Thermal Power Plant

Thermal Power Plant
Boiler Turbine EP,ABT

Saturday, September 9, 2017

Are The Initial Wind Turbine Costs Outweighed In The Future?

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A wind turbine is a device that uses kinetic energy to be converted into mechanical energy, using turbines and the wind. The use of small wind powered systems is intended for alternative power, charging of batteries and sail boats to name a few. On the other hand, large turbines are mainly used for generating electricity commercially for a specific area and now with soaring power expenses, home models are popping up more frequently across the country.
When you want to invest in these turbines, the total wind turbine costs for implementing a commercially used wind powered system will differ exponentially depending on the finance. The contractors and the buyer will agree upon the location, the materials, the contracts of the workers, the type of turbine and many other factors that can determine the success of the project. There are other factors to consider when you want to estimate the wind turbine costs like the overall tax fee. The tax will depend on the area you intend to install the turbine in. Places have different tax prices and building permits. There should also be a study performed to determine the implementation and usage of the system.
Commercial scaled turbines that are installed today have 2 MW in size and can cost ranging 3-5 Million Dollars. These turbines are installed in areas that have no relative energy source. For example, a farm, far away from the city that only relies on the heat and the light of sun will use these turbines greatly. The money that is used for the installment of a turbine is a good investment because it can be returned, of course, with some time. Home models, on the other hand, start around $8,000 and proceed upwards and of course installation is extra.
For some consumers, the outlay is just too costly to begin. Now there is an option of building your own power system for your home for a fraction of the expense. With the right blueprints and guidance, this can be implemented without a lot of technical experience. Take your time finding the right design for your geographical area. If wind power doesn't work, there is always solar energy to fall back on.
The economic and environmental implications of turbine are the following:
1. Gives a community that produces great products but has limited resources the power to continue its production.
2. Gives a community that values its cleanliness and great avoidance to pollution the power that is needed without the harmful chemicals and waste.
3. The use of the wind as a power source can help a community be as clean as they want it to be. Though the cost of the equipment is expensive in the initial outlay, the very nature of its use will be a great help for an area that needs power.
As the economic blunders and trepidations have reached its inevitable crux, these wind turbines costs can be valued more than cheap electrical sources because it can lessen pollution and with the vast production of equipment, also comes the much needed jobs.
The wind turbines costs [http://windturbinescosts.com] can be expensive,depending on which type of system used. The wind turbines costs [http://windturbinescosts.com/articles/are-the-initial-wind-turbine-costs-outweighed-in-the-future/] will also depend on how big of system needed to provide your home or business with power.


Pelton Turbines Generate Free Energy

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Pelton Turbines
Pelton turbines work best with heads of 50 feet or more. The high speed jet of water that results from such heads twists the bladed runner up to initiator speed without the need of added hardware. Pelton Runners can be any size from 12 foot width for megawatt installation down to 4 to 18 inch thickness for home installations. Very small surge is mandatory to run a small Pelton turbine, in some cases no more than the water issuing from a reserved spring. The need for a high head, however, confines installations to mountainous places. Also, springs tend to parch up throughout some parts of the year and ice over other parts, so care must be in use to choose a water supply that will provide year-round power.   A new improvement in impulse turbines is to orient the jet at an angle to the blades, as in Turgo turbines. These units are smaller and faster than Peltons.
Cross-Flow Turbines
Cross-Flow turbines work well when the head is greater than 3 feet. Water from a rectangular chops passes through a barrel-shaped runner in such a way that the water strikes the ring of blades on the runner tow times. This turbine is a comparative new comer; it has not yet been built in megawatt sizes but displays a great deal of security for use in undersized installations. In addition, it's simple enough for someone with a home machine shop to make; yet it can match the performance of the other turbines whose fabrication requires a high level of technology. It works well over a wide range of water flow, is relatively free from problems caused by silt and trash, and is not affected by cavitation. To improve competence the rectangular orifice can be partitioned and parts of it blocked off during periods of low flow. Some step-up gearing may be needed for optimum generator speed.
Propeller Turbines
Propeller turbines are most efficient at relatively low heads of from 3 to 30 feet. The propeller is fully submerged and is driven more by the dull weight of the water than by the water's quickness. In high-head installations, propeller turbines undergo wear from cavitation. In addition they work well only over a slim range of tempo, so care is required to equal the size of the turbine to the existing steam flow. For example, when flow drops to 50% of propeller turbines most advantageous, the power production will drop by about 75% and when the flow drops to 30% the output becomes zero. To rise above this constraint some large hydroelectric installations use several turbines in tandem, shutting down on or more whenever the flow lessens. Others employ Kaplan turbines, which have automatically adjustable blades that balance for flow changes.
Francis Turbines
Francis turbines can be used over a broad collection of heads 4 feet and more. As with a propeller turbine, the runner is wrapped up in the head water, which is guided onto the blades of the runner by a ring of adjustable vanes. The Francis turbine is highly efficient at its optimum flow but easily damaged by grit and cavitation. It is regularly used in large hydroelectric stations and is relatively expensive. As with propeller turbines and other interior swamped turbines, a draft tube beneath the unit with its bottom rim immersed at all times in tail water is a valuable adjunct: as water drops from the turbine runner down the draft tube, it sucks more water down with it, adding to the effective head of the system. This added head can be of considerable importance whenever the overall head of the remainder of installation is small.
More outstanding energy saving tips on [http://www.keep-green.com]
To make your own renewable energy you can find out more on [http://www.make-solar-panels.com]


Conserve Energy and Build a Wind Turbine

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With electricity costs rising and the planet suffering from the waste produced by power plants, many people are taking actions to reduce the cost and usage of power plant electricity. Millions of homeowners are looking for a way to cut their utility costs. Using energy-efficient appliances and lighting is one step in the right direction, but it's hardly enough. You could build a wind turbine and get clean, free and reliable electricity. The wind turbine doesn't send you a bill every month, and the environment will silently appreciate it.
Options to Build a Wind Turbine Are Based on Location
Areas surrounded by large buildings have irregular wind patterns, and the amount of electricity that your wind turbine can produce will be more limited but at least sufficient enough to drastically cut your electric bill. You can purchase micro wind turbine kits, which are inexpensive and pay for themselves in a short period of time. You do have to be cautious with the claims companies make about the wattage these turbines will produce, as they test them in wide-open environments with maximum wind speeds rather than in densely populated areas. Do your own research to choose the right kit for your location. On the other hand, if you live in a less populated area with open spaces, there will be more wind and you could build a wind turbine of any size. The height of the turbine determines the amount of wattage it will produce. At ground level, wind speeds are slower than they are at 100 feet.
How Does a Wind Turbine Work?
When you build your own turbine, it will have three large blades that are connected to a magnetic generator. This generator is what translates the wind into electricity and is variable depending on how fast the turbine blades turn. The higher the wind speed is, the higher the amount of electricity generated will be. In some locations, wind speed is very high at 60 to 100 feet above the ground, and this will generate so much electricity that you will need to have the turbine connected to a battery array that will store the extra power generated. This stored power can then be used when wind conditions are slower. You can actually do this with any turbine to ensure a steady supply of electricity.
Is It Easy to Build a Wind Turbine?
Micro and rooftop turbines are fairly easy to build and install from kits. The roof of the house is the best location if you don't have much land space to work with. Typically, this is a do-it-yourself project that you can handle on your own or get assistance from a couple of friends. To build a turbine that is 60 feet or higher requires the aid of professionals experienced with this.
Benefits of Using a Wind Turbine
Aside from reducing or eliminating your electric bill, a wind turbine that is connected to a battery array will collect more electricity than you can use. If you have this connected to the local power grid, you can sell the excess electricity to the power company and get a check every month rather than a bill.
Kate Trent is a writer and researcher on products for households such as a comprehensive guide on how to build a wind turbine [http://www.yourdiyenergyprojects.com/build-a-wind-turbine]. Save time and money by getting a FREE in-depth review of this product, including discounts and best prices, at this blog: www.yourdiyenergyprojects.com [http://www.yourdiyenergyprojects.com]


Constructing Wind Turbines at Home

By  

Everyone in the world loves to save more money on their electricity bill. When discussing alternative energy sources there are two that usually come to mind; solar energy and wind energy. To save more money on your electricity bill than you can think of, try using wind turbines at home. They can produce a very large portion of your home's power needs and their reserve supplies are huge. Most people think it's too expensive to own their own, but what they don't know is just how easy and practical it can be to construct your own right at home.
The turbines will yield a great harvest of energy depending on their specific placement on or around your home. Before installing anything at home you need to consider tower height, rotor blades sizes and choosing right location that will have the highest amount of wind flow. These turbines at home offer handsome quantity of power for your home needs. Smaller versions are available and are more economical; they still produce sufficient power for the average person. Both residentially and commercially, wind turbines are considered an extremely safe source of energy as well as reliable. You can choose different models depending on your needs, or if you're building your own, you can choose higher quality supplies and do things on a larger scale.
Choosing the most efficient model for your own needs is a very important step. Investing in wind turbine at home is an excellent idea as it offers more efficient power consumption, but you have to do the math and figure out exactly what you need. You don't want any more or any less than you need for costs to remain low. The high quality turbines offer sufficient power supply to your home without any trouble. Nowadays, we discover different types are manufactured by the reputable organizations all around the world. Different models are available all over the world. Professional suggestion certainly helps you to get a more efficient turbine for your home. You need to select the right one to avoid buyer's remorse. I personally recommend learning to build your own.
The agricultural farms and industrial areas can reduce their power consumption by utilizing these wind turbines. Using a wind turbine at home and office effectively reduces the power consumption and saves us all money in the long run. As long as proper consideration is given for location and weather, there's no going wrong. Excellent location is purely based on the air flow. The most efficient location for excellent power generation needs to have annual airflow. The location with the reasonably excellent air flow will result in an optimal power generation.
Different types of wind turbines of home are available based on the geographical location and wind speed. Before making an investment in wind turbines, you need to mainly concentrate on efficiency and durability of the turbines you're interested in. In order to get a clear idea about wind turbines at home you can opt for professional's advice about the specification particular turbine model. To get maximum power you need to install a wind turbine at except location featuring optimal wind flow. There are instructional videos online you can use to walk you through the entire process and get you going with wind turbines in no time at all! I highly recommend them.
Gary Taylors has been researching wind turbines and how to build them for YEARS - and you can see just what he's found out by checking out Find Green Energy [http://www.findgreenenergy.net/] today!

Wednesday, September 8, 2010

How to Run Thermal Power Plant?

Author- Engineer4u Writer4u

Introduction and Facts about Large Thermal Power Station

Boiler is used for steam generation.


Ball Mill or Bowl mills are used for pulverisation of coal in powder form for efficient firing in boiler.


Raw Coal Feeders are used to supply coal to ball mills in controlled quantity.


Primary Air Fan are used to transport and preheat pulverised coal to burners.


Induced Draught Fan are used to exhaust flue gases to Chimeny and create vaccum in Furnace.



Electrostatic Precipitators are used to separate ash particles from flue gases to control pollution. Here collecting electrode, emmiting electrode and rapping mechanism used to dislodge fly ash particle.


FD Fan used to provide air to boiler for help in firing which is called secondary air.


Steam produced in boiler is further superheated in Superheaters. There are lot superheaters such as platen, pendent, convection and final superheaters.


Boiler drum used for separation of staem from water and storage. Nowadays Drum less once through boiler also used which operates at super critical temerature and Pressure.


Boiler circulation pump used for forced circulation of water in water wall because at high pressure natural circulation is not possible.


Soot Blowers used to remove soot from water wall, Superheater, Reheaters and Air Heaters by injecting steam into heating surfaces.


Ash slurry pumps are used to flush ash with water.


Boiler Feed Pump used to provide water to boiler Drum.


Deaerator used to separate dissolved air from Feed water.


In Turbine heat energy of steam is converted into mechanical energy.


ESV which is called emergency stop valve used to stop supply of steam to turbine when unit trips.


Reheaters used to reheat steam exhausted from HP turbine.After reheating upto 535 degree centrigade same steam is utilised in Intermediate Pressure Turbine.


Barring gear or shaft turning gear is used to ratate turbinr rotor at 3.15 rpm when turbine is not running to check bending of rotor due to its own weight.


LP Heaters and HP Heaters are used to heat condensate and feed water supplied to boiler to increase efficiency by steam bled from turbine extraction.


Economiser are used to heat feed water by flue gages to increase efficiency. Heat of waste flue gas is utilised here.


Air Heaters uses heat of waste flue gases to preheat primary and secondary air.There are two types of air heaters tubular and rotary.


Condenser used to condence steam exhausted from turbine.


Condensate Pump are used to supply water to Deaerator from condenser Hot well.


CW Pump used to cool steam exhausted from turbine into condensers.


Raw Water is Circulated by cw pump into condenser tube hence leakage from condenser tubes must be checked to avoid mixing of raw water into Hot well.


Turbogenerator converts mechanical energy into electrical energy.


H2 Gas used in generators used for cooling of generators.


Seal Oil system used to seal hydrogen gas from escape from generator.


Stator Water Cooling system provides demineralised water into hollow stator conductor of generator for its cooling.


Generating Tansformer steps up volatage for transmission.


Water Treatment Plant is used to produce demineralised water for steam generation. Cation anion and degassifier tower used to separate mineral and gases from water.PAC or alum used to separate mud and silica from water.Here minerals removed from water and ph value is maintained near 7 and silica value must less tham 0.02 ppm


Coal Handling Plant supplies Coal to Boiler.Merry go round system or wagon trippler used to unload coal into hoppers. Coal is crused in crusher to crush it in 25mm size.Magnetic separators used to separate metalic particles from coal.


ABCB,SF6,OCB,MOCB and VCB are circuit breakers used to make or break electricity contact at load.


Isolators are used to make or break contact at no loads.

ABT

ABT is availability based tarrif and frequency based pricing system to maintain Grid discipline.


Purging is done to clean furnace from combustible gases by running ID Fan and FD Fan at atleast 30% load for 5 minutes to avoid furnace explosion.


Furnace explosion may be checked by timely purging and adjusting firing properly using right quantity of primary and secondary air and timely oil support and avoiding leakage of fuel oil in boiler. Furnace must be purged properly again if flame is not established during lightup of boiler.


Flame scanners used to sense flame in boiler to detect flame failure to avoid boiler furnace explosion.


FSSS is furnace safeguards supervisory system to safeguard boiler.

How To avoid Clinker Formation in Boiler?
Clinker Formation in Boiler of Thermal Power Station is due to high Ash Content which have low fusion temperature below 1470 degree centrigrade and Minerals present in it. Due to poor Quality of Coal ash got fused and mineral content stick into Water Wall which is very difficult to remove often requires removal by pneumatic machines. This Clinker deposition may be stopped to some extent if sufficient water is sprayed into hopper and regular poking and using good quality of coal. Ash fusion temperature must be above 1470 degree centrigrade and soot blowing regularly at load by enjecting steam by wall blowers. Overfiring is also responsible hence firing must be properly adjusted by proper balance of primary and secondary air in boiler.



Accumulation of clinker may be checked if poking of hoppers done regularly and any negligence may start process of clinker deposition. If clinker is not removed immediately then same may choke hopper and often workers got burnt due to sudden fall of hot water which accumulated in hopper.


Once clinker formed into hopper than outage of unit is evident otherwise clinker may deposit in huge quantity which will be very difficult to remove because minerals content present in coal fused with ash deposit into water wall. Such hard Lumps of Clinkers requires pneumatic hammering which takes very much time resulting in forced closure of unit for weeks.



Although cause of clinker formation is poor coal quality and high mineral content in coal but accumulation in Water Wall is result of negligence by Workers and Engineers who do not poke hopper regularly and spray insufficient amount of water into hopper which may not flush fused slag to channels. Outage of clinker grinder and soot blower is also matter of concern may be termed as negligence.



Hence it is advised never blame to low coal quality,low GCV,low ash fusion temperature and high mineral content in coal.Instead of blaming to above factors try regular poking and provide sufficient water in hopper.Clinker Grinders must be made operational. Soot blowing must be done regulaly by injecting steam. In India coal supplied to power plants is mostly of low quality which has high ash content so precaution is best solution here to avoid deposition and formation of clinkers in Boiler.


Precaution may stop clinker deposition and formation so remain vigilant.
Boiler Tube Leak Detection by Acoustic Monitoring Instruments

Acoustic Instruments may be used to detect early boiler tube leak to avoid secondary damage to pressure parts.Boiler acoustic tube leak detection system must be used as it prevent damage to costly boiler parts and it is very much cost effective.An increase in boiler availability of just one day will more than cover the cost of a leak detection system.




Traditional leak detection system such hearing hissing sound by ear or monitoring feed water flow or furnace vaccum is not much reliable because it can not detect small leak so damage to vital costly equipment of boiler may not be avoided.Writer noticed many instances where thermal power plants boiler allowed to run for long time due to confusion which caused permanent damage to many boiler tubes,refractory and boiler structures.Hence importance of acoustic monitoring leak detection systems sincerely felt .




Acoustic leak detection sensors detect high frequency emmissions from site of leak and Sensitive piezoelectric sensors mounted to the structure transform these acoustic waves to electronic voltage signals, which are amplified, filtered, and processed to determine energy content.




Early detection by acoustic monitoring instruments results in substantial reduction of repair times and costs with a consequent increase in plant availability and profits. The early detection of a bolier tube leak will give financial savings which will easily exceed the initial capital cost of the detection system even at the very first event.




http://www.acousticmonitoring.com/


Acousti monitoring international


p(330)305-1422f(330)494-9822-16707 harbour drive n.w cantou ohio 447


http://www.proconeng.com/mainfiles/boilerleak.html



procon engineering


http://www.triple5industries.com/


http://www.steamleak.com/






How To Run Thermal Power Plant Units Efficiently?
How to run units efficiently and saftly is big question today? Thermal Power Plant Units require great care during operation. Only highly trained Employees and Engineers may handle effectively. Only Quality Training Programmes for Engineers and Operators may ensure efficient Running. Greatest Importance must be given to such Training Programmes. Frequent trippings, damage of auxiliaries and Accidents are seen if Engineers and Employees are not properly Trained. Engineers must know Important facts and Operational Precaution for efficient operation of Units which are descibed below.
Coal is received from mines by Merry Go Round System. Old Power Houses uses the Wagon Tripler which turn Wagon to unload it. Coal is Crushed upto size of 25 mm and Magnetic particles are separated. If Coal is not properly crushed and Iron pieces not seperated then Pulverisers and Raw Coal Feeders will face severe problems. Chain of Raw Coal Feeder may damage due to metallic parts present in Coal. Big Size Coal may affect grinding capacity of our Pulverisers.

Raw Coal Feeders are used to provide controlled quantity of Coal to Pulverisers. Ball Mill or Bowl Mill are being used to grind coal in powder form for efficiently burning Coal.

Primary Air Fan provides air for tranportation of Coal and its drying. Forced Draught Fan provide Secondary Air help burning coal. Important point which must be remember that Ratio of Primary and Secondary must be proper. Quantity of Primary Air, Secondary Air and Pulverised Coal must be properly adjusted and firing must be checked properly by flame scanners so that they may not be unburnt coal.

Air from Feed Water is seperated by Deaerator. Hydrazine is dosed here so that oxygen is removed from feed water. Phosphate dosing is done in Boiler Drum to seperate Silica particles from feed water. Dosing of Phosphate and Hydrazine must be properly monitored. Sample of water must be timely get checked from Lab so that deposition of silica in Boiler Tubes and Turbine Blades may be avoided. Continous Blow Down valve is generally opened upto 10% to 30% as per sample reports from water chemistry lab.

At the start of boiler ignitors or oil rows if the flame is not established then we must relight boiler after purging. Boiler Furnace explosion may be avoided by timely purging and stoppage of leakage of fuel oil in
furnace. Purging is done before every light up of boiler by starting Induced Draft Fan and Forced Draft
Fan for five minute and maintain 30% air flow for five minutes so that unburnt fuel and gases present in
boiler furnace may escape.

At low load always take fuel oil support to avoid flame failure.

Soot blowing which done to dislodge soot from boiler tubes must be regularly done by injecting steam at
sufficient pressure and temperature as per manufacturer's guidlines and intructions.

Poking of ash hoppers must be continiously monitored so that hoppers may not choked and further
deposition of clinkers takes place. Clinker grinders must be made operational.

L P Drain which are provided at boiler zero meter for draining water if salt concentration and silica value
increases must be operated under strict guidance and monitoring. L P Drain valve must be opened
partially, one by one for less than one minutes otherwise water wall may damage due to stoppage of natural cirulation. It is best practice to operate L P Drain at the time of light up of boiler when pressure and
temperarure is relatively low.

Isolators must be opened or closed at no Loads and Circuit Breakers may be opened or closed at Load.

Stator water cooling system is provided for cooling of Generator Stator Conductors where Demineralised water is circulated in hollow conductors. Quality of Demineralised water must be monitored.

Power Plant Auxiliaries such as I D Fan, F D Fan, PA Fan must be started at no load because at the time of start of motor it takes nearly 14 times more current. Position of Discharge and Suction Dampers must be properly checked.

For starting Boiler Feed Pump we must ensure that suction valve is opened and discharge valve is closed and recirculation valve must be opened.

Interlock and Protection must be timely checked to know its fuctioning.

At the instant of tripping of unit we must open Main breaker first and after Main breaker is tripped and current in all three phases shows zero then we must open field breaker of generator for its safety.
D C Seal oil Pump, D C Lub oil Pump, D C Fire Pump must be started daily to check its functioning.

Barring Gear or Shaft Turning Gear must be immediately engaged when turbine rotor speed reaches to zero to avoid its bending.

At the time of Boiler Tube Leakage we must immediately trip the unit to avoid secondary damage. Feed flow quantity, Deaerator level, Furnace Vaccum must be monitored regularly. Hissing sound may be observed from site in case of tube leakage. Acoustic Monitoring Instruments may also be used to detect small Boiler Tube Leakage upto size of 2.5 mm with its correct location. This system may detect leakage at the moment it starts.

Operation of Modern Thermal Power Plant requires great attention and Precaution for its safe and efficient running although many advanced protection, auto and burner management system which are controlled by latest softawre and computer are provided. Engineers engaged in operation should remain vigilant, understand the procedures to control emergencies and prepare for many more unexpected circustances.

Saturday, July 31, 2010

Acoustic monitoring Instruments for Boiler tube leakage detection in Thermal Power Plants are cost effective hence must be installed immediately.

Acoustic Instruments may be used to detect early boiler tube leak to avoid secondary damage to pressure parts.Boiler acoustic tube leak detection system must be used as it prevent damage to costly boiler parts and it is very much cost effective.An increase in boiler availability of just one day will more than cover the cost of a leak detection system.




Traditional leak detection system such hearing hissing sound by ear or monitoring feed water flow or furnace vaccum is not much reliable because it can not detect small leak so damage to vital costly equipment of boiler may not be avoided.Writer noticed many instances where thermal power plants boiler allowed to run for long time due to confusion which caused permanent damage to many boiler tubes,refractory and boiler structures.Hence importance of acoustic monitoring leak detection systems sincerely felt .




Acoustic leak detection sensors detect high frequency emmissions from site of leak and Sensitive piezoelectric sensors mounted to the structure transform these acoustic waves to electronic voltage signals, which are amplified, filtered, and processed to determine energy content.




Early detection by acoustic monitoring instruments results in substantial reduction of repair times and costs with a consequent increase in plant availability and profits. The early detection of a bolier tube leak will give financial savings which will easily exceed the initial capital cost of the detection system even at the very first event.




Finally,Acoustic monitoring instruments must be intalled in boilers of thermal power plants.for more details go to


http://www.acousticmonitoring.com/


Acousti monitoring international


p(330)305-1422f(330)494-9822-16707 harbour drive n.w cantou ohio 447


http://www.proconeng.com/mainfiles/boilerleak.html


procon engineering


http://www.triple5industries.com/


http://www.steamleak.com/


know more about boiler tube leakage,avoid clinker formation and furnace explosion


http://boilerdetails.blogspot.com/

Tuesday, July 13, 2010

Introduction and some facts about large thermal power station for efficient operation.

Introduction and some facts about large thermal power station for efficient operation.


Boiler is used for steam generation.


Ball Mill or Bowl mills are used for pulverisation of coal in powder form for efficient firing in boiler.


Raw Coal Feeders are used to supply coal to ball mills in controlled quantity.


PA Fan are used to transport and preheat pulverised coal to burners.


ID Fan are used to exhaust flue gases to chimeny and create vaccum in Furnace.


Electrostatic Precipitators are used to separate ash particles from flue gases to control pollution.Here collecting electrode,emmiting electrode and rapping mechanism used.


FD Fan used to provide air to boiler for help in firing.


Steam produced in boiler is further superheated in Superheaters.There are lot superheaters such as platen,pendent,convection and final superheaters.


Boiler drum used for separation of staem from water and storage.Nowadays Drum less once through boiler also used which operates at super critical temerature and Pressure.


Boiler circulation pump used for forced circulation of water in water wall because at high pressure natural circulation is not possible.


Soot Blowers used to remove soot from water wall,Superheater,Reheaters and Air Heaters by injecting steam into heating surfaces.


Ash slurry pumps are used to flush ash with water.


Boiler Feed Pump used to provide water to boiler Drum.


Deaerator used to separate dissolved air from Feed water.


In Turbine heat energy of steam is converted into mechanical energy.


ESV which is called emergency stop valve used to stop supply of steam to turbine when unit trips.


Reheaters used to reheat steam exhausted from HP turbine.After reheating upto 535 degree centrigade same steam is utilised in Intermediate Pressure Turbine.


Barring gear or shaft turning gear is used to ratate turbinr rotor at 3.15 rpm when turbine is not running to check bending of rotor due to its own weight.


LP Heaters and HP Heaters are used to heat condensate and feed water supplied to boiler to increase efficiency by steam bled from turbine extraction.


Economiser are used to heat feed water by flue gages to increase efficiency. Heat of waste flue gas is utilised here.


Air Heaters uses heat of waste flue gases to preheat primary and secondary air.There are two types of air heaters tubular and rotary.


Condenser used to condence steam exhausted from turbine.


Condensate Pump are used to supply water to Deaerator from condenser Hot well.


CW Pump used to cool steam exhausted from turbine into condensers.


Raw Water is Circulated by cw pump into condenser tube hence leakage from condenser tubes must be checked to avoid mixing of raw water into Hot well.


Turbogenerator converts mechanical energy into electrical energy.


H2 Gas used in generators used for cooling of generators.


Seal Oil system used to seal hydrogen gas from escape from generator.


Stator Water Cooling system provides demineralised water into hollow stator conductor of generator for its cooling.


Generating Tansformer steps up volatage for transmission.


Water Treatment Plant is used to produce demineralised water for steam generation. Cation anion and degassifier tower used to separate mineral and gases from water.PAC or alum used to separate mud and silica from water.Here minerals removed from water and ph value is maintained near 7 and silica value must less tham 0.02 ppm


Coal Handling Plant supplies Coal to Boiler.Merry go round system or wagon trippler used to unload coal into hoppers. Coal is crused in crusher to crush it in 25mm size.Magnetic separators used to separate metalic particles from coal.


ABCB,SF6,OCB,MOCB and VCB are circuit breakers used to make or break electricity contact at load.


Isolators are used to make or break contact at no loads.


ABT is availability based tarrif system to maintain grid discipline.


Purging is done to clean furnace from combustible gases by running ID Fan and FD Fan at atleast 30% load for 5 minutes to avoid furnace explosion.


Furnace explosion may be checked by timely purging and adjusting firing properly using right quantity primary and secondary air and timely oil support and avoiding leakage of fuel oil in boiler.Furnace must be purged properly again if flame is not established during lightup of boiler.


Flame scanners used to sense flame in boiler to detect flame failure to avoid boiler furnace explosion.


FSSS is furnace safeguards supervisory system to safeguard boiler.


Clinker formation which caused by more ash content having low fusion temperature and mineral in poor quality coal may be checked by proper poking and using more water for flushing and use of clinker grinder and regular soot blowing.Overfiring which is also cause of clinker formation may be avoided by proper primary and secondary air ratio.


Acoustic Instruments used to detect early boiler tube leakage to avoid secondary damage to pressure parts,Refractory and structures of Boiler.Boiler must be immediately shut down in case of Boiler tube Leakage.

http://tpp-4u.blogspot.com/