Thermal Power Plant Simulator, Cold, warm and Hot rolling of Steam TurbineManohar Tatwawadi
The presentation describes the cold rolling, warm rolling and hot rolling and synchronising of steam turbine. The Temperature Matching Chart for Turbine metal and Steam is also discussed in the presentation
The presentation details about the Boiler Operation specifically while lightup of boiler and loading of boiler. the course participants discuss in details about the operations carried in their respective power stations
The discussion on "Handling of Turbines During Emergencies" has been detailed in the ppt. Some case studies are also discussed in the session where the course participants express their difficulties while coming across the emergencies in handling the turbines at their locations.
Thermal Power Plant Simulator, Cold, warm and Hot rolling of Steam TurbineManohar Tatwawadi
The presentation describes the cold rolling, warm rolling and hot rolling and synchronising of steam turbine. The Temperature Matching Chart for Turbine metal and Steam is also discussed in the presentation
The presentation details about the Boiler Operation specifically while lightup of boiler and loading of boiler. the course participants discuss in details about the operations carried in their respective power stations
The discussion on "Handling of Turbines During Emergencies" has been detailed in the ppt. Some case studies are also discussed in the session where the course participants express their difficulties while coming across the emergencies in handling the turbines at their locations.
Turbine Stress Control Logic, Calculation & WorkingTahoor Alam Khan
Turbine Stress Control is one of the complex logics of BHEL turbine. This presentation clearly explains the Logic, working, calculations and influence of the same on operation of steam turbine. For further details and understanding, I can be reached on tahoorkhn03@gmail.com.
Boiler purge is the basic process of resetting boiler before lightup. This presentation explains the logic, schematics & working of purge procedure. For enhanced knowledge of this topic, I can be reached at tahoorkhn03@gmail.com.
This PPT explains the logic and requirement behind Boiler Loss of Flame Protection under MFT. To know more about Boiler Loss of Flame please connect to tahoorkhn03@gmail.com
The operations carried out to Light up the Boiler, from Air Cycle Establishment, Oil Handling Plant, Scanner air fans and Igniter Air Fans, Boiler Purging.
Turbine Stress Control Logic, Calculation & WorkingTahoor Alam Khan
Turbine Stress Control is one of the complex logics of BHEL turbine. This presentation clearly explains the Logic, working, calculations and influence of the same on operation of steam turbine. For further details and understanding, I can be reached on tahoorkhn03@gmail.com.
Boiler purge is the basic process of resetting boiler before lightup. This presentation explains the logic, schematics & working of purge procedure. For enhanced knowledge of this topic, I can be reached at tahoorkhn03@gmail.com.
This PPT explains the logic and requirement behind Boiler Loss of Flame Protection under MFT. To know more about Boiler Loss of Flame please connect to tahoorkhn03@gmail.com
The operations carried out to Light up the Boiler, from Air Cycle Establishment, Oil Handling Plant, Scanner air fans and Igniter Air Fans, Boiler Purging.
MS Lines, Turbine Casings and rotors and other steam lines including Steam Stop Valves, MSV, CV, ESV heating, Turbine Rolling, Flange and Stud heating, Turbovisory and speeding the turbine to 3000 RPM.
The presentation discuss about the operations, causes and remedies for the facing emergencies of steam Turbines. Specially for the 210MW LMW units. The emergencies can be created on simulator and studied on the simulator ACCORDINGLY.
Power Plant Simulator, Unloading and shutting the TurbogeneratorManohar Tatwawadi
The Presentation describes the steps for gradual unloading of the machine/turbogenerator for a planned shutdown. The steps are described in the presentation.
The presentation is based on the discussions of starting operations of a coal based thermal power plant. This presentation is based on the in-house training to the operation engineers of the thermal power plant. It describes the activity chart for the starting of boiler, Turbine and synchronising of Generator, picking up the load etc.
This is a presentation series part 3 on Frequently Asked Questions on Steam Turbines in large steam power plants. All questions are answered properly and any doubt may be mailed to the writer.
Green building concepts and good building practicesManohar Tatwawadi
The power sector must adopt the green building concepts and go for good building practices. In fact all industries need to go for the same. The same practices can also be adopted in all commercial as well as residential buildings.
Auxiliary Consumption and Saving due to Increase in Boiler EfficiencyManohar Tatwawadi
Discussions on Auxiliary consumption in a 4 X 210 MW TPS, the common systems and individual unitwise Auxiliary consumption has been briefed in the presentation. Also savings in various aspects due to increase in Boiler Efficiency are also discussed in the presentation.
COMPRESSED AIR SYSTEM . ENERGY CONSERVATION OPPORTUNITIESManohar Tatwawadi
The presentation gives an idea as to how the compressed air system is designed and the performance of the compressed air system. The losses, conservation of energy, the cost of leakages etc are discussed in the presentation
Questions and answers on turbines used in Power Plants. The discussion is definitely going to reduce your doubts and give you all answers on your questions. This is part 1 and the series will be continued till your doubts are cleared. you can mail me the questions and i will try to give you all answers as early as possible.
The presentation gives a basic idea of cooling towers in big industries including the Power Plants. The performance of cooling towers and the commonenly used terms with reference to the cooling towers are also discussed at length. Care to be taken while in freezing temperatures in the European countries is also discussed.
The presentation is based on the discussions about the safety in Power Plants and substations. The presentation is a part of the seminar on Electrical safety and reliability. The reporting of accidents was also discussed at length in the seminar
Cost accounting, cost control and cost reduction in TPSManohar Tatwawadi
The subject matter discuss in details about the cost accounting being practiced in a thermal power station for calculating the actual cost of generation of electricity. The cost centres and the cost affecting factors alongwith steps to reduce the cost of generation are described in the presentation. The PPMS system adopted can be further be well designed by any power plant engineer.
Environmental and pollution control in Thermal Power StationsManohar Tatwawadi
The presentation gives the basic idea as to the environment, pollutions and laws, the governing bodies and the limits of the emmissions. Also specifically about the solid waste, liquid waste and the gas emmissions from the Thermal Power Plants.
Energy Audit & Energy Conservation Opportunities in Electrical Equipments ...Manohar Tatwawadi
The discussion is for the Energy Conservation drive in the thermal power plants in the Auxilliary Consumption of the Electrical Auxilliaries in the Plant and thereby identify the steps to be taken for the reduction in Auxilliary Consumption
The presentation details the process of combustion in a 500 MW Coal based Thermal Power Plant where the main fuel is Pulverised coal. It details about the combustion of coal partical in the furnace and also the combustion equations related to the process, the excess air that is supplied.
The presentation gives an idea about the primary requirements for the establishment of a coal based THERMAL POWER STATION. The estimates are quite fair.
Effect of Coal Quality and Performance of Coal pulverisers / MillsManohar Tatwawadi
The presentation discusses about the change in performance parameters of a pulveriser due to change in coal quality and the measurement of performance and troubleshooting of coal firing system as a whole.
The Presentation describes the basics about the Efficiency and performance of a steam based power plant. It also describes how the heat rate of the power plant is important from the point of view of fuel savings.
THE PRESENTATION SPEAKS ABOUT THE BASIC IDEAS ABOUT EFFICIENCIES OF BOILER AND TURBINE IN A COAL BASED THERMAL POWER PLANT WITH THE DESIGN EFFICIENCIES AND HEAT RATE. IT ALSO THROWS LIGHT ON THE VARIOUS IMPROVEMENTS IN HEAT RATE AND EFFICIENCIES.THAT CAN BE ACHIEVED.
The presentation discusses about the strengths and weaknesses of a company The swot analysis, the capabilities, strategic planning and about the resource gap analysis.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
Cosmetic shop management system project report.pdfKamal Acharya
Buying new cosmetic products is difficult. It can even be scary for those who have sensitive skin and are prone to skin trouble. The information needed to alleviate this problem is on the back of each product, but it's thought to interpret those ingredient lists unless you have a background in chemistry.
Instead of buying and hoping for the best, we can use data science to help us predict which products may be good fits for us. It includes various function programs to do the above mentioned tasks.
Data file handling has been effectively used in the program.
The automated cosmetic shop management system should deal with the automation of general workflow and administration process of the shop. The main processes of the system focus on customer's request where the system is able to search the most appropriate products and deliver it to the customers. It should help the employees to quickly identify the list of cosmetic product that have reached the minimum quantity and also keep a track of expired date for each cosmetic product. It should help the employees to find the rack number in which the product is placed.It is also Faster and more efficient way.
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
Forklift Classes Overview by Intella PartsIntella Parts
Discover the different forklift classes and their specific applications. Learn how to choose the right forklift for your needs to ensure safety, efficiency, and compliance in your operations.
For more technical information, visit our website https://intellaparts.com
Automobile Management System Project Report.pdfKamal Acharya
The proposed project is developed to manage the automobile in the automobile dealer company. The main module in this project is login, automobile management, customer management, sales, complaints and reports. The first module is the login. The automobile showroom owner should login to the project for usage. The username and password are verified and if it is correct, next form opens. If the username and password are not correct, it shows the error message.
When a customer search for a automobile, if the automobile is available, they will be taken to a page that shows the details of the automobile including automobile name, automobile ID, quantity, price etc. “Automobile Management System” is useful for maintaining automobiles, customers effectively and hence helps for establishing good relation between customer and automobile organization. It contains various customized modules for effectively maintaining automobiles and stock information accurately and safely.
When the automobile is sold to the customer, stock will be reduced automatically. When a new purchase is made, stock will be increased automatically. While selecting automobiles for sale, the proposed software will automatically check for total number of available stock of that particular item, if the total stock of that particular item is less than 5, software will notify the user to purchase the particular item.
Also when the user tries to sale items which are not in stock, the system will prompt the user that the stock is not enough. Customers of this system can search for a automobile; can purchase a automobile easily by selecting fast. On the other hand the stock of automobiles can be maintained perfectly by the automobile shop manager overcoming the drawbacks of existing system.
Democratizing Fuzzing at Scale by Abhishek Aryaabh.arya
Presented at NUS: Fuzzing and Software Security Summer School 2024
This keynote talks about the democratization of fuzzing at scale, highlighting the collaboration between open source communities, academia, and industry to advance the field of fuzzing. It delves into the history of fuzzing, the development of scalable fuzzing platforms, and the empowerment of community-driven research. The talk will further discuss recent advancements leveraging AI/ML and offer insights into the future evolution of the fuzzing landscape.
About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
2. Flue gas Path
• Dampers Needed to be Opened before AH is
started
Dampers Open
AH Air
Motors
AH AC
Motors
3. Starting of Rotary APH
• The lub. Oil pumps of support and guide bearings can be started
from control room but preferably from Local for the first time .
• Start any one of the pump locally and see that there is no oil
leakage.
• Check the lub oil pressure .
• Stop the pump and start the other pump and see that the flow and
pressure is normal, and that there is no oil leakage.
Note: All the 8 Nos. pumps shall be started locally and checked before
giving clearance for remote operation. The stop push buttons shall be
kept in released condition.
• Now open the air valve for starting the air motor of APH A or B as
the case may be. As the main drives are not in service, the solenoid
will supply air to air motor.
• Check the operation of APH for any abnormal sound or abnormal
seal rubbing.
• If the performance is normal, the main drive can be started locally
or from remote.
4. Starting of Rotary APH
• Check the performance of APH on main drive-the load current and
abnormal sound and vibrations are to be watched.
• On starting the main drive, the Air motor shall stop. This can be
verified in control room by the indication given from the service air
pressure switch, provided in the line.
• Now stop the main drive from Control room and check that the Air
motor comes on Auto.
• The air preheater soot blowers are to operated at regular intervals,
after lighting up of the boiler.
• The DP across Air preheaters has to be watched closely to see that
the APHs are free from choking.
• The oxygen and carbon dioxide levels in flue gas, before and after
APH have to be measured once in a shift to see the performance of
the boiler as well as APH. Abnormal drop in carbon dioxide level
after APH shall indicate poor performance of the APH seals. Normal
Drop: 2%.
5. Rotary Air Heater Interlocks
Rotary AHs are the first auxiliary to start Boiler.
CONDITIONS BEFORE START UP OF AHS:
• Both AHS are off (both AC motors and Air motors are off)
• The inlet dampers and the outlet dampers in the gas path,
secondary air path, primary air path are in full open condition.
STARTING AH ‘A’ (AH ‘B’ IS OFF) OR AH ‘B’ (AH ‘A’ is OFF
• AH ‘A’/’B’ AC motor is started. If the temperature of the
bearings is less than 70 Deg.C
• Whenever AH AC motor trips impulse shall be given for
starting Air motor provided the temperature of support/guide
bearing of AH ‘A’ is less than 70 Deg. C.
• Impulse shall be given for closing of the inlet and outlet
dampers of AH which is off.
6. Tripping of Air heaters
TRIPPING OF AH ‘A’ (AH ‘B’ IS OFF)/TRIPPING OF AH ‘B’ (AH
‘A’ IS OFF)
• AH AC motor/Air motor shall trip manually when the
temperature of support/guide bearing of AH is very
high (i.e. greater than 70 Deg. C). Under this
condition AH Air motor shall be prohibited from
starting.
• Air motor shall trip automatically when AH AC motor
starts.
NOTE: Trip signal of AH is to be taken from both AC &
Air motors trip
7. Tripping Sequence Of Air Heaters
Condition A:- BOTH AHS ARE WORKING WHEN ONE TRIPS
AND OTHER AH CONTINUES TO RUN:
• The gas inlet damper the secondary air inlet
damper and primary air inlet damper of the
tripped AH shall automatically closed. The gas
outlet damper, the secondary air outlet damper
and PA outlet damper of the tripped AH need not
be closed.
• However, if the operator wants to manually close
these outlet dampers they can be closed
8. TRIPPING OF AIR HEATERS
Condition B:- ONE AH IS WORKING AND THE OTHER AH IS
OFF:
• If the working Airheater trips, the operator shall
try for restarting the AH.
• If the restarting is not within 5 minutes, the boiler
shall be tripped.
Condition C:- BOTH AHS ARE WORKING AND TRIPPED.
• If both AHS ‘A’ and ‘B’ trip the operator may try
for restarting the AHs. If any one of the AH is not
started within 5 minutes the operator shall
manually trip the boiler within 5 minutes.
9. INTERLOCKS FOR LUBE OIL PUMPS OF
SUPPORT & GUIDE BEARINGS OF AH A & B
2x100% lube oil pump have been provided for the
support bearing. Any of the two lubricating oil pumps can
be preselected as main pump and the other as standby.
Following interlocks shall be provided for lub oil pumps.
• Whenever the temperature of support bearing of air
heater A is high (350C), impulse shall be given to start
the main oil pump.
• The standby oil pump shall start when the main oil
pump fails to start or trips.
• The main oil pump / stand by oil pump shall trip when
the temperature of the support bearing falls below a
present value (300C)
10. Flue Gas Cycle.. Starting of ID Fans
Dampers Open
Dampers Closed
11. ID Fan Pre-checks
• Ensure the manholes are closed.
• Check the availability of instruments to measure flow, pressure,
temperature etc. of the ID fan and drive motor.
• Check the closing and the opening of the suction and discharge gates.
Keep them closed before starting the ID fan.
• Check healthiness of all the protections and interlocks for their
functioning.
• Ensure the local push button is in the released position.
• Check that the discharge dampers of blower motors are open and the
modules are kept ON for supply.
• Check that the flue gas path is made through
– APH inlet flue gas dampers are open .
– ESP inlet gates are open .
– ESP outlet gates are open .
• Check that the seal trough is filled with water and overflow is maintained.
• Start the ID fan after ensuring the healthiness of protections whenever the
fan is to be started after long shutdown.
12. Starting Permissive for ID Fan
Check that the final start permissive is available. The final start
permissive will get available if the following conditions are
satisfied,
• ID fan stopped.
• Cooling water to the coolers adequate.
• Suction gate closed.
• Discharge gate closed.
• Ensure VFD for minimum speed.
• ID fan tripped indication should not exist.
• Ensure 220 V DC control supply for the breaker of other ID
fans is available.
• Now the first ID fan can be started
13. Post Start Checks of ID Fans
• Check the opening of gates on interlock, after 10
secs.
• Check the performance of the motor.
• Check adequate lub. oil pressure.
• Check the starting of both the discharge gate
blower motors on interlock. If not , start
manually.
• Maintain the furnace vacuum at -12 mmWC by
suitable loading of the fan.
14. I.D. FAN INTERLOCKS
Conditions existing when the unit is shut
down and prior to starting of ID fans.
• Either or both AHs are running.
• I.D. Fan ‘A’ and ID Fan ‘B’ off.
• Regulating dampers of fans A&B open.
• Inlet gates of Fans A & B open.
• Outlet gates of fans A & B open.
• The regulating dampers will be on manual control
during shut down and impulse from furnace draft
control to regulating dampers of ID fans disconnected.
15. Starting ID Fan ‘A’ (ID Fan ‘B’ Off)
Interlocks
ID Fan ‘A’ shall be prohibited from starting till the
following conditions are satisfied.
1. Regulating damper of Fan-A in minimum
position.
2. Outlet gate of Fan-A closed.
3. Inlet gate of Fan-A closed.
4. Fan/fan motor bearing temperature not very
high.
5. One of the air preheaters running.
For starting ID Fan B ( ID Fan A is off)
Interlocks similar to those as above shall hold good of this conditions.
16. Starting ID Fan ‘A’
When ID fan ‘A’ is started (ID Fan B is off), impulses
shall be give for.
1. Opening the inlet gate and outlet gate of Fan A
after the motor reaches the rated speed.
2. Connecting the regulating damper of Fan A to
the auto control.
3. Closing the inlet gate and the outlet gate of ID
Fan B and bringin the regulating damper to
minimum position.
4. Permission to start either FD Fan A or FD Fan B.
17. Tripping of ID Fan A (ID fan B is off)
ID Fan ‘A’ shall trip automatically under following
conditions.
1. ID Fan A bearing temperature too high (prior to
this, ID Fan A bearing temperature high shall be
annunciated in UCB).
2. ID Fan A motor bearing temperature too high
(prior to this, ID Fan a motor bearing
temperature high shall be annunciated in UCB).
3. Post purge fan trip (contact from FSSS)
4. Vibration level of FAN/MOTOR very high.
Tripping of ID Fan B (ID Fan A is off):
Interlocks similar to those above shall hold good for this condition.
18. Tripping of ID Fan
When ID Fan A trips (ID Fan B is off) impulses shall be given for:
1. Opening the outlet gate of ID Fan B.
2. Opening the inlet gate of ID Fan B.
3. Opening the regulating damper of ID Fan B to wide open
position.
4. Disconnecting the regulators impulse from acting on
regulating damper of ID Fan A.
5. Opening the regulating damper of ID Fan A to wide open
position.
6. Tripping the working FD Fans.
7. Boiler tripping.
8. To keep the inlet gate and outlet gate of ID Fan A open.
19. Starting of ID Fan B (ID Fan A is on)
ID Fan B shall be prohibited from starting unless
the following conditions are satisfied.
1. Outlet gate of Fan B is closed.
2. Inlet gate of Fan B is closed.
3. Regulating damper of Fan Bareing minimum
position.
4. Fan/fan motor bearing temperature not very
high.
Starting of ID Fan A (ID fan B is on)
Interlocks similar to above shall hold good for this condition.
20. Both ID Fans Started
• When ID Fan B is started, impulses shall be
given for.
• Opening the inlet gate and outlet gate of Fan B
after the motor reaches rated speed.
• Connecting the regulating damper of Fan B to
auto control.
• Permission to start other FD Fan.
21. Tripping of ID Fan B (ID Fan A is on)
ID Fan B shall trip automatically under the
following conditions.
• Fan bearing temperature too high (prior to
this fan bearing temperature high shall be
annunciated in UCB)
• Fan motor bearing temperature too high
(Prior to this fan motor bearing temperature
high shall be annunciated in UCB)
• Vibration level of Fan/motor very high.
Tripping ID Fan A (ID fan B is on)
Interlocks similar to above shall hold good for this condition.
22. Post Purge Fan Trippings
When ID Fan B trips (ID Fan A is on) impulses shall
be given for:
1. Disconnecting the regulator from acting on the
regulating damper of Fan B.
2. Bringing the regulating damper of Fan B to the
minimum position.
3. Closing the inlet gate of Fan B.
4. Closing the outlet gate of Fan B.
5. Tripping the FD Fan B, provided FD Fan A is on.
6. Energisation of partial load relay.
24. FD Fans Starting…. Prechecks
• Ensure No Permit is pending.
• Ensure the electric supply to the drives and equipment are available.
• Ensure the Air Heater flue gas inlet dampers the gas gates before and after
ESP are kept open.
• Ensure the secondary air dampers of Air Heaters A & B are kept open.
At least one pair should be kept open for starting the first FD fan.
• Ensure the Secondary air dampers in wind boxes are in open position as
per FSSS logic.
• Check healthiness of all the protections and interlocks for their
functioning.
• The suction and discharge dampers of the FD fan should be checked for its
operation and kept closed before starting the fan.
• Ensure at least one ID fan is in service to start the first FD fan. Both ID fan
should be in service to start second FD fan.
• Ensure bottom ash hopper seal water trough is filled with water and
maintain overflow.
25. FD Fan Start Permissive
• Blade pitch control servomotor is in minimum
position.
• FD fans discharge dampers are in closed
position.
• ID Fan is running.
• Bearing temperature of motor are within
permissible limit.
26. FD Fan Start Sequence
START SEQUENCE OF THE FAN:
a) Tank oil level > 50%
b) Tank oil temp > 25 deg C
c) Control oil pressure > 20 bar
d) Lub oil pressure > 4 bar
e) Bearing temp < 95 deg C
f) Control blade adjustment : Manual
g) Impeller blades position : Close
h) Discharge damper/gate : Close
i) Fan Motor : ON
27. After Starting FD Fan
When any FD fan is started impulses shall be given
for:
• Opening the outlet damper of the corresponding
FD fan after the motor reaches its rated speed.
(After 10 secs.)
• Connecting the blade pitch control drive of the
fan to auto control, if Auto/Manual station is
selected on Auto.
• Closing the atmospheric suction damper of
scanner fan if they are running with suction from
the atmosphere
28. FD FAN INTERLOCKS
CONDITIONS PRIOR TO STARTING FD FANS.
1. FD Fan A and FD Fan B off.
2. Fan impellers tilted to maximum opening.
3. Outlet dampers are fully open.
4. Fan impeller regulator disconnected.
5. Lube oil pumps of FD Fans off.
29. STARTING FD FAN A (FD FAN B IS OFF)
FD Fan A shall be prohibited from starting untill the
following conditions are satisfied.
1. ID Fan A or ID Fan B is on.
2. Control oil pressure adequate (8 kg/cm2)
(Control oil pressure adequate lamp indication
shall be provided on the control desk.)
3. Fan A impeller in the minimum position.
4. Outlet damper of Fan A is closed position.
5. Fan/Motor bearing temperature not “very high”.
STARTING FD FAN B (FD FAN A IS OFF)
Interlocks similar to above shall hold good for this condition.
30. FD Fan Starting Sequence
When FD Fan A is started (FD Fan B off) impulse
shall be given for:
• Outlet damper of Fan A to open after the
motor reaches the rated speed.
• The outlet damper of FD Fan B to close &
impeller blades of Fan B to be driven to
minimum position.
• Connecting the impeller of Fan A control drive
to auto control.
31. TRIPPING OF FD FAN A (FD FAN B IS OFF)
FD Fan A shall trip under the following conditions:
1. FD Fan a bearing temperature too high (Prior to this,
FD Fan A bearing temperature high will be annuciated
in UCB)
• NOTE: Oil pressure low shall be annunciated in UCB
1. FD Fan A motor bearing temperature too high (prior
to this, FD Fan A motor bearing temperature high will
be annunciated in UCB)
2. Both ID Fans trip.
3. Post purge fan trip (Contact from FSSS)
TRIPPING FD FAN B (FD FAN A IS OFF)
Interlocks similar to above shall hold good for this condition
32. FD Fan Tripping Sequence
1. When FD Fan A trip (FD Fan B is off) impulses shall be
given for:
2. Disconnecting the impeller control drive from the
regulator of Fan A.
3. Bringing the impeller of Fan A to the maximum position.
4. Bringing the impeller of FD Fan B to the maximum
position.
5. Opening the outlet damper of FD Fan B.
6. To open the emergency scanner air damper.
7. Boiler tripping.
8. The outlet damper of FD fan A shall remain open.
33. STARTING FD FAN B (FD FAN A IS ON)
FD Fan B (FD Fan A is on) shall be prohibited from
starting until the following conditions are satisfied.
1. Both ID Fans are on.
2. Control oil pressure adequate (8 kg/cm2)
(control oil pressure adequate lamp indication
shall be provided on the control desk).
3. Impeller of Fan B in the minimum position.
4. Outlet damper of Fan B in the closed position.
5. Fan/Fan motor bearing temperature not very
high
STARTING FD FAN A (FD FAN B IS ON)
Interlocks similar to those at 2.6 shall hold good for this condition.
34. Starting Sequence of FD Fan B
1. When FD Fan B is started (FD Fan A is on),
impulses shall be given for:
2. Opening the outlet damper of Fan B after the
fan reaches the rated speed.
3. Connecting the impeller control drive of Fan
B to auto control.
35. TRIPPING OF FD FAN B (FD FAN A IS ON)
FD Fan B shall trip when FD Fan A is on under the
following conditions.
1. ID Fan B trips.
2. FD Fan B motor bearing temperature too high (prior
to this, FD fan B motor bearing temperature high shall
be annunciated in UCB.
3. FD Fan B motor bearing temperature too high (Prior
to this, FD Fan B bearing temperature high shall be
annunciated in UCB).
4. Vibration level of Fan/Motor very high.
NOTE: Oil pressure low shall be annunciated at UCB.
TRIPPING OF FD FAN A (FD FAN B IS ON)
Interlocks similar to as above shall hold good for this condition
36. Tripping Sequence of FD Fan B
When FD Fan B trips (FD Fan A is on), impulses shall
be given for:
1. Disconnecting regulator impulse from acting on
impeller control drive of Fan B.
2. Bringing impeller of Fan B to the minimum
position.
3. Closing the outlet damper of Fan B.
4. Energisation of partial load relay.
5. Tripping mills working more than three through
FSSS.
37. ALARM & TRIP VALUES FD Fan
DESCRIPTION ALARM TRIP
Fan Bearing Temperature >= 95 deg C >= 105 deg C
Fan Bearing Vibration (Vel -rms) For
Fans erected on Solid Concrete
foundation.
>= 4.5 mm/s >= 9.0 mm/s
Fan Bearing Vibration (Vel - rms)
For Fans erected on Spring Isolator
>= 7.0 mm/S >= 14 mm/s
Differential Pressure across oil filter >= 5 bar ****
Lub Oil Pressure low <= 4 bar ****
Control Oil Pressure low <=14 bar ****
Oil Level In The Tank low < 50 % ****
39. P.A. FANS INTERLOCKS
CONDITIONS PRIOR TO START:
1. PA Fan A and PA Fan B off.
2. Outlet dampers of Fan A and Fan B close.
3. Regulating damper of Fan A and Fan B is
closed position.
4. Regulating damper regulator disconnected.
40. STARTING PA FAN A (PA FAN B OFF)
PA Fan A shall be prohibited from starting until the
following conditions are satisfied.
1. Regulating damper of Fan A in the minimum position.
2. Outlet damper of Fan A in closed position.
3. Any one FD Fan is on.
4. Purge complete. (From FSSS)
5. PA Fan/fan motor bearing temperature not very high.
6. PA Fan lubricating oil pressure adequate.
NOTE: Signal from PA Fan A start PB shall simultaneously
go to start PA Fan A and seal air fan.
STARTING PA FAN B (PA FAN A IS OFF)
Interlocks similar to as above shall hold good for this condition
41. Starting Sequence of PA Fan A
When PA Fan A is started (PA Fan B is off), impulses
shall be given for:
1. Opening the outlet damper of Fan A after the
motor vehicles the rated speed.
2. Connecting the regulating damper of PA Fan B to
the minimum position.
3. Bringing the regulating damper of PA Fan B to
the minimum position.
4. Closing the outlet damper of PA Fan B.
5. Permission to start any three mills through FSSS
42. TRIPPING OF PA FAN A (PA FAN B IS OFF)
PA Fan A shall trip (PA Fan B is off) under the
following condition:
1. PA Fan A bearing temperature too high (prior to
this bearing temperature high shall be
annunciated in UCB)
2. PA Fan A motor bearing temperature too high.
(Prior to this motor bearing temperature high
shall be annunciated in UCB)
3. Boiler trips.
4. Vibrator level of Fan/Motor very high.
TRIPPING OF PA FAN B (PA FAN A IS OFF):
Interlocks similar to those as above shall hold good for this condition
43. Tripping Sequence of PA Fan A (Fan B Off)
When PA Fan A trips (PA Fan B is off), impulses shall be
given for:
1. Disconnecting the regulating damper of Fan A from
the auto control.
2. Bringing the regulating damper of Fan A to minimum
position.
3. Closing the outlet damper of PA Fan A.
4. Bringing the regulating damper PA Fan B to minimum
position.
5. Closing the outlet damper of PA Fan B.
6. Tripping all the operating mills (done through FSSS)
44. STARTING PA FAN B (PA FAN A IS ON)
PA Fan B shall be prohibited from starting unless
the following conditions are satisfied.
1. Any one FD Fan is ON.
2. Regulating damper of Fan B in the minimum
position.
3. Outlet damper of Fan B in closed position.
4. PA Fan B /Fan motor bearing temperature
not very high
STARTING OF PA FAN A (PA FAN B IS ON)
Interlocks similar to those as above shall hold good for this condition
45. Starting Sequence of PA Fan
When PA Fan B is started (PA Fan A is ON)
impulses shall be given for:
1. Opening the outlet damper of PA Fan B after
the motor reaches the rated speed.
2. Connecting the regulating damper of Fan B to
the auto controls.
3. Permission to start three more mills through
FSSS.
46. Tripping Of PA Fans
P.A. Fan B shall trip (PA Fan A is on) under the
following conditions
1. PA Fan B bearing temperature too high (prior to
this, fan bearing temperature high shall be
annunciated in UCB)
2. PA Fan B motor bearing temperature too high
(Prior to this, fan motor bearing temperature
high shall be annunciated in UCB)
3. Boiler trip.
4. Vibration level of Fan/Motor very high
• TRIPPING OF PA FAN A (PA FAN B IS ON)
Interlocks similar to those above shall hold good for this condition
• Both the PA Fans shall trip simultaneously when any boiler trip condition
is present (impulse from FSSS)
47. Tripping Sequence of PA Fan
• When PA Fan B trips (PA Fan A is ON) impulse
shall be given for:
• Disconnecting the regulating damper of Fan B
from the auto control.
• Bringing the regulation damper of Fan B to the
minimum position.
• Closing the outlet damper of fan B.
• Energisation of partial load relay.
• Bringing the regulating damper of PA Fan A to
max. safe position
49. BLOW DOWN VALVES BD8 & BD9
• When drum water level rises to 120 mm above
normal water level, an annunciation, Drum Level
High shall be given in UCB.
• When drum level rises to 25 mm above normal
water level, blow down valves B56 and B57 shall
open and this condition shall be annunciated.
• Blow down valves shall close automatically when
the water level falls down to NWL. One de-
interlock switch, shall be provided for both the
valves for manual operation.