
“Main power on” and “panel on” lights.
c.
Buttons to open, close, and stop the gate.
d.
Gate “open”, “fully closed”, and “cycling” indicator lights.
e.
Emergency Override Close (EOC) button, which is larger than the normal control.
f.
The EOC shall be furnished with EOC active light and reset button.
g.
For Master Control Panel Only: Key lockable switch to arm and disarm the slave
control panel.
·
The crash-rated linear sliding
steel gate shall be integrated to the access control system, in such away that
the operational status/condition (i.e. open, close, EOC) of the gate shall be
automatically logged on the access control system. EOC status of the
crash-rated linear sliding steel gate shall also alert the operator in
609.5 Safety
Detectors and Accessories
·
Flashing Warning Light and
Traffic Light shall be installed.
·
A vehicle safety loop detector
shall be supplied to prevent the gate from being accidentally closed while a
vehicle is in the Gate’s path. The detector shall utilize digital logic and
have fully automatic tuning for accurate long-term reliability. The output of
the detector shall negate the Gate close signal.
·
A safety edge sensor system
shall be furnished on the leading edge of the gate. Any pressure applied to the
Safety Edge should cause the Gate to stop instantly.
·
The Emergency Override Close
(EOC) feature shall be integrated/associated with an audible alarm system to
emphasize that the operation is under emergency condition.
·
During power supply
interruption, the gate shall be capable of being pushed manually (opening or
closing) without damage to the drive components.
6.10 Crash-Rated Rising Road Steel
Barricade at Plant’s Inner Gate
The below listed specification are the
general guidelines for designing and selection of Crash-Rated Rising Road Steel
Barricade and its associated components, which to be installed at Power Plant Inner Gate as being referenced
under scope of work, scope of supply and design details elsewhere in this
document.
6.10.1 General Specification
·
The barricade
construction shall be a flush-mount assembly consisting of a heavy steel (made
of hot-dip galvanized steel) barricade capable of being raised from the
free-pass position to its guard position by means of hydraulic actuators. The
guard position shall present a formidable obstacle to approaching vehicles.
Upon Impact, forces shall be first absorbed by the barricade assembly and then
transmitted to the off-road buttress and foundation of the unit.
·
The height of the
barricade during guard position state shall be 39-inches/1-meter as measured
from the top of the foundation frame to the top of the barrier inclusive of the
top road plate. The length of the barricade shall cover the entire passageway
of the Plant’s Inner Gate.
·
The finish of the
roadway plates shall have a non-skid surface. Barricade undersides and roadway
plates shall be painted with yellow/black stripes. The buttress assemblies
shall be painted yellow.
·
The barricade system
shall use the state-of-the-art shallow foundation and aesthetic design without
affecting/degrading its blocking capabilities.
·
The barricade shall
have a performance evaluation as per U.S.-D.O.S. Specification SD-SDT-0201 of
K12/L3.0.
·
The barricade shall
provide excellent security and positive control of normal traffic in both
directions by providing insurmountable obstacle to vehicles within the weight
and velocity characteristics as defined below (Note: Test Certifications
shall be submitted to the Company for review):
a. The barricade shall be fully operational after successfully
stopping vehicle(s) in the priority direction, with weight and speed of:
66.7
kN at 113 kph. (15,000 lbs at 70 mph)
88.9
kN at 100 kph. (20,000 lbs at 60 mph)
b. The barricade shall be capable of stopping and destroying
(immobilize) vehicle(s) with weight and speed of:
58.7
kN at 137 kph. (13,200 lbs at 85 mph)
88.9
kN at 113 kph. (20,000 lbs at 70 mph)
·
The barricade and its
auxiliary components shall be designed to work with various environmental
conditions as specified in Section 3.02 of this document.
·
The barricade system
and subsystems shall have a neat and workmanlike appearance.
·
The barricade system,
(i.e. power, control, hydraulic power unit, accessories) for entry and exit
bounds shall be independent with each other.
·
The barricade system
shall be strong enough to bear different types of loads (i.e. small vehicles -
heavy trucks) crossing the flush-mounted barricade without affecting the
efficiency of operation.
·
Installation of the entire barricade
system shall be in accordance with the Manufacturer’s standard instructions and
procedure. The installer must possess a valid installer certification from the
Manufacturer.
6.10.2 Hydraulic Power Unit
i. The hydraulic
circuit unit shall consist of an electronically driven hydraulic pump, which
shall pressurize a high-pressure manifold connected to a hydraulic accumulator.
Electrically actuated valves shall be installed on the manifold to allow oil to
be driven to the up and down side of a double acting hydraulic cylinder to
raise and lower the barricade. The hydraulic circuit shall include all
necessary control logic devices, interconnect lines and valve(s) for emergency
fast operation of the barricade.
ii. The power source
for the electric motor and control circuits of the barricade shall come from
the new UPS system installed at ISD building for Security System under this
PROJECT. Operating voltage shall be 127 VAC, 60 Hz.
610.3 Speed of Operation
i. During
ii. In emergency cases,
the barricade system shall have an Emergency Fast Operation (EFO) feature that
is capable of raising the barricade to fully guard position from fully down
position in 1.5 seconds maximum. This function shall be engaged through an EFO
push button at the control station/panel. Barricade shall remain in the up and
locked position until the EFO condition is reset.
6.10.4 Control and Logic Circuits
·
Control circuits and
control panels shall be provided to interface between all barricade control
stations and the power unit. The control circuits shall contain all relays,
timers, and other devices necessary for the Barricade operation. Independent
Control system shall be installed for the entry and exit barricades.
·
Three remote control
panels (1-master and 2-slaves) to control the Barricade operation (separate
for entry and exit) shall be supplied and installed at:
Master Control
Panel: Security Control Room.
Slave Control
Panel-1: Guard House of Plant Inner Gate.
Slave Control
Panel-2: Guard House of Plant Main Gate.
·
As a minimum, the
control panel shall have the following:
a. Key lockable main switch.
b. “Main power on” and “panel on” lights.
c. Buttons to raise or lower each barricade.
d. Barricade “up” and “down” indicator lights.
e. Emergency Fast Operate (EFO) button, which is larger than the
normal control. (See Section
6.14.3.ii).
f. The EFO shall be furnished with EFO active light and reset
button.
g. For Master Control Panel Only: Key lockable switch to arm and
disarm the slave control panel.
·
In addition to
control circuits/panels to operate the barricades stated above (6.14.4.ii and
iii), the barricade shall also be integrated fully with the access control
system. Granting of access (free-pass and guard positions of barricades) may be
either automatically (i.e. through access control system) or manually (i.e.
through switch buttons by the operator/guard), shall be integral to the
system’s software and shall be system’s configurable.
·
As part of the
integration of the barricade system to the access control system, the
operational status/condition (i.e. free-pass, guard position, EFO) of the
barricade system shall be automatically logged on the access control system.
EFO status of the barricade system shall also alert the operator in
6.10.5 Safety
Detectors and Accessories
·
A vehicle interlock
safety detector loop shall be supplied to prevent the Barricade from being
accidentally raised under an authorized vehicle. The detector shall utilize
digital logic, which has fully automatic tuning for stable and accurate
long-term reliability. The output of the detector shall prevent any barricade
rise signal, except for EFO command when the vehicle is over the loop.
·
A traffic/warning
light associated with the rising-road barricades shall also be supplied to
indicate the status/position of the barricade.
·
The Emergency Fast
Operate (EFO) feature shall be integrated/associated with an audible alarm
system to emphasize that the operation is under emergency condition.
·
A hand pump shall be
furnished to allow barricades to be raised manually in the event of prolonged
power interruption.
6.11 UPS System
The
system shall interface with local main power supply in order to run at time of
main power supply failure. The system is an essential service and shall be
operational at all times. An uninterruptible power supply unit shall be
provided by the CONTRACTOR to support the system in the event of failure of the
site power supply. This shall be sized to provide up to four (4) hours support
time.
The
UPS Room door shall be provided with Smart card reader (inside and outside) and
emergency exit button inside the UPS room.
The
UPS system design shall comply with SEC- Standard requirements.
The
CONTRACTOR shall specify lead-acid type batteries for the UPS system.
UPS
System shall be sized to accommodate a minimum of 20% additional power capacity
for future expansion.
***
END OF SECTION 6.0 ***
SECTION 7.0 TESTING
AND COMMISSIONING
7.01 Type Test Report
Two
copies of the initial Type Test report shall be provided by the CONTRACTOR to
the COMPANY (during the base design stage of the project) for each Major
Equipment. The type test report submitted by the CONTRACTOR shall contain all
applicable tests and measurements and test methods/procedures, which are
required in order to verify Manufacturer's equipment specifications.
7.02 Acceptance Test Plan and Procedures
CONTRACTOR
shall prepare an acceptance test plan and procedures (which the CONTRACTOR
shall use during the field testing, pre-commissioning and commissioning phases
of the project), which shall be submitted, to the COMPANY for review and
approval at two stages of the project. These stages are as follows:
1. Preliminary Acceptance Test Plan and
Procedures for CONTRACTOR installed equipment shall be provided as part of the
base design stage of the Project.
2. Detailed Acceptance Test Plan and
Procedures (based on the COMPANY approved Preliminary Acceptance Test Plan and
Procedures, and Manufacturer's Recommendations), which is to be provided at
least six weeks prior to the start of Contractor's pre-commissioning tests.
7.03 Pre-commissioning Tests - All
Electronic Equipment and Cables
After
completing installation of all equipment for the system, CONTRACTOR shall
perform all local and end-to-end tests to verify and ensure satisfactory
operating condition of the overall system.
CONTRACTOR is required to verify that:
1. All tests (standard manufacturer's
equipment tests and special tests required by the COMPANY) are performed and
that test results are within manufacturer(s) specified nominal values, and as
per applicable COMPANY standards.
2. All test results are recorded and
tabulated according to standard on manufacturer's recommended formats, or
COMPANY Specified forms/test sheets.
Test title, link/sites name, date and time when test was performed,
equations/formulas used to reach calculated or unmeasured figures need to be
listed and explained as necessary.
3. The Pre-commissioning tests for the
equipment shall follow the same plan and format as required under the final
commissioning test procedures (See Section Final Acceptance and Commissioning
Tests).
4. The CONTRACTOR must finish the
pre-commissioning tests successfully and submit his test results to COMPANY
REPRESENTATIVE for evaluation before starting the Final Acceptance and
Commissioning Tests.
7.04 Final
Acceptance and Commissioning Tests
1. Recommended
Tests/Measurements
CONTRACTOR, as a minimum, shall
be required to perform final acceptance testing of all equipment included in
accordance to the COMPANY approved Contractor's Detailed Acceptance Test Plan
and Procedures.
2. Procedures
and Other Conditions
The following are general
procedures and the order, which is to be followed during the final acceptance
and commissioning, tests for the equipment, which is to be provided/installed,
by CONTRACTOR:
a. The COMPANY shall designate its
Representative(s) to witness the commissioning and acceptance tests prior to
putting the system in operation, and commencing the system trial period.
b. CONTRACTOR shall ensure that all
mark-up construction documents/drawings pertaining to the Commissioning
Acceptance Test are handed over to the COMPANY at least six (6) weeks prior to
the commissioning and acceptance test date.
c. CONTRACTOR shall submit 3 copies of
pre-commissioning test results, acceptance test schedule, and invite the
COMPANY in writing at least two (2) weeks before the proposed date to commence
the acceptance and commissioning tests.
d. CONTRACTOR shall demonstrate, by
simulation or type test report, that the equipment are operating under maximum
design limits and extreme environmental conditions which are specified in the
SOW/TS and that results are within the manufacturer's specified nominal values,
previously approved by the COMPANY.
e. Equipment tests shall include
testing of all wiring for future expansion up to full capacity, by inserting
appropriate modules or cards, as required.
f. The Commissioning and Acceptance
Tests will be performed according to the following order:
Step I -
Physical/Mechanical Inspection
1. Physical/Mechanical Inspection for
all constructed works and equipment installation.
2. Verification of the physical installation
of the equipment with project drawings/documentation.
Step II -
Local Tests
1. These will include (but may not be
limited to) the following:
- Complete local testing of
Intruder Detection System, DCCTV, and Access Control System Components.
- Communication Network Components.
- Local testing of Optical
components and cabling.
- Tests of UPS System.
Step III -
End-to-end Test
1. This shall include (but may not be
limited to) the following:
- Overall System Performance Tests
Intruder Detection System.
- Overall System Performance Tests-
DCCTV System.
- Overall System Performance Tests
Access Control System
- Overall System Performance Tests
- Remote Access and Administration facility.
- Overall System Performance Tests
- Alarm/Monitoring facilities
g. The tests shall be performed in
sequential order as listed above.
h. CONTRACTOR shall clear all major
discrepancies pointed by COMPANY REPRESENTATIVE before resuming all related
tests.
i. Final Testing and Commissioning
tests shall include detailed testing of Contractor's supplied spare parts.
7.05 Test
Equipment
CONTRACTOR,
under the scope of this project, is responsible to provide all standard test
equipment (both conventional and special, as recommended by the
manufacturer(s)) to be used in testing and commissioning.
All test
equipment must have updated valid calibration certificate from a recognized
calibration-laboratory In or Out-of-Kingdom.
Tests performed using uncalibrated test equipment shall not be accepted
by the COMPANY.
***
END OF SECTION 7.0 ***
SECTION 8.0 TRAINING
PROGRAM
8.01 TRAINING PROGRAM
An extensive detailed training
program on the operation and maintenance of the system for members of the
COMPANY Industrial Security Dept (five-to-six persons). staff shall be offered
by the CONTRACTOR.
***
END OF SECTION 8.0 ***
SECTION 9.0 START-UP AND OPERATION SPARE PARTS
9.01 START-UP AND OPERATION SPARE PARTS
Under the scope of this PROJECT
the CONTRACTOR shall provide a complete set of start-up spare parts and submit
a list of recommended operation and maintenance spare parts and special tools
with unit prices as per the requirements outlined below.
The data for the start-up spare
parts and recommended operation and maintenance spare parts/special tools shall
be prepared in accordance with the requirements of the contract document.
A. Start-up Spare Parts
The CONTRACTOR shall provide a
complete line of start-up spare parts and shall store in his storehouse within
the Kingdom. These spare parts shall be
used to replace any defective parts during the warrantee period, and shall be
delivered to the COMPANY storehouses upon successful completion of this
warrantee period.
B. Operation and Maintenance Spare Parts and Special
Tools
The CONTRACTOR shall submit
along with his bid a complete list of recommended spare parts and special
tools, to be used by the COMPANY for normal operation and maintenance
purposes. These spare parts and special
tools shall be ordered by the COMPANY if deemed necessary.
***
END OF SECTION 9.0***
SECTION 10.0 MAINTENANCE
SERVICE
10.1 MAINTENANCE SERVICE
warranty period of one year, the CONTRACTOR
shall be obliged to repair and maintain the complete system according to SEC
standard, and this shall include all required spare parts, software, and
workmanship as part of this project.
10.2
PAYMENT:
Payment
condition will be according to SEC standard.
*** END OF SECTION 10.0 ***
SECTION
11.0 - DRAWINGS AND ATTACHMENTS
|
No. |
Drawing
No. |
Sheets |
Description |
|
SITE
LAYOUT |
|||
Note: All attached
drawings shall be used by the CONTRACTOR as guidelines and references only for
developing its detailed design of the entirely New Integrated Security System
for .
It is the responsibility of the CONTRACTOR to verify and
check the accuracy and correctness of the details shown on attached drawings
and make the appropriate modifications necessary.
The CONTRACTOR shall bring to the attention of the
COMPANY, any erroneous, inferior to HCIS standards, or outdated specification
of equipments and materials specified in this document during Bid
Clarification Stage for immediate resolution and inclusion of the
appropriate changes and modifications as decided by the COMPANY, and shall be
part of the Contractor's Technical Proposal Package Submittal.
All materials either shown or not on the attached
reference and conceptual drawings needed for the successful completion of the
New Integrated Security System shall be provided and installed by the
CONTRACTOR under this PROJECT, unless otherwise stated in the drawings or in
this document.
*** END OF
SECTION 11.0 ***
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