APRIL 27TH., MONDAY, 2020.
PLEASE NOTE: HERE IS , WAS MY VERY
IMPORTANT TASK, PROJECT, IN TAICUNG CITY, TAIWAN, REPUBLIC OF CHINA DURING MY
TIME PERIOD FROM JUNE 1999 UP TO OCTOBER 25, 1999.
HERE WAS MY DETAILS, CARING, SAFETY,
PERFECT, CORRECT, RIGHT,EXCELLENT, ETC., MY PERFORMANCES AS SHOWN BELOW:
DATA, INFORMATIONS, TASK, TITLES, AND THE
PEOPLE PERSON, MANAGER, PARTIAL OWER, OWERS OF THE BUILDING, TTII. 47 FLOORS
HIGH RISE BUILDING.
SEE MY PERFORMANCE, ACTIVITIES, ETC., AS
SHOWN BELOW.
To: Mr. Tony Lin / TTII For your information and record only!
經唐洲際飯店 TAICHUNG TOWER II
Date: September 30, 1999 Memo. # 20 PPC/ADSC
Re: Hotel Zone
only DRAFT 初稿
In-Progress
LIFE SAFETY MANUAL
Introduction:
l
Architecture
& Engineering Standards
l
Loss
Prevention Manual
l
Technical
Maintenance Manual
PART ONE
Extracts from Architecture &
engineering standards
CONTENTS
2-B GUEST ROOM
FLOORS
Fire PROTECTION
Soiled Linen Chute
General
Size and Construction
Fire Protection
Fire Emergency
Exits
2-C PUBLIC AREAS
Emergency Exits
Plunbing
Lighting
HVAC
Signs
Occupancy
General
Emergency Exit
Seating
Practical Capacity
Life Safety Manual (L.S.M.)
Access
Banquet Lobby
3-B PLUMBING
Fire Safety System
General
Fire Standpipe
System
Sprinkler Systems
Kitchen Hood
Systems
Computer Room
Systems
GAS Systems
Compressed Air and
Vacuum Systems
Olan
3-C HEATING,
VENTILATION AND AIR CONDITIONING
Life Safety
Systems
Atrium Smoke
Exhaust
Stair
Pressurisation
Guest Corridor
Smoke Exhaust
Air Handling
Systems
3-D ELECTRICAL
Emergency Service
13. FIRE ALARM
Introduction
A.
INTRODUCTION
B.
DEFINITIONS
and ABBREVIATIONS
C.
FIRE
DEFENCE BRIEF
D.
GENERAL
1.
Fire
Alarm Subsystem
2.
Emergency
Paging and Voice Alarm Subsystem
3.
Emergency
Telephone Subsystem
4.
Manual
Smoke Control Subsystem
E.
EQUIPMENT
F.
SYSTEM
OPERATION
G.
INSTALLATION
STANDARDS
H.
Co-ORDINATION
WITH OTHER SYSTEM DESIGNERS
I.
SAMPLE
DRAWINGS
Life Safety Manual
(continue)
Lighting Protection
Aircraft Obstruction Light
Hold-Up and Burglar Alarms
Television Security Surveillance
Mounting Heights
Identification Name Plates
Shop Drawings and Record Drawings
Operating and Maintenance Instructions
Tests
Feeders and Branch Wiring Insulation Resistance
Switchboard
Circuit Breakers
Motors
Grounding
Alarm
Generator
Life Safety
Sample Life
Safety System Cause and Effect Matrix
Matrix Tech. 01
Life Safety
System Main Control Panel (MCP)
Fire Alarm
Control Panel
Emergency
Paging Control Panel
Emergency
Telephone Control Panel
Typical
Graphic L.E.D. Display
Life Safety
Emergency Speaker
3-G FIRE
PROTECTION
A.
NEW
WORK
(1). General
Quality of
Construction
Limitation
of Spread of Fire, Smoke and Fumes
Protection
of Life
(2). References
(3). Scope
(4). General
Provisions
(a)
Fire
Resistive Construction
(b)
Means
of Egress
(c)
Exit
Travel Distance and Dead-End Limits (*)
(d)
Protection
of Guest Rooms
Life Safety Manual (Continue)
(e)
Protection
of Vertical Openings
(f)
Fire
Separation
(g)
Building
Service Equipment
(h)
Hazardous
Area
(i)
Portable
Fire Extinguishers
(j)
Electrical,
HVAC and Plumbing
B EXISTING
HOTELS
(1). General
Egress
(continued)
(a)
Prevention
and Preparedness
Immediate
Requirement
(b)
Detection
(c)
Advising
Immediate Requirement
Follow-up Work
(d)
Safe
before Evacuation
Immediate Requirement
Second Phase
Immediate Requirement
Second Phase
Immediate Requirement
Second Phase
(g)
Summary
(2).
Electrical
(3). Plumbing
(4). Heating,
Ventilation and Air Conditioning
(a)
Life Safety
Systems in Existing Buildings
B.
Interior
Finishes, Furniture and Furnishings
3-K COMMISSIONING
Fire Alarm and Life Safety Systems (Electrical)
Scope of Works
Definitions
Commissioning Specialist
Fire Alarm
Installation
Life Safety Manual (Continue)
Pre-Commissioning
Commissioning
Setting to
work
Responsibilities and Duties
Design and Installation
General
Design and Installation ( Continued)
Fire Alarm
Emergency
Telephone and Sound System
Remedial
Works
Design
Information
Procedures
Programme
and Method Statement
General
Specialist
Equipment and Systems
Fire Alarm
and Life Safety System
Instruments
for Commissioning Specialist
Documentation
Commissioning Report
Pro-Forms
Part 1
Extract From ARCHITECTURAL and ENGINEERING STANDARDS
2-B Guestroom Floors
Fire Protection
Provide for location of all required systems,
including sprinklers, smoke detectors, portable fire extinguishers, manual fire
alarms and voice alarm speakers required under HOTEL standards and /or local
requlations.
SOILED LINEN CHUTE
General
Size and Construction
Fire Protection
FIRE EMERGENCY
EXITS
Life Safety Manual ( Continue)
2-C Public Areas
EMERGENCY EXITS
PLUMBING
LIGHTING
Provide fluorescent lighting (160 Lux ) (with on
quarter of fixtures on emergency circuits), arranged so as to provide good
level of illumination through out the garage.Where cars are parked end on to a
full height adjacent wall, place an appropriate number of lighting fixtures at
the wall head to illuminate the otherwise dark areas between cars and the wall.
HVAC
SIGNS
OCCUPANCY
General
Emergency Exit
Seating
Practical Capacity
ACCESS
BANQUET LOBBY
3-B Plumbing
FIRE SAFETY SYSTEM
GENERAL
FIRE STANDPIPE SYSTEM
SPRINKLER SYSTEMS
KITCHEN HOOD SYSTEMS
COMPUTER ROOM SYSTEMS
GAS SYSTEMS
COMPRESSED AIR and
VACUUM SYSTEMS
Computer Room Sprinkler system
Sequence of operation
Normal Operation
Activation of smoke detectiors
Activation of
sprinklers under fire conditions
Life Safety System (Continue)
3-C HVAC
LIFE SAFETY SYSTEMS
ATRIUM SMOKE EXHAUST
STAIR PRESSURIZATION
GUEST CORRIDOR SMOKE EXHAUST
AIR HANDLING
SYSTEMS
3-d Electrical
EMERGENCY SERVICE
The generator shall supply power to the following in
case of normal power supply failure:
l 100% of all stair and exit signs.
l 100% of lighting in Switchgear Control Room
, Generator Room, Engineer’s Office and Telephone Switchboard Room.
l 50% of all Guest Room corridor lighting.
l One light in each Guest vestibule in areas
where frequent power failures are anticipated.
l 15% of all public space lighting.
l 20% of all service area lighting including
one light in General Manager’s and Department Heads’ Offices.
l Computer system CRT’s, Printers and Point
of Sale Terminals which are not on UPS.
l Clock system
l Life safety system
l 20% of lighting in Main Machine Room.
l Security Room
l All walk-in refrigerators and freezers –
compressors, blowers, door heaters, and cooling tower where provided.
l Fire pump.
l Sewage ejector pumps.
l Sump pumps.
l 100% of elevator cab lighting and signals
l Selected receptacles in Emergency Generator
Room and Switchergear Room.
l Kitchen Hood exhaust fans.
l Aircraft warning lights
l One light over each casher’s location.
l Smoke control fans and stair pressurization
fans (if required)
Life Safety System (Continue)
l Air compressors if pneumatic controls are
used.
Lifety Safety System (Continue)
l
100%
of General Manager’s apartment lighting.
13. FIRE ALARM
A.
INTROPDUCTION
B.
DEFINITIONS
and ABBREVIATIONS
1.
Fire
Defence Brief (FDB)-
2.
Life
Safety System (LSS)-
3.
Building
Automation Temperature Control System (BATC)-
4.
Main
Control Panel (MCP)-
5.
Fire
Command Centre (FCC) –
6.
Remote
Repeater Panel (RRP)-
7.
Video
Display Unit (VDU)-
8.
Graphic
LED Display (GD)-
9.
Remote
Common Alarm Device (RCA)-
10.
Pre-action
Sprinkler System –
11.
Sprinkler
Valve Tamper Switch-
12.
Sprikler
System Water Flow Switch-
C.
FIRE
DEFENCE BRIEF
D.
GENERAL
The life safety system will consist basically of four
subsystems:
1.
Fire
alarm subsystem
2.
Emergency
paging and voice alarm subsystem
3.
Emergency
telephone subsystem
4.
Manual
smoke control subsystem
These subsystems will be integrated into a
comprehensive system which will provide the functional performance described
hereinafter.
1.
Fire
Alarm Subsystem
2.
Emergency
Paging and Voice Alarm Subsystem
3.
Emergency
Telephone Subsystem
4.
manual
Smoke Control Subsystem
E.
EQUIPMENT
1.
The
Main Control Panel (MCP)
2.
A
Remote Repeater Panel (RRP) (e.g. a Video Display Unit (VDU)
3.
A
Remote Common Alarm Device (RCA) with audible and visual indication
4.
Graphic
LED display (GD)
Life Safety System (Continue)
5.
A
photoelectric type smoke detector
6.
Ceiling
mounted photoelectric type smoke detectors
7.
Heat
detectors of the fixed temperature (57 degree Centigrade) or rate of rise of
temperature type may be used in areas environmentally unsuited for smoke
detectors (e.g. Kitchens, Laundries, Emergency Generator Rooms etc.).
8.
A
photoelectric type smoke detector(s)
9.
Duct
mounted smoke detectors
10.
Break-glass
stations (manual fire alarm stations)
11.
Voice
alarm speakers
12.
Visual
alarm signalling devices (xenon strobe lights)
Visual units shall be rated at 75 candela minimum.
13.
A
sprinkler water flow switch and a valve tamper switch
14.
Magnetic
hold open devices
15.
Emergency
telephone jacks
16.
Emergency
stair and exit doors
F.
SYSTEM
OPERATION
1.
Three
categories of alarm inputs
a.
SUPERVISORY
INPUT
b.
Priority
1 alarm input
c.
Priority
2 alarm input
2.
SUPERVISORY
MONITOR INPUT
3.
Activation
of a supervisory monitoring device will provide the following indications:
4.
Priority
1 Alarm Input
5.
Activation
of any “Priority 1” alarm device
6.
Priority
2 Alarm Input
7.
Emergency
Paging and Voice Alarms
8.
Emergency
Telephone System
9.
Pocket
Pager Interface
10.
Manual
Smoke Control
11.
Battery
Backup
12.
Cause
and Effect Matrix
G.
INSTALLATION
STANDARDS
* BSI -
British Standards Institute
CSA
- Canadian Standards Association
l DIN
l EN
- European Committee for
Electrical Standards
l IEC
- INTERNATIONAL ELECTROTECHNICAL COMMISSION
l ISO
- INTERNATIONAL ORGANIZATION FOR STANDARDISATION
l UL
- UNDERWRITERS LABORATORIES
l NFPA – NATIONAL FIRE PROTECTION ASSOCIATION
All wire and cable used for the Life Safety System
must be approved for use in fire alarm systems for prolonged use during fire
conditions. The insulation must be listedfor this use by recognised testing
agency. Suitable material would include, but not be limited to, Mineral
Insulated Copper Sheathed Cable (MICS), FP 200 or Teflon based insulation.
H.
CO-ORDINATION
WITH OTHER SYSTEM DESIGNERS
1.
Lift
Interface
2.
Heating,
Ventilation and Air Conditioning
3.
Building
Automation Temperature Control System (BATC).
4.
Sprinkler
/Fire Pump System.
5.
Pocket
Paging System
6.
Miscellaneous
I.
SAMPLE
DRAWINGS
1.
Cause
and Effect Matrix
2.
Main
Control Panel (MCP)
3.
Fire
Alarm Control Panel
4.
Emergency
Paging Control Panel
5.
Emergency
Telephone Control Panel
6.
Typical
Graphic LED Display
7.
Typical
Guest Room
LIGHTNING PROTECTION
The British Preventor System of lighting protection is
acceptable if approved by local authorities.
AIRCRAFT OBSTRUCTION LIGHT
HOLD-UP AND BURGLAR ALARMS
TELEVISION SECURITY SURVEILLANCE
A closed circuit television system
l Front Desk entire length.
l Guest elevator lobby.
l Employees’ entrance.
l Service entrance loading dock.
l Lobby including front entrance ( Ballroom
entrance if separated).
l Garage and/or parking lots.
Panning cameras with appropriate controls, including
zoom shall be provided as required to suit conditions.
MOUNTING HEIGHTS
IDENTIFICATION NAME PLATES
l High tension switchgear
l Low tension switchgear
l Distribution boards.
l Panelboards.
l Motor starters.
l Disconnect switches.
l Time switches.
l Remote alarm bells or annunciators.
Provide and install in Switchgear Room a laminated
drawing of the building electrical riser diagram.
SHOP DRAWINGS AND RECORD DRAWINGS
Manufactures’ drawings or catalogue sheets of the
following apparatus, giving full fitness and other pertinent facts, shall be
submitted to the Architect and Consulting Engineer, and their approval secured
before apparatus in question is ordered, built or installed.
l Main service switch assemblies
l Metal-clad main distribution switchboards
l Panelboards
l Subdistribution boards.
l Fuses
l Transformers
l Regulators
l Primary switch
l Lighting fixtures, lighting equipment and
lamps
l UPS system
l Emergency generator equipment
l Fire alarm system
l Dimming equipment
l Lightning protection system
l Miscellaneous systems
Record drawings of
the actual installation shall be prepared by the Electrical Contractor at the
conclusion of the job, based upon careful records kept by him, during the
progress of the work, of all deviations from the design shown on the Contract
drawings, and be submitted to the Architect and Electrical Engineer for
approval.
OPERATING AND MAINTENANCE INSTRUCTIONS
Three sets of operating and maintenance instructions
manuals, covering completely equipment starting sequences of emergency
generator, transfer switches, switchboards, transformers, shall be furnished to
the Hotel Chief Engineer. In addition, a list of manufacturers with name of
local representative should be submitted in order to expedite ordering of
replacement parts, or serving of malfunctioning systems and components.
TESTS
FEEDERS AND BRANCH WIRING INSULATION RESISTANCE
SWITCHBOARD
CIRCUIT BREAKERS
MOTORS
GROUNDING
ALARM
GENERATOR
LIFE SAFETY
Status of equipment for test shall be as follows:
l SAMPLE LIFE SAFETY SYSTEM CAUSE AND EFFECT
MATRIX
l LIFE SAFETY SYSTEM MAIN CONTROL PANEL (MCP)
l FIRE ALARM CONTROL PANEL
l EMERGENCY PAGING CONTROL PANEL
l EMERGENCY TELEPHONE CONTROL PANEL
l
TYPICAL
GRAPHIC L.E.D. DISPLAY
EXTRACT from ARCHITECTURAL AND ENGINEERING STANDARDS
3-G FIRE PROTECTION
A.
NEW
WORK
(1)
GENERAL
Generally fire protection will be achieved through:
l Fireproof construction, stringent control
of materials and finishes to be used
l Factors of safety, following “project”
standards, in designing electrical and special systems. (See SECTION 3-D
ELECTRICAL FOR DETAILS)
l Full enclosure of hazardous areas by fire
rated construction, use of self closing fire rated doors.
l Fire rated separation of various elements
of project including corridors leading to stairs and egress, using fire proof
self closing doors to rooms opening on to those corridors
l
Sealing
off shafts, raceways, chases from the rest of the building including theuse of
fire dampers where penetrations are required
Limitation of
Spread of Fire, Smoke and Fumes
Protection of Life
(2)
REFERENCES
NFPA Codes, Standards, Recommended Practices and
Manuals published by the National Fire Protection Association, Batterymarch
Park Quincy, Massachusetts, 02269, USA shall be considered as “ the Project “
Fire Protection Standards, except as hereinafter modified.
All reference in
the National Fire Codes, to “authority having jurisdiction” shall be
interpreted as referring to the competent local authority or to “ Hotel Runner”
, as appropriate.
(3)
SCOPE
Included in the National Fire Codes, which shall be
fully complied with, are the following aspects of fire protection and life
safety:
l Features of fire protection , including
fire separations, protection of openings,fire doors,smoke partitions, fire
rating standards for interior finishes and interior applied decorations,
including floor coverings and draperies
l Means of egress, covering access to exits,
exits and discharge from exits: defining quantities, sizes, types, locations,
dead-end limitations, detailed design, fire separation and protection,
illumination including emergency illumination, control of ventilation etc.
l Specific requirements for individual
occupancies including hotel residential occupancy , places of public assembly,
mercantile, storage and parking occupancies
l Standards setting requirements for, and
installation of, fire fighting equipment including standpipes and hose systems,
automatic sprinkler systems, all extinguishing systems and portable fire
extinguishing equipment
l Standards for installation, maintenance and
use of emergency signalling systems
l Standards for air-conditioning and
ventilation systems
l Standards for electrical installations
l Standards for exhaust systems for
commercial cooking equipment
l Standards for chimneys, fireplaces and
vents
l Standards for safeguarding building
construction operations
l Building operating standards
(4)
GENERAL
PROVISIONS
Reference shall also be made to the NFPA National Fire
Codes for clarification, interpretation, and amplification of these general
provisions. Local Codes and regulations shall be followed where they are more
stringent.
(a)
FIRE
RESISTIVE CONSTRUCTION
The entire building shall be of fire resistive
construction with minimum fire ratings of individual components as follows:
l Shaft Enclosures (stairs, lifts,
mechanical, etc.) electric closets etc.
2-hour *
l Fire Divisions 2 hour
l Exit Access Corridors 1
hour
(*) based on
fire exposure on either side of enclosure. Openings or access panels in
such
enclosures will be of the related Fire Rating.
(b)
MEANS
OF EGRESS
(c)
EXIT
TRAVEL DISTANCE and DEAD-END LIMITS (*)
(d)
PROTECTION
OF GUEST ROOMS
(e)
PROTECTION
OF VERTICAL OPENINGS
l All stairways , lifts, elevators and other
shafts shall be enclosed with 2 hour partitions providing protection to fire
exposure from either side
l Unprotected vertical openings connecting
not more than three floors are permitted in accordance with detailed provisions
in the code, including automatic sprinkler protection of the connecting areas
l Vertical mechanical shafts through the
guest room tower shall be effectively fire-stopped at the floor level of the
lowest guest room floor and at the ceiling of the top guest room floor. In the
case of accessible service ducts, the latter shall in addition be fire-stopped
at each floor level immediately above and below each point of access
PART 1
Life Safety System (Continued)
l Duct penetrations of fire-rated walls must
have appropriate accessible re-settable fire dampers
(f)
FIRE
SEPARATION
Every attic or plenum space between ceiling and floor
or roof shall be fire-stoped into areas not exceeding 280 sq.m (3,000 sq.ft).
(g)
BUILDING
SERVICE EQUIPMENT
(h)
HAZARDOUS
AREAS
(i)
PORTABLE
FIRE EXTINGUISHERS
(j)
ELECTRICAL,
HVAC and PLUMBING
B.
Existing
Hotels
(1)
GENERAL
(a)
PREVENTION
AND PREPAREDNESS
Immediate
Requirements
(b)
DETECTION
(c)
ADVISING
(d)
SAFETY BEFORE EVACUATION
Immediate
Requirement
l Check construction of chases, shafts,
stairwells to ensure they are fire-stopped and smoke-tight
Second
Phase
(e)
EGRESS
Immediate
Requirement
Second
Phase
(f)
FIRE FIGHTING
Immediate
Requirement
Second
Phase
(g) SUMMARY
(2)
ELECTRICAL
(3)
PLUMBING
(4)
HEATING,
VENTILATION and CONDITIONING
(A)
LIFE
SAFETY SYSTEMS in EXISTING BUILDINGS
C. INTERIOR
FINISHES, FURNITURE and FURNISHINGS
PART 1
Section 3-K Commissioning
EXTRACT from
ARCHITECTURAL and ENGINEERING STANDARDS
3-K Commissioning
FIRE ALARM AND LIFE SAFETY SYSTEMS ( ELECTRICAL)
SCOPE OF WORKS
The commissioning and performance testing of the fire
and life support systems.
DEFINITIONS
Commissioning Specialist:
The firm or person appointed to carry out specified
duties in connection with commissioning the Fire and Life safety systems.
Fire Alarm installation:
All cabling, wiring , equipment and apparatus
associated with the installation
Pre-commissioning:
Specified systematic checking of a completed
installation to establish it’s suitability for commissioning.
Commissioning:
The advancement of an installation from the stage of
static completion to working order to specified requirements.
Setting to work:
The process of
setting a static system into motion.
LIFE SAFETY MANUAL (CONTINUE)
RESPONSIBILITIES AND DUTIES
The following summarises the responsibilities and
duties of all parties involved with the commissioning of the systems:
!. The Fire
Alarm and Life Safety Contractors shall, with the agreement of the
Employer ,Design Team and Main Contractor,
employ the services of
Commissioning Specialists to undertake the
commissioning and performance
testing
of the systems. Usually the Specialist Installation Company/Supplier.
The
Commissioning Specialist may also be the specialist commissioning
department of the Contractor.
2.
The
Employer, or Main Contractor, may at his discretion employ an
independent engineer to take overall responsibility for programming,
progress
monitoring
and where necessary the witnessing of the whole of the
commissioning works.
3.
The
Designer shall provide, in the form of drawings, schedules and
specification adequate information to ensure the successful
commissioning of
the
system. The Commissioning Specialists usually installation Company/
Supplier
shall , at an early stage, check and document that this information is
available
and bring to the aatetion of the Contractor any anomalies.
4.
The
Commissioning Specialist and Contractor shall prepare, and agree with the Main
Contractor a programme for the commissioning works.The Main Contractor shall
monitor this programme and report progress to the Design Team.
5.
The
Commissioning Specialist shall develop, and agree with the Contractor, Main
Contractor and Design Team, proposals for documentation and methods of
commissioning.
6.
The
Commissioning Specialist shall undertake a pre-commioning inspection and report
on the readiness of the Fire and Life safety systems to be commissioned.
7.
Where
necessary the Contractor shall employ the services of commissioning staff from
manufacturers and suppliers of specialist equipment and systems such as fire
alarm, telephones, automatic controls, building management systems. He shall
also co-ordinate their activities with those of the Commissioning Specialist.
8.
The
Designer shall report to the Employer on the performance of all Fire and Life
safety Systems.
9.
The
commissioning Specialist and Contractor shall demonstrate the systems to the
Employer or his representative and provide training in the use of the equipment
to be used and provide any equipment and labour necessary.
10.
The
Commissioning Specialist and Contractor shall demonstrate the systems to the
District Surveyor and Fire Office and provide any testing equipment and labour
necessary.
PART 1 SECTION 3-K Commissioning
Life Safety Manual (Continue)
經唐洲際飯店
TAICHUNG TOWER II
ELECTRICAL RISERS – LIGHTING AND
POWER
(In progress &
Partial shown only)
PPC/ADSC
Date: SEPTEMPBER 2, 1999 初稿
OPERATION AND
MAINTENANCE MANUAL (In
Progress)
(O&M
Manual) PROPOSAL建議書
DRAFT
Date: Aug. 19,
1999 Memo.#10 PPC/ADSC
I. Introduction
This proposal for operation and maintenance manual
will be developed as a guide and system familiarization hand book for the
operation and M&E personnel of the Taichung Tower II (台中京唐洲際大飯店) , Taichung City, Taiwan.
A system-oriented operating Manual is a management
tool. It helps communicate to each person working in the Taichung Tower II (台中京唐洲際大飯店) the designer's intentions about how to operate the
systems under normal and emergency conditions. This manual is broken down into
separate sections for each Hotel, Office, and Car-Park space with its own table
of contents as outlined below.
Contained in this proposal of O&M Manual is the
following information:
II. FACILITIES/LOCATION
________________________________________
III. Scope of Work工作範圍
1. Space Location (WHERE )
2. TRADE
A.
Mechanical
, Electrical and Electronics
1). Electrical Power
__________________________________________________
Taichung Tower
II 台中京唐洲際大飯店 DRAFT
Training ,Operation &
Maintenance
Electrical
Power System
電力系統訓練操作與維護手冊
TABLE OF CONTENTS
Section Title Page
I PURPOSE AND SCOPE OF MANUAL
A.
PURPOSE
B.
SCOPE
II LEGEND
III DESCRIPTION OF POWER SYSTEM
A.
Arrangement
B.
22.8
KV primary switchgear " "
C.
Main
Transformers
D.
Low
Voltage Switchgears
E.
Protective
Relaying
F.
Metering
and Operators Devices
G.
Power
Monitoring System
H.
Main
Panelboard
I.
Grounding
System
IV OPERATION OF POWER SYSTEM
A.
Normal Operation
B.
Abnormal
Operation
C.
Parallel
Operation
D.
Low
Voltage Switchgear
E.
Relaying
F.
Draw-out
Air Circuit Breakers
G.
Main
Panelboard
H.
Power
Monitoring System
I Grounding
System
J. The others
V MAINTENANCE OF POWER SYSTEM
A.
22.8
KV Medium Voltage Switchgear
B.
Transformers
C.
Low
Voltage Switchgear
D.
Main
Panelboard
E.
Power
Monitoring System
F.
Grounding
System
G.
Busways
H.
Molded
Case Circuit Breakers
I.
Schedule
of Periodic Inspection and Maintenance
VI INDEX OF EQUIPMENT SHOP DRAWINGS AND
OPERATING
MANUALS
VII INDEX OF AS BUILT DRAWINGS
______________________________________________________________________Taichung
Tower II 台中京唐洲際大飯店 (O&M Manual)
(Continue)
2) Electrical Lighting
3). Electronics
TAICHUNG TOWER
II 台中京唐洲際大飯店
OPERATION AND
MAINTENANCE MANUAL
PROPOSAL建議書
b.
Security
c.
Telephone/
Data Processing /Telecommunication
d.
CCTV
e.
Energy
Management
f.
BAS
(Building Automation System)
g.
The
others
1). HVAC
a.
Chillers
b.
Air
Handling Units
c.
Fan
coils
d.
Cooling
Towers
e.
Piping
f.
Air
ducts
g.
Control
and monitoring systems
h.
The
others
2). Plumbing
a.
Pumps
b.
Piping
c.
Devices
d.
Control
and monitoring system
e.
The
others
__________________________________________________________________
The Following
information or questionaire listed below for designer's Memo. Only.
Project Name:
Taichung Tower II 台中京唐洲際大飯店
Re: M&E SYSTEM DATA
___________________________________________________
I.
Building
Data DRAFT
A.
Building
Type and Primary Functions:
B.
Location:
C.
General:
1.
Gross
Area
2.
Net
Occupied Area
3.
No. of
Floors
II.
Lighting
A.
What
are major area lighting levels and types?
Area Type Watts
FC Control
1.
Hotel
2.
Office
a.
Executive
Offices
b.
General
Offices
c.
Conference
Rooms
d.
Corridors
e.
MER's
f.
Lobbies
g.
Toilets
h.
Exterior
i.
Parking
_______________________________________________________
Legend: TC -
Time clock
LS-
Local switching (How Local)
D -
Dimmer
MH -
Metal Halide
F - Fluorescent
I - Incandescent
MV -
Mercury Vapor
HPS -
High Pressure Sodium
______________________________________________________
B.
In
general, what type of wall covering and what colors are in major areas?
Area Wall Covering
& Color
Executive Offices
General Offices
Conference Rooms
Corridors
Lobbies
Parking Garage
C.
What
type of ballasts are being used?
D.
What
voltage are incandescent lamps rated for?
E.
What
sequence of lighting controls is presently used? That is, how many hours each
day is major area lighted and what "cleanup program " lighting is
presently employed?
P5 of 10
F.
Is
interior lighting on the exterior of the building separately controlled for
possible shut off on bright days?
G.
Do
fluorescent fixtures use reflective covers to maximize light refraction? If so,
are they maintained clean?
H.
Is
lighting presently task oriented or modular?
I.
Is
furniture integrated lighting presently employed in the facility?
J.
Describe
major lighting fixture types used. (Watts, dimensions manufacturer,
lightshield, voltage, etc.)
K.
What
stair lighting methods and control are used?
L.
What
decorative lighting can be reduced or eliminated?
M.
Is
exterior lighting under TC or photocell control?
N.
Can
exterior lighting be reduced or eliminated?
3.
Car-Park
III.
Power
A.
Obtain
utility rates, billings and demand interval for past year.
B.
Has a
recent rate study been made to determine whether or not the facility has the
most efficient rate and meter arrangement?
C.
Is
voltage regulation maintained within standard limits? (+/- 10%)
D.
Does
large refrigeration equipment utilize a demand limiter?
E.
Is
there a central plant? What is the power factor? Does the utility rate schedule
have low pf penalty or high pf incentive clause?
F.
Is
load shedding presently employed to conserve energy and limit demand? If so,
describe method.
G.
What
major heavy loads are operated during peak demand periods?
H.
Do
mechanically refrigerated drinking fountains remain on during non-working
hours? (Manufactures estimate drinking fountains operate on an average of 10
minutes each hour).
I.
Are
elevators and escalators kept operating 24 hours a day?
J.
Are
there electric kitchens on the premises? If so, is it used during peak demand
periods?
K.
Are
there emergency generators in the facility? If so, are they used during peak
demand periods?
L.
When
and what method of exercising and testing the generators are used?
M.
Are
major distribution transformers operating on center tapes?
N.
What
is the temperature in the transformer and switchgear rooms?
O. Are motor
starter contacts maintained?
O.
Are
motor sizes matched to equipment shaft sizes to operate at the most efficient
point?
P.
Are
loads balanced over all phases?
________________________________________________________________
Q.
Load
Data
1.
List
estimated sizes of controllable loads (For limiting or shedding) in kW.
a.
Exhaust
and Intake fans
b.
Re-circulation
fans
c.
HVAC
compressor motors
d.
Chiller
motors & pumps
e.
Type
of chillers
f.
Hot
water heaters
g.
Duct
heaters
h.
Refrigeration
i.
Pool
heaters
j.
Boilers
k.
Fluid
pumps
l.
Heat
pumps
m.
Furnaces
n.
Battery
Charges
__________________________________________
Survey
questionnaire for the Design of Electrical Systems
Note: Modify the
following to suit the particular project for which information is being sought.
Project Name:
Taichung Tower II 台中京唐洲際大飯店
A.
GENERAL
1.
What
are applicable Codes?
2.
Survey
of existing utilities on and in vicinity of site indicating size and location
of electrical, telephone and miscellaneous communications lines.
3.
Is
there any requirement for submission of plans and specifications for approval
by municipal agencies?
4.
Are
Design and specifications to be prepared on local or foreign equipment? If
local, obtain information on local equipment.
5.
Description
and criteria of security, national emergency and fall-out protection systems.
6.
Is the
project site located in an earthquake zone? What seismic rating is the zone?
B.
ELECTRIC
UTILITY SERVICE
1.
Available
service voltages:
Volts:
Phase: Wire: Hz.:
2.
Available
short circuit:
3.
Available
service entrances? Indicate number, types and locations.
4.
What
is the experienced percentage fluctuation of the Utility system voltage and
frequency during normal operation?
5.
What
is the experienced frequency and duration of scheduled and non-scheduled power
outages in the vicinity of the site.
6.
What
is the frequency, duration and magnitude of "brownouts" (Intentional
Utility system voltage reduction)?
7.
What
are the largest across-the-Line motors acceptable to utility company?
8.
What
is the Division of work between Utility and building owner? Utility Co. back
charges? (Describe).
9.
Overhead
or secondary Utility service to site?
10. Primary and secondary service metering and
rate schedules for each.
11. Is billing conjunctive (sum of
instantaneous total maximum demand) or totalized (sum of highest maximum
demands)? What is the length of the period used to determine the demand?
12. What are Utility Company requirements for
transformer vaults, cables, metering, approvals, shop drawings, others?
C.
TELEPHONE
SYSTEM
1.
Is
there a specific location or choice of locations where service will enter the
site?
2.
Is
service to the site overhead or underground?
NOTE: USE PARAGRAPHS
3-7 IF LOCAL TELEPHONE COMPANY IS PROVIDING SYSTEM:
3.
What
is division of work between utility and owner on incoming service?
4.
What
are telephone company requirements regarding service termination space and
internal distribution.
5.
What
is the minimum conduit-bending radius?
6.
Where
will power be required? Normal or emergency?
What special requirements does the owner have
regarding the telephone system?
NOTE: USE PARAGRAPHS 8-18, WHERE PRIVATE SYSTEM WILL
BE DESIGNED BY CONSULTING ENGINEERS.
7.
What
type of service is available? Describe:
8.
What
type of signaling will be used?
Describe:
9.
What
type and gauge of cable will be terminated on the Main Distribution Frame
(MDF)?
10.
What
type of central Office (CO) side MDF protection is required? Describe:
11.
What
type of trunk service is available?
4-wire; 2-wire; Other; Describe.
12.
What
is the maximum loop resistance including station or key equipment?
13.
Are
repeaters required?
14.
Will
precise tone multi-frequency dialing be accommodated by the Central Office?
Yes( ), No ( ), If yes, what standards should be used?
15.
What
is central office and national system data transmission rate in baud or bits
per second (bps)?
16.
How do
you want the traffic and grade of service calculations presented?
17.
Other
than BSP (Bell System Practices) do you have any other standards or regulations
we should be aware of?
D.
GENERAL
REQUIREMENTS
1.
Systems
and Equipment Criteria
a.
Lighting: U.S. Illuminating Engineering Society (IES):
U.S. Federal Energy Administration (FEA) ; British Standards ; Other ;
describe:
b.
Lightning
Protection: U.S. National Fire Protection Association (NFPA) (); British
Standards (); Other (); Describe:
c.
Equipment: U.S. with Underwriters' Label (); Other ();
describe:
E.
BUILDING
UTILIZATION VOLTAGES
1.
Volts, Phase, Wire,
Hz. For: Hotel
2.
Volts, Phase, Wire,
Hz. For: Office
3.
Volts, Phase, Wire,
Hz. For: Car Park
F.
STANDBY
EMERGENCY GENERATOR
1.
The
following is a list of systems and equipment generally placed on emergency
standby power. Please review and modify if required.
a.
Exit
lighting
b.
Partial
- corridor, stair and selected area lighting
c.
Elevators
(on selective basis- one at a time)
d.
Refrigerators
e.
Fire
pumps
f.
Sewage
and sump pumps
g.
Telephone
and communications system
h.
Alarm
systems
i.
Security
systems
j.
Control
air compressors
k.
Generator
room appurtenances
G.
OFFICE FOLLR POWER DISTRIBUTION
1.
Is the
flexibility of an under-floor distribution system required?
2.
What
areas or load concentrations exist requiring special provisions (Such as
special guestrooms, VIP Room, etc.).
H. SPECIAL SYSTEMS FOR POSSIBLE INCLUSION
1.
Equipotential
Ground System
2.
UPS
3.
Isolated
Power System
4.
Manual
Fire Alarm System
5.
Smoke
and Fire Detection Systems
6.
Lightning
Protection System
7.
Grounding
System
8.
Security
and Watch Patrol System
9.
CCTV
(Closed Circuit Television)
10. Intercommunication System
11. Public Address System
12. Sound System
13. Television System
14. Radio System
15. Satellite System
16. Helicopter related
______________________________________________________________
File: Disc # TTII. O&M. M. PPC. Memo # 10.08.19.99
CC: Yeh/Tsung-Tang & Tony Lin /TTII
經唐洲際飯店 TAICHUNG TOWER II
Date: September 15, 1999 Memo. # 20 PPC/ADSC
LIFE SAFETY MANUAL
Introduction:
l
Architecture
& Engineering Standards
l
Loss
Prevention Manual
l
Technical
Maintenance Manual
l Fire Safety Standards
經唐洲際飯店
TAICHUNG TOWER II
CONFIDENTIAL
Date: September 4, 1999 Memo. 18 PPC/ADSC
Dear Tony: Good Morning!
Would you please let me know should the
following statement exactly “meet ‘ the current situation or not. Thank you and have a nice a weekend!
The following
Statements need your sincerely Attention & Clarification:
As per conversation with Mr. 郭經理/”宗唐機構”&鉅唐建設 this morning, Mr. 郭經理 told
me “The Meeting Memo. “ for the
coordination meeting on Sep. 2, ’99 ” had been agreed upon, the decision had
been made, and already signed by the following attendees (i.e. The Decision
Makers – (a). Owner & Representative, (b) TTII “Project management office”
(i.e. you & 連先生), (c). 大陸設備顧問工程公司:徐銀地副總經理(Mechanical, Electrical & Plumbing MEP, (I.e.
Consulting Engineers), (d).靖晟營造設計靖銓(Design
& Engineering): 林明德先生(Design production Group) ( 2 )施工(Construction
Department) : 劉昌呈副理機電部門 Deputy head Of mechanical & Electrical
(M&E), (e). Any others who is interested?
Name of Attendees(與會人員) and the firm they represented:
1). 宗唐機構: 葉總經理 與林明德協理
2) .大陸設備顧問工程公司:徐銀地副總經理與藍副理
Mechanical, Electrical & Plumbing MEP
(I.e. Consulting Engineers).
3). 經唐洲際飯店專案經理:
林偉政 (Project coordinator),
連先生等
4). 靖晟營造(General
Contractor):
a.
設計與施工部門(Design & Construction Department):
(1). 設計靖銓(Design
& Engineering): 林明德先生(Design production
Group)
( 2 )施工(Construction
Department) : 劉昌呈副理機電部門 Deputy head
Of mechanical & Electrical (M&E),
CONFIDENTIAL
Date: September 3,
1999 Memo. #17 PPC/ADSC
To: Mr. Tony Lin / TTII For Meeting Memo. for coordination
meeting
Held on September
2, 1999
Dear Tony :
First, Thank you
for your wonderful arrangement and being the Excellent Host for the last
coordination meeting held on yesterday .
Regarding the
Meeting Memo. to be written by Mr. 林明德 先生, Most
attendees who involved the discussions on the subject should review the memo.
before formally issued to each attendee of the firm.
Please let me know
your opinion.
Sincerely
yours, Thank again !
Philip Pai-Pin
Chen, P.E.
Director / ADSC
CONFIDENTIAL
RE; Meeting Memo.
for M&E coordination Meeting held on
Sep. 2, “99
(DRAFT) In Progress
Content of Meeting
Memo:
Date:
September 6, 1999 Memo. #
18 (In Progress)
Subject: coordination Meeting held on Sep.
2, 1999 from 9:30.am to 16:00 PM.
一九九九年月份第一次聯合協調會議
Attendee(與會人員):
1). 宗唐機構: 葉總經理林明德協理郭經理
2) .大陸設備顧問工程公司:徐銀地副總經理與藍副理
Mechanical, Electrical & Plumbing MEP
(I.e. Consulting Engineers).
3). 經唐洲際飯店專案經理:
林偉政 (Project coordinator),
連先生等
4). 靖晟營造(General
Contractor):
b.
設計與施工部門(Design & Construction Department):
(1). 設計靖銓(Design
& Engineering): 林明德先生(Design production
Group)
( 2 )施工(Construction
Department) : 劉昌呈副理機電部門 Deputy head
Of mechanical & Electrical (M&E),
5). 陳柏彬工程師 Philip Pai-Pin Chen, P.E.
專業顧問工程技師 (Professional Consulting engineer)
DIRECTOR/ ADSC & MCTI
File : Disc. TTII, Memo. W. “CEC” on
09.02.99. PPC .Memo #17 .09.03.99
CC: 葉總經理 /宗唐機構,林協理/宗唐機構, Tony
Lin/ TTII
Mr. Wang / Chairman/ KUO TANG
DATE: APRIL 27TH., MONDAY, 2020.
PLEASE NOTE: HERE IS , WAS MY VERY
IMPORTANT TASK, PROJECT, IN TAICUNG CITY, TAIWAN, REPUBLIC OF CHINA DURING MY
TIME PERIOD FROM JUNE 1999 UP TO OCTOBER 25, 1999.
HERE WAS MY DETAILS, CARING, SAFETY,
PERFECT, CORRECT, RIGHT,EXCELLENT, ETC., MY PERFORMANCES AS SHOWN BELOW:
DATA, INFORMATIONS, TASK, TITLES, AND THE
PEOPLE PERSON, MANAGER, PARTIAL OWER, OWERS OF THE BUILDING, TTII. 47 FLOORS
HIGH RISE BUILDING.
SEE MY PERFORMANCE, ACTIVITIES, ETC., AS
SHOWN ABOVE.
04272020, MONDAY.
PAI PIN CHEN.
NYSEASIA@GMAIL.COM.
