PREMIUM BOOK WITH HIGH DEFINITION QUALITY.
**A complete Guide of Fire fighting System.**
This HANDBOOK has been made from references of many books from all over the world. Which has been collected in one book.
1. Sprinkler system Type
WET PIPE SPRINKLER SYSTEM
DRY PIPE SPRINKLER SYSTEM
PRE-ACTION SYSTEM
DELUGE SYSTEM
WET PIPE ANTI FREEZE SYSTEM
FOAM WATER SPRINKLER SYSTEM
2. Sprinkler Selection
3 . Piping
4. Hydraulic Calculation
5. Standpipe System
6. Pump Selection & Types
Basic training water based fire protectionSabrul Jamil
This presentation contains training materials of my training of Introduction to WATER BASED FIRE PROTECTION SYSTEM, Which includes, Standpipe (Hydrant) System, Wet pipe Sprinkler System, Dry pipe Sprinkler System,
Deluge Sprinkler System, Single interlock Pre-Action Sprinkler System, Double Interlock Pre-Action Sprinkler System and
Water Mist Fire Protection
Please use the filters located on the left to narrow your search.
Joslyn Clark offers a variety of fire pump controllers in varying voltages and configurations, powered by either diesel or electricity. These diesel and electric fire pump controller products set the industry standard for performance, consistency, and reliability.
Electric Fire Pump ControlElectric fire pump controllerler
Joslyn Clark's electric fire pump controller products are compact but still boast more horsepower per cubic inch than any other electric fire pump controller on the market. Our flagship electric fire pump controller line is the new ProGuard series.
All Joslyn Clark electric fire pump controller models are available with an optional Automatic Transfer Switch. This option is housed in an isolated compartment and complies with the National Fire Protection Association and NFPA-20 standards. It comes factory-assembled, wired, tested, and shipped as a single unit.
The Automatic Transfer Switch ensures that if primary power fails, the electric fire pump controller begins operating from emergency power (without user intervention). Upon restoration of normal power, the electric fire pump controller will resume operation from primary power. LED power indicators as well as an audible alarm are included as standard features on an Automatic Transfer Switch equipped electric fire pump controllers. N.O. And N.C. contacts are provided for remote signal of the switch position.
Diesel Pump Fire Pump Controllers
Joslyn Clark's B series is a line of diesel fire pump controller products. This is a type of electric fire pump controller designed for diesel engine driven fire pump service. The B series diesel fire pump controller is designed to start the diesel engine automatically from water pressure control or non-automatically from manual electric control. Furthermore, this type of electric fire pump controller functions to maintain the charge on engine starting batteries, monitors engine and system condition, and initiates a weekly program test of the system.
Jockey Pump Controllers
Joslyn Clark also offers a Jockey Pump electric fire pump controller as an accessory to a main or limited service pump. This very small electric pump controller maintains stand-by pressure in the fire protection system to prevent wear on the main pump. Joslyn Clark type JM Jockey Pump controllers are available with automatic type starting as standard. This type of electric pump controller is available in a wall-mounting enclosure that meets type 2, 12, and 3R requirements with an optional 4X rating.
• Medium Velocity Water Spray Systems (MVWSS) are used for fire protection of areas with fire risks from low FP flammable liquids (FP below 65 Degree C) and also for fire extinguishment of water miscible liquids (polar solvents, alcohols etc.) small installation as it becomes cost effective and also serves the purpose of safety and location identification is easy.
• High Velocity Water Spray Systems (HVWSS) are used for extinction of fires in flammable medium and heavy oils or similar flammable liquids having a flashpoint above 65 Degree C. (E.g. Transformer Fires, Lube Oil Tanks, Etc).
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Key Characteristics and Requirements of Diesel Fire Pump Engines
Overview of Automatic Fire Sprinkler Systems.pptxM&E Engineer
An Automatic Fire Sprinkler System is a network of water-filled pipes which starts at your domestic water service line and ends with strategically spaced fire sprinkler heads located throughout your home.
Fire Pump Settings. The fire pump system, when started by pressure drop,
should be arranged as follows:
(a) The jockey pump stop point should equal the pump churn pressure plus the
minimum static supply pressure.
(b) The jockey pump start point should be at least 10 psi (0.68 bar) less than the
jockey pump stop point.
(c) The fire pump start point should be 5 psi (0.34 bar) less than the jockey
pump start point. Use 10 psi (0.68 bar) increments for each additional pump.
(d) Where minimum run times are provided, the pump will continue to operate
after attaining these pressures. The final pressures should not exceed the
pressure rating of the system.
(e) Where the operating differential of pressure switches does not permit these
settings, the settings should be as close as equipment will permit. The set-
tings should be established by pressures observed on test gauges.
Fire hydrant installation consists of a system of pipe work connected directly to the water supply main to provide water to each and every hydrant outlet and is intended to provide water for the firemen to fight a fire. The water is discharged into the fire engine form which it is then pumped and sprayed over fire. Where the water supply is not reliable or inadequate, hydrant pumps should be provided to pressurize the fire mains.
PREMIUM BOOK WITH HIGH DEFINITION QUALITY.
**A complete Guide of Fire fighting System.**
This HANDBOOK has been made from references of many books from all over the world. Which has been collected in one book.
1. Sprinkler system Type
WET PIPE SPRINKLER SYSTEM
DRY PIPE SPRINKLER SYSTEM
PRE-ACTION SYSTEM
DELUGE SYSTEM
WET PIPE ANTI FREEZE SYSTEM
FOAM WATER SPRINKLER SYSTEM
2. Sprinkler Selection
3 . Piping
4. Hydraulic Calculation
5. Standpipe System
6. Pump Selection & Types
Basic training water based fire protectionSabrul Jamil
This presentation contains training materials of my training of Introduction to WATER BASED FIRE PROTECTION SYSTEM, Which includes, Standpipe (Hydrant) System, Wet pipe Sprinkler System, Dry pipe Sprinkler System,
Deluge Sprinkler System, Single interlock Pre-Action Sprinkler System, Double Interlock Pre-Action Sprinkler System and
Water Mist Fire Protection
Please use the filters located on the left to narrow your search.
Joslyn Clark offers a variety of fire pump controllers in varying voltages and configurations, powered by either diesel or electricity. These diesel and electric fire pump controller products set the industry standard for performance, consistency, and reliability.
Electric Fire Pump ControlElectric fire pump controllerler
Joslyn Clark's electric fire pump controller products are compact but still boast more horsepower per cubic inch than any other electric fire pump controller on the market. Our flagship electric fire pump controller line is the new ProGuard series.
All Joslyn Clark electric fire pump controller models are available with an optional Automatic Transfer Switch. This option is housed in an isolated compartment and complies with the National Fire Protection Association and NFPA-20 standards. It comes factory-assembled, wired, tested, and shipped as a single unit.
The Automatic Transfer Switch ensures that if primary power fails, the electric fire pump controller begins operating from emergency power (without user intervention). Upon restoration of normal power, the electric fire pump controller will resume operation from primary power. LED power indicators as well as an audible alarm are included as standard features on an Automatic Transfer Switch equipped electric fire pump controllers. N.O. And N.C. contacts are provided for remote signal of the switch position.
Diesel Pump Fire Pump Controllers
Joslyn Clark's B series is a line of diesel fire pump controller products. This is a type of electric fire pump controller designed for diesel engine driven fire pump service. The B series diesel fire pump controller is designed to start the diesel engine automatically from water pressure control or non-automatically from manual electric control. Furthermore, this type of electric fire pump controller functions to maintain the charge on engine starting batteries, monitors engine and system condition, and initiates a weekly program test of the system.
Jockey Pump Controllers
Joslyn Clark also offers a Jockey Pump electric fire pump controller as an accessory to a main or limited service pump. This very small electric pump controller maintains stand-by pressure in the fire protection system to prevent wear on the main pump. Joslyn Clark type JM Jockey Pump controllers are available with automatic type starting as standard. This type of electric pump controller is available in a wall-mounting enclosure that meets type 2, 12, and 3R requirements with an optional 4X rating.
• Medium Velocity Water Spray Systems (MVWSS) are used for fire protection of areas with fire risks from low FP flammable liquids (FP below 65 Degree C) and also for fire extinguishment of water miscible liquids (polar solvents, alcohols etc.) small installation as it becomes cost effective and also serves the purpose of safety and location identification is easy.
• High Velocity Water Spray Systems (HVWSS) are used for extinction of fires in flammable medium and heavy oils or similar flammable liquids having a flashpoint above 65 Degree C. (E.g. Transformer Fires, Lube Oil Tanks, Etc).
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Key Characteristics and Requirements of Diesel Fire Pump Engines
Overview of Automatic Fire Sprinkler Systems.pptxM&E Engineer
An Automatic Fire Sprinkler System is a network of water-filled pipes which starts at your domestic water service line and ends with strategically spaced fire sprinkler heads located throughout your home.
Fire Pump Settings. The fire pump system, when started by pressure drop,
should be arranged as follows:
(a) The jockey pump stop point should equal the pump churn pressure plus the
minimum static supply pressure.
(b) The jockey pump start point should be at least 10 psi (0.68 bar) less than the
jockey pump stop point.
(c) The fire pump start point should be 5 psi (0.34 bar) less than the jockey
pump start point. Use 10 psi (0.68 bar) increments for each additional pump.
(d) Where minimum run times are provided, the pump will continue to operate
after attaining these pressures. The final pressures should not exceed the
pressure rating of the system.
(e) Where the operating differential of pressure switches does not permit these
settings, the settings should be as close as equipment will permit. The set-
tings should be established by pressures observed on test gauges.
Fire hydrant installation consists of a system of pipe work connected directly to the water supply main to provide water to each and every hydrant outlet and is intended to provide water for the firemen to fight a fire. The water is discharged into the fire engine form which it is then pumped and sprayed over fire. Where the water supply is not reliable or inadequate, hydrant pumps should be provided to pressurize the fire mains.
Unit 8 - Information and Communication Technology (Paper I).pdfThiyagu K
This slides describes the basic concepts of ICT, basics of Email, Emerging Technology and Digital Initiatives in Education. This presentations aligns with the UGC Paper I syllabus.
The Indian economy is classified into different sectors to simplify the analysis and understanding of economic activities. For Class 10, it's essential to grasp the sectors of the Indian economy, understand their characteristics, and recognize their importance. This guide will provide detailed notes on the Sectors of the Indian Economy Class 10, using specific long-tail keywords to enhance comprehension.
For more information, visit-www.vavaclasses.com
How to Split Bills in the Odoo 17 POS ModuleCeline George
Bills have a main role in point of sale procedure. It will help to track sales, handling payments and giving receipts to customers. Bill splitting also has an important role in POS. For example, If some friends come together for dinner and if they want to divide the bill then it is possible by POS bill splitting. This slide will show how to split bills in odoo 17 POS.
How to Create Map Views in the Odoo 17 ERPCeline George
The map views are useful for providing a geographical representation of data. They allow users to visualize and analyze the data in a more intuitive manner.
Synthetic Fiber Construction in lab .pptxPavel ( NSTU)
Synthetic fiber production is a fascinating and complex field that blends chemistry, engineering, and environmental science. By understanding these aspects, students can gain a comprehensive view of synthetic fiber production, its impact on society and the environment, and the potential for future innovations. Synthetic fibers play a crucial role in modern society, impacting various aspects of daily life, industry, and the environment. ynthetic fibers are integral to modern life, offering a range of benefits from cost-effectiveness and versatility to innovative applications and performance characteristics. While they pose environmental challenges, ongoing research and development aim to create more sustainable and eco-friendly alternatives. Understanding the importance of synthetic fibers helps in appreciating their role in the economy, industry, and daily life, while also emphasizing the need for sustainable practices and innovation.
Ethnobotany and Ethnopharmacology:
Ethnobotany in herbal drug evaluation,
Impact of Ethnobotany in traditional medicine,
New development in herbals,
Bio-prospecting tools for drug discovery,
Role of Ethnopharmacology in drug evaluation,
Reverse Pharmacology.
Students, digital devices and success - Andreas Schleicher - 27 May 2024..pptxEduSkills OECD
Andreas Schleicher presents at the OECD webinar ‘Digital devices in schools: detrimental distraction or secret to success?’ on 27 May 2024. The presentation was based on findings from PISA 2022 results and the webinar helped launch the PISA in Focus ‘Managing screen time: How to protect and equip students against distraction’ https://www.oecd-ilibrary.org/education/managing-screen-time_7c225af4-en and the OECD Education Policy Perspective ‘Students, digital devices and success’ can be found here - https://oe.cd/il/5yV
The French Revolution, which began in 1789, was a period of radical social and political upheaval in France. It marked the decline of absolute monarchies, the rise of secular and democratic republics, and the eventual rise of Napoleon Bonaparte. This revolutionary period is crucial in understanding the transition from feudalism to modernity in Europe.
For more information, visit-www.vavaclasses.com
Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
Palestine last event orientationfvgnh .pptxRaedMohamed3
An EFL lesson about the current events in Palestine. It is intended to be for intermediate students who wish to increase their listening skills through a short lesson in power point.
The Art Pastor's Guide to Sabbath | Steve ThomasonSteve Thomason
What is the purpose of the Sabbath Law in the Torah. It is interesting to compare how the context of the law shifts from Exodus to Deuteronomy. Who gets to rest, and why?
2. A fire pump is designed to increase water pressure. The pump intake and
discharge piping must be capable of flowing the required volume to which
the pump will add the needed pressure for fire protection. The pump can
be started manually, but is usually arranged to start automatically upon a
drop in system pressure or the activation of a fire suppression system.
“FIRE PUMP IS THE HEART OF THE FIRE
PROTECTION SYSTEM”
Introduction of Fire Pump
3. • NFPA 20 Installation of Stationary Pumps
• NFPA 25 Inspection, Testing & Maintenance of Water Base Fire
Protection System, Chapter 8
• UAE Fire & Life Safety Code of Practice
• FM Global (Factory Mutual)
Standards
4. • End Suction Pumps
• Vertical In-line
• Horizontal Split Case
• Vertical Multi Stage
• Vertical Turbine
Type of Fire Pumps
11. • Driven Type : Electrical Motor / Diesel Engine
• Flow Range (GPM)
• Head pressure (ft)
• Horse power (HP)
• Revolution Per Minute (RPM)
Pump Specification
14. The automatic air relief valve removes the air that may become trapped
inside the pump casing. On some old installations, the air release valve
may be manually operated. An air release valve mounted on top of the
fire pump casing.
Automatic air release valve
15. “Air in a pressurized pipeline is a serious concern.
Obviously, its removal will result in a more
efficient, cost effective operation and potentially
avoid more serious problems.”
16. • The circulation relief valve is designed to open and
discharge a small amount of water when the pump is
running at churn. The valve should be 3/4 in. (19 mm) for
pump capacities up to 2500 gpm (9462 L/min) and 1 in. (25
mm) for larger pumps. This valve prevents the pump casing
from overheating and damaging the impeller, packings,
and bearings during extended periods of running at churn.
When the fire pump is operating while discharging water
through the fire protection system, the circulation relief
valve is not needed for cooling and should close. The
circulation relief valve is usually spring-operated and can
fail with the slightest bit of obstructing material in the
valve and or corrosion enters the valve.
• The circulation relief valve should be set to open at the
pump rated pressure.
• Discharge from this valve should be piped to a drain or to
the outdoors, and the discharge should be observed during
the weekly test of the fire pump.
Circulation relief valve
17. NFPA 20 is very clear that a pressure relief valve
is only needed when a diesel engine fire pump is
installed and where a total of 121 percent of the
net rated shutoff (churn) pressure plus the
maximum static suction pressure, adjusted for
elevation, exceeds the pressure for which the
system components are rated. Pressure relief
valves are also required for variable-speed drive
fire pumps. Pressure relief valves should never
be used on electric drive (constant speed) fire
pumps.
Pump Relief Valve
18. Jockey pump is a low-flow, high-pressure pump It is designed to maintain
a constant pressure on the system, accounting for minor pressure
fluctuations.
NFPA 20 suggests that the jockey pump be sized 1% of pump flow at 10
psi over pump rated pressure.
Jockey Pump
19. • Electrical Driven Pump
• Diesel Driven Pump
• Note: The pump driver shall not overload
beyond its rating (including any service factor
allowance) when delivering the necessary
brake horsepower.
Type of Driver
20. • Automatic and manual controllers for applying
the energy source to the driver shall be
capable of providing this operation for the
type of pump used.
Controller
21. Packing gland is used to seal water leakage
around shaft and when the pump is not in
operation minimum one drop of water per
second is required for gland lubrication and a
steady trickle of water is needed to keep gland in
cool condition when the pump is operating and
adjustment should also be done if required.
Packing Gland
22. The mechanical seal has two parts one is Rotary
and another is fixed. This is fix in the pump shaft,
acts as a check valve and a slider bearing. Its is
designed to prevent liquid under pressure from
leaking out of the pump, or from drawing air into
the pump when under vacuum conditions.
Mechanical Seal
23. Churn:
The pump is operating with no flow.
Rated capacity:
The pump is discharging water at the specified pressure.
Overload:
The pump is discharging water at a rate of 150 percent of
rated flow at a pressure of 65 percent of rated pressure.
24. The fire pump system, when started by pressure drop, should be arranged as follows (NFPA
minimum Requirement):
1. The jockey pump stop point should equal the pump churn pressure plus the minimum
static supply pressure.
2. The jockey pump start point should be at least 10 psi (0.68 bar) less than the jockey pump
stop point.
3. The fire pump start point should be 5 psi (0.34 bar) less than the jockey pump start point.
Use 10 psi (0.68 bar) increments for each additional pump.
4. Where minimum run timers are provided, the pump will continue to operate after attaining
these pressures.
The final pressures should not exceed the pressure rating of the system.
Fire Pump Setting
25. The purpose of inspection, Testing & Maintenance
shall be to verify that the pump assembly appears
to be in operating condition and is free from
physical
Inspection, Testing & Maintenance
26. 8.2 Inspection.
(1) P ump house conditions:
(a) Heat is adequate, not less than 4.4°C (40°F) [21°C (70°F) for pump room with diesel pumps without
engine heaters].
(b) Ventilating louvers are free to operate.
(2) P ump system conditions:
(a) Pump suction and discharge and bypass valves are fully open.
(b) Piping is free of leaks.
(c) Suction line pressure gauge reading is normal.
(d) System line pressure gauge reading is normal.
(e) Suction reservoir is full.
(f) Wet pit suction screens are unobstructed and in place.
(3) Electrical system conditions:
(a) Controller pilot light (power on) is illuminated.
(b) Transfer switch normal pilot light is illuminated.
(c) Isolating switch is closed — standby (emergency) source.
(d) Reverse phase alarm pilot light is off or normal phase rotation pilot light is on.
(e) Oil level in vertical motor sight glass is normal.
Weekly
27. (4) Diesel engine system conditions:
(a) Fuel tank is two-thirds full.
(b) Controller selector switch is in auto position.
(c) Batteries’ (2) voltage readings are normal.
(d) Batteries’ (2) charging current readings are normal.
e) Batteries’ (2) pilot lights are on or battery failure (2) pilot lights are off.
(f) All alarm pilot lights are off.
(g) Engine running time meter is reading.
(h) Oil level in right angle gear drive is normal.
(i) Crankcase oil level is normal.
(j) Cooling water level is normal.
(k) Electrolyte level in batteries is normal.
(l) Battery terminals are free from corrosion.
(m) Water-jacket heater is operating.
Weekly Inspection
28. 8.3.1 A weekly test of fire pump assemblies shall be conducted without flowing water.
8.3.1.1 This test shall be conducted by starting the pump automatically.
8.3.1.2 The electric pump shall run a minimum of 10 minutes.(Monthly)
When a pump is started, a great deal of heat is generated from the energy needed to bring the
pump up to speed. Paragraph 8.3.1.2 requires that the electric motor be run for 10 minutes so the motor windings
can cool down after starting across the line. Another reason for the 10 minute requirement is that it allows time to
check the pump packing and bearings to determine if they are overheating or leaking excessively.
8.3.1.3 The diesel pump shall run a minimum of 30 minutes.
A diesel fire pump be operated for 30 minutes. This requirement is intended to allow the pump and driver to reach operating
temperature and will reveal any overheating problems. The 30 minute operating time is also intended to consume fuel to
prevent the fuel from stagnating and to prevent wet stacking in the exhaust system.
8.3.1.4 A valve installed to open as a safety feature shall be permitted to discharge water.
8.3.1.5 The automatic weekly test timer shall be permitted to be substituted for the starting procedure.
8.3* Testing
29. 8.3.2 Weekly Tests.
8.3.2.1* Qualified operating personnel shall be in attendance during the weekly pump operation.
8.3.2.2 The pertinent visual observations or adjustments specified in the following checklists shall be
conducted while the pump is running:
(1) Pump system procedure:
(a) Record the system suction and discharge pressure gauge readings
(b) Check the pump packing glands for slight discharge
(c) Adjust gland nuts if necessary
(d) Check for unusual noise or vibration
(e) Check packing boxes, bearings, or pump casing for overheating
(f) Record the pump starting pressure
(2) Electrical system procedure: (Monthly)
(a) Observe the time for motor to accelerate to full speed
(b) Record the time controller is on first step (for reduced voltage or reduced current starting)
(c) Record the time pump runs after starting (for automatic stop controllers)
30. (3) Diesel engine system procedure:
(a) Observe the time for engine to crank
(b) Observe the time for engine to reach running speed
(c) Observe the engine oil pressure gauge, speed indicator, water, and oil temperature indicators
periodically while engine is running
(d) Record any abnormalities
(e) Check the heat exchanger for cooling water flow
31. 8.3.3.1 An annual test of each pump assembly shall be conducted under minimum, rated, and peak
flows of the fire pump by controlling the quantity of water discharged through approved test devices.
8.3.3.1.1* If available suction supplies do not allow flowing of 150 percent of the rated pump capacity,
the fire pump shall be permitted to operate at maximum allowable discharge.
8.3.3.1.2* This test shall be conducted as described in 8.3.3.1.2.1, 8.3.3.1.2.2, or 8.3.3.1.2.3.
8.3.3.1.2.1 Use of the Pump Discharge Via the Hose Streams. Pump suction and discharge pressures
and the flow measurements of each hose stream shall determine the total pump output. Care shall be
taken to prevent water damage by verifying there is adequate drainage for the high-pressure water
discharge from hoses.
8.3.3.1.2.2 Use of the Pump Discharge Via the Bypass Flowmeter to Drain or Suction the Reservoir.
Pump suction and discharge pressures and the flowmeter measurements shall determine the total
pump output.
8.3.3.1.2.3 Use of the Pump Discharge Via the Bypass Flowmeter to Pump Suction (Closed-Loop
Metering). Pump suction and discharge pressures and the flowmeter measurements shall determine
the total pump output.
8.3.3.1.3 Where the annual test is conducted periodically in accordance with 8.3.3.1.2.3, a test shall be
conducted every 3 years in accordance with 8.3.3.1.2.1 or 8.3.3.1.2.2 in lieu of the method described in
8.3.3.1.2.3.
8.3.3 Annual Tests
32. 8.3.3.1.4 Where 8.3.3.1.2.2 or 8.3.3.1.2.3 is used, the flow meter shall be adjusted immediately prior to
conducting the test in accordance with the manufacturer’s instructions. If the test results are not
consistent with the previous annual test, 8.3.3.1.2.1 shall be used. If testing in accordance with
8.3.3.1.2.1 is not possible, a flowmeter calibration shall be performed and the test shall be repeated.
8.3.3.2 The pertinent visual observations, measurements, and adjustments specified in the following
checklists shall be conducted annually
while the pump is running and flowing water under the specified output condition:
(1) At no-flow condition (churn):
(a) Check the circulation relief valve for operation to discharge water
(b) Check the pressure relief valve (if installed) for proper operation
(c) Continue the test for ½ hour
(2) At each flow condition:
(a) Record the electric motor voltage and current (all lines)
(b) Record the pump speed in rpm
(c) Record the simultaneous (approximately) readings of pump suction and discharge pressures and
pump discharge flow
8.3.3.3* For installations having a pressure relief valve, the operation of the relief valve shall be closely
observed during each flow condition to determine if the pump discharge pressure exceeds the normal
operating pressure of the system components.
8.3.3.3.1 The pressure relief valve shall also be observed during each flow condition to determine if the
pressure relief valve closes at the proper pressure.
33. 8.3.3.3.2 A pressure relief valve that is open during a flow condition will affect test results.
8.3.3.3.3 The pressure relief valve shall be closed during flow conditions if necessary to achieve
minimum rated characteristics for the pump and reset to normal position at the conclusion of the
pump test.
8.3.3.4 For installations having an automatic transfer switch, the following test shall be performed to
ensure that the overcurrent protective devices (i.e., fuses or circuit breakers) do not open:
(1) Simulate a power failure condition while the pump is operating at peak load
(2) Verify that the transfer switch transfers power to the alternate power source
(3) Verify that the pump continues to perform at peak load
(4) Remove the power failure condition and verify that after a time delay, the pump is reconnected to
the normal power source
8.3.5.5 Current and voltage readings whose product does not exceed the product of the rated voltage
and rated full-load current multiplied by the permitted motor service factor shall be considered
acceptable. Voltage readings at the motor within 5 percent below or 10 percent above threated (i.e.,
nameplate) voltage shall be considered acceptable.
34. 0
50
100
150
200
250
300
350
400
0 750 1125
NETPRESSURE(PSI)
FLOW (GPM)
PERFORMANCE CURVE
Actual Pressure
Rated Pressure
Characteristic Curve
A copy of the manufacturer’s certified pump
test characteristic curve shall be available
for comparison of the results of the field
acceptance test. [NFPA 20-10: 14.2.4.1]
The fire pump as installed shall equal the
performance as indicated on the
manufacturer’s certified shop test
characteristic curve within the accuracy
limits of the test equipment. [NFPA 20-10:
14.2.4.2]
The fire pump shall perform at minimum,
rated, and peak loads without objectionable
overheating of any component. [NFPA 20-
10: 14.2.5.2.1]
35. 8.4 Reports.
8.4.1 Any abnormality observed during inspection or testing shall be reported
promptly to the person responsible for correcting the abnormality.
8.4.2* Test results shall be recorded and retained for comparison purposes in
accordance with Section 4.3.
8.4.2.1 All time delay intervals associated with the pump’s starting, stopping,
and energy source transfer shall be recorded.
8.5 Maintenance.
8.5.1* A preventive maintenance program shall be established on all
components of the pump assembly in accordance with the manufacturer’s
recommendations.
8.5.2 Records shall be maintained on all work performed on the pump, driver,
controller, and auxiliary equipment.
8.5.3 In the absence of manufacturer’s recommendations for preventive
maintenance,
36.
37.
38.
39. All rotating machines, pumps included, vibrate to some extent due to various reasons, the most
common of which are typically the following:
• Improper installation at site
• Improper balancing of pump rotor
• Excessively turbulent fluid flow
• Pressure fluctuations
• Cavitation or internal recirculation in pumps
• Normal pump wear after prolonged operation.
Pump Vibration
41. Misalignment will affect the Pump performance
and damage the pump.
ACCEPTABLE PUMP ALIGNMENT TOLERANCES
RPM 1800 RPM 3600 RPM
Parallel alignment 0.002“ 0.004"
Angular 0.004“ 0.006"
Alignment
42. • Cooling System filled with premixed water and coolant conditioner.
• Batteries serviced and charged 24 hours connected to the engine
• Only distilled water shall be used.
• Electrolyte shall be added to the batteries a minimum of 24 hours prior to the time the engine has to be started.
• Battery plates shall be kept submerged at all times.
• The fuel storage tanks shall be kept as full as practical at all times, but never below 66% of tank capacity. A fuel
level indicator shall be provided to activate at the 2/3rds tank level.
• The fire pump shall be started and brought up to rated speed without interruption within 20 seconds.
• Rain cap on outlet if necessary; tight connections.
• Fire diesel engine pump exhaust system need to fix gravity louvers to avoid any damages as there is chance of
water entry to engine through exhaust system and also any hard particle may go through.
• Engines shall be regulated to have no more the 10% speed difference between shutoff and maximum load.
• Engines shall be provided with an overspeed shutdown at 20% above rated engine speed with a manual reset.
(Only overspeed shutdown or a signal from the diesel controller will shut down an engine.)
Diesel Engine Observation