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Boiler thermalpowerplants 12898051220529-phpapp02

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The document provides information about steam generators and coal-fired power plants. It discusses the basics of how coal is converted to electricity through a thermal cycle. Coal is burned in a boiler to produce superheated steam, which spins a turbine connected to a generator to produce electrical energy. The steam is then condensed in a condenser, and the condensate is returned to the boiler via feedwater pumps, completing the cycle. The document also contains details about India's major coal-fired power plants and their locations.

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A presentation on
Steam Generator
Coal to Electricity ….. Basics
Coal
Chemical
Energy
Super Heated
Steam
Pollutants
Thermal
Energy
Turbine
Torque
Heat Loss
In
Condenser
Kinetic
Energy
Electrical
Energy
Alternating current
in Stator
Mech. Energy
LossASH
Heat
Loss
Elet. Energy
Loss
Major Energy
Sources of
India
NR
WR
SR
ER
NER
Ennore
Kudankulam
Kayamkulam
Partabpur
Talcher/Ib Valley
Vindhyachal
Korba
MAJOR ENERGY RESOURCES IN INDIA
LEGEND
Coal
Hydro
Lignite
Coastal
Nuclear
Vizag
Simhadri
Kaiga
Tarapur
Mangalore
Krishnapatnam
RAPP
53,000MW
23,000MW
1,700MW
SIKKIM
MYANMMAR
CHICKEN
NECK
Cuddalore
SRI LANKA
COLOMBO
NEPAL
BHUTAN
DESH
BANGLA
South Madras
Pipavav
Generation Load-Centre
Kolkata
Bhubaneswar
Patna
Lucknow
Delhi
Mumbai
Chennai
Bangalore
Bhopal
Guwahati
Jammu
Ludhiana
Jaipur
Gandhinagar
Indore
Raipur
Thiruvananthapuram
Kozhikode
Hyderabad
* Hydro Potential : 1,10,000
> 25,000MW already installed
> 19,000MW under implementation
> 66,000MW still to be exploited
* 90% coal reserves in ER & WR
Why Coal?
Coal
55%
Gas
10%
Diesel
1%
Hydel
26%
RES
5%
Nuclear
3%
Share of Coal in Power
Generation
Advantages of Coal Fuel
•Abundantly available in
India
•Low cost
•Technology for Power
Generation well developed.
•Easy to handle, transport,
store and use
Shortcomings of Coal
•Low Calorific Value
•Large quantity to be
Handled
•Produces pollutants, ash
•Disposal of ash is
Problematic
•Reserves depleting fast
•India’s Coal Reserves are estimated to be 206 billion tonnes. Present consumption is
about 450 million tonnes.
•Cost of coal for producing 1 unit of electricity (Cost of coal Rs 1000/MT)is Rs 0.75.
•Cost of Gas for producing 1 unit of electricity (Cost of Gas Rs 6/SMC)is Rs 1.20.
Knowing more about Coal
Coal production
•Surface Mining
•Underground Mining
Coal
Transportation
•Rail
•Truck
•Conveyor
•Ship
Coal Properties
•Calorific Value
•Grade of Coal (UHV)
•Proximate Analysis
•Ultimate Analysis
•Ash and Minerals
•Grindability
•Rank
•Physical Characteristics
Coal Beneficiation
•Why?
•Processes
•Effectiveness
Coal production
•Surface Mining
•Underground Mining
Useful Heat Value (UHV)
UHV= 8900-138(A+M)
Boiler/ steam generator
 Steam generating device for a specific purpose.
 Capable to meet variation in load demand
 Capable of generating steam in a range of operating
pressure and temperature
 For utility purpose, it should generate steam
uninterruptedly at operating pressure and
temperature for running steam turbines.

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Boiler thermalpowerplants 12898051220529-phpapp02

  • 2. Coal to Electricity ….. Basics Coal Chemical Energy Super Heated Steam Pollutants Thermal Energy Turbine Torque Heat Loss In Condenser Kinetic Energy Electrical Energy Alternating current in Stator Mech. Energy LossASH Heat Loss Elet. Energy Loss
  • 3. Major Energy Sources of India NR WR SR ER NER Ennore Kudankulam Kayamkulam Partabpur Talcher/Ib Valley Vindhyachal Korba MAJOR ENERGY RESOURCES IN INDIA LEGEND Coal Hydro Lignite Coastal Nuclear Vizag Simhadri Kaiga Tarapur Mangalore Krishnapatnam RAPP 53,000MW 23,000MW 1,700MW SIKKIM MYANMMAR CHICKEN NECK Cuddalore SRI LANKA COLOMBO NEPAL BHUTAN DESH BANGLA South Madras Pipavav Generation Load-Centre Kolkata Bhubaneswar Patna Lucknow Delhi Mumbai Chennai Bangalore Bhopal Guwahati Jammu Ludhiana Jaipur Gandhinagar Indore Raipur Thiruvananthapuram Kozhikode Hyderabad * Hydro Potential : 1,10,000 > 25,000MW already installed > 19,000MW under implementation > 66,000MW still to be exploited * 90% coal reserves in ER & WR
  • 4. Why Coal? Coal 55% Gas 10% Diesel 1% Hydel 26% RES 5% Nuclear 3% Share of Coal in Power Generation Advantages of Coal Fuel •Abundantly available in India •Low cost •Technology for Power Generation well developed. •Easy to handle, transport, store and use Shortcomings of Coal •Low Calorific Value •Large quantity to be Handled •Produces pollutants, ash •Disposal of ash is Problematic •Reserves depleting fast •India’s Coal Reserves are estimated to be 206 billion tonnes. Present consumption is about 450 million tonnes. •Cost of coal for producing 1 unit of electricity (Cost of coal Rs 1000/MT)is Rs 0.75. •Cost of Gas for producing 1 unit of electricity (Cost of Gas Rs 6/SMC)is Rs 1.20.
  • 5. Knowing more about Coal Coal production •Surface Mining •Underground Mining Coal Transportation •Rail •Truck •Conveyor •Ship Coal Properties •Calorific Value •Grade of Coal (UHV) •Proximate Analysis •Ultimate Analysis •Ash and Minerals •Grindability •Rank •Physical Characteristics Coal Beneficiation •Why? •Processes •Effectiveness Coal production •Surface Mining •Underground Mining Useful Heat Value (UHV) UHV= 8900-138(A+M)
  • 6. Boiler/ steam generator  Steam generating device for a specific purpose.  Capable to meet variation in load demand  Capable of generating steam in a range of operating pressure and temperature  For utility purpose, it should generate steam uninterruptedly at operating pressure and temperature for running steam turbines.
  • 7. Boiler/ steam generator  Raw materials for design of boilers 1. Coal from mines 2. Ambient air 3. Water from natural resources (river, ponds) o Generating heat energy o Air for combustion o Working fluid for steam generation, possessing heat energy A 500MW steam generator consumes about 8000 tonnes of coal every day It will be considered if it requires about 200 cubic meter of DM water in a day It will produce about 9500 tonnes of Carbon di Oxide every day
  • 8. Coal analysis  Typical composition (Proximate analysis) 1. Fixed carbon 2. Fuel ash 3. Volatile material 4. Total Moisture 5. Sulfur o High calorific value/ Lower calorific value (Kcal/kg) o Hardgrove Index (HGI)
  • 9. Combustion of coal  Carbon, hydrogen, sulfur are sources of heat on combustion  Surface moisture removed on heating during pulverization.  Inherent moisture and volatiles are released at higher temperature, making coal porous and leading to char/ coke formation. (Thermal preparation stage)
  • 10. Fuel Oil  Three liquid fuels used in power plants • 1. Heavy Fuel Oil (HFO) • 2. LSHS (Low Sulfur Heavy stock) • 3. High speed Diesel (HSD) Oil firing is preceded by  Lowering viscosity and increasing flowability on heating for better combustion in given turn down ratio.(125oC)  Droplet formation on atomization (by steam/ compressed air/ mechanical pressurization)  Combustion initiation by High energy spark ignition
  • 11. Combustion of reactants  Reaction rate depends on concentration of one of the reactants  Concentration varies on partial pressure of the reactants.  Partial pressure is a function of gas temperature.  Therefore, reaction rate depends on temperature and substance that enter the reaction.
  • 12. Combustion Reactions (Carbon)  Main reactions 2C + O2 = 2CO + 3950 BTU/lb (Deficit air) C + O2 = CO2 +14093 BTU/lb Secondary reactions 2CO + O2 = 2CO2 + 4347BTU/lb C + CO2 = 2CO -7.25MJ/kg
  • 13. Combustion Reactions (Carbon)  Carbon reaction 2C + O2 =2CO [Eco =60kJ/mol] C + O2 =CO2 [Eco2 =140kJ/mol] reaction at 1200oC 4C + 3O2 =2CO + 2CO2 (Ratio 1:1) Reaction at 1700oC 3C + 2O2 = 2CO +CO2 (Ratio 2:1) It is desirable to supply combustion air at lower temperature regime in furnace
  • 14. Combustion Reaction (H2, S)  Hydrogen reaction 2H2 + O2 = 2H2O +61095 BTU/lb  Sulfur reaction S + O2 = SO2 + 3980 BTU/lb (undesirable)
  • 15. Coal for combustion  Anthracite  Semi-anthracite  Bituminous  Semi-Bituminous  Lignite  Peat  High CV, low VM  High CV, low VM  Medium CV, medium VM  Medium CV, medium VM  Low CV, high VM, high TM  Very low CV, high VM & TM
  • 16. Heat Generation in furnace  Heat input in the furnace  Efficiency of thermal power plants is 37%-45% for different types of cycle  For typical conventional P.F. boilers, coal flow rate is 290-350 T/hr For 500 MW units 120-145 T/hr For 200 MW units Cycle Elect Furnace MW Q  
  • 23. MAIN EQUIPMENTS OF FUEL & FIRING SYSTEM • MILLS OR PULVERISERS • FEDDERS • BURNERS TYPES OF FEEDERS • VOLUMETRIC FEEDRES • GRAVIMETRIC FEEDERS
  • 24. PULVERIZERS OBJECTIVES • TO CRUSHED THE COAL • REDCED TO A FINENESS SUCH THAT 70-80% PASSES THROUGH A 200MESH SIEVE ADVANTAGES OF PULVERISED COAL FIRING • EFFICIENT UTILISATION OF CHEAPER GRADE OF COALS • FLEXIBILITY IN FIRING WITH ABILITY TO MEET FLUCTUATING LOADS • BETTER COAL COMBUSTION INCREASING THE BOILER EFFICIENCY • HIGH AVAILIBILITY
  • 25. XRP (BHEL) E MILLS (BABCOCK) MPS BOWL/ BALL & RACE VERTICAL SPINDLE PRESSURIZED TUBE CLASSIFICATION OF MILLS
  • 26. BOWL MILL Model no. Base capacity(T/Hr) 623XRP 18.4 703XRP 26.4 763XRP 33.8 803XRP 36.5 883XRP 51.1 903XRP 54.1 1003XRP 68.1 1043XRP 72.0 BASE CAPACITY(T/HR) AT HGI -55 Total Moisture-10% Fineness-70% THRU 200 MESH
  • 27. BALL& RACE MILL(E MILL) Model no. Base capacity(T/Hr) 7E9 25 8.5E10 35 8.5E9 40 10E10 55 10.9E11 61 10.9E10 70 10.9E8 80
  • 28. TUBE MILL Model no. Base capacity(T/Hr) BBD4760 83 BBD4772 90
  • 29. AIR AND DRAFT SYSTEM OBJECTIVES • THE AIR WE NEED FOR COMBUSTION IN THE FURNACE AND FLUE GAS THAT WE MUST EVACUATE • TRANSPORT AND DRY THE PULVERISED COAL • SEALING OF BEARINGS FROM COAL/DUST DRAFT SYSTEM DRAFT MEANS THE DIFFRENCE BETWEEN THE ATMOSPHERIC PRESSRE AND PRESSURE EXISTING IN THE FURNACE •NATURAL DRAFT- OBTAINED BY TALL CHIMNEY • INDUCED DRAFT- BY ID FANS • FORCED DRAFT- BY FD FANS • BALANCE DRAFT - BY ID AND FD FANS •GENERALLY IN POWER PLANT BALANCE DRAFT SYSTEM IS USED.
  • 30. FANS IN POWER PLANT • FORCED DRAFT FAN • INDUCED DRAFT FAN • PRIMARY AIR FAN • SEAL AIR FAN • SCANNER AIR FAN THE BASIC INFORMATION NEEDED TO SELECT A FAN ARE • AIR OR GAS FLOW-KG/HR • DENSITY(FUNCTION OF TEMPERATURE AND PRESSURE) • SYSTEM RESISTANCE(LOSSES)
  • 31. AIR PRE HEATERS OBJECTIVES • TO RAISE THE TEMPERATURES OF PRIMARY AND SECONDARY AIR BY UTILISING HEAT FROM FLUE GAS AT LOW TEMPERATURE ADVANTAGES OF AIR PREHEATERS • INCREASE THE BOILER EFFICIENCY • STABILITY OF COMBUSTION IMPROVED BY USE OF HOT AIR • PERMITTING TO BURN POOR QUALITY COAL
  • 35. Electro Static Precipitator To remove fly ash from the flue gases electrostatic precipitators are used. They have collection efficiency over 99.5% The efficiency depends on various parameters such as velocity of flow, quantity of gas, resistivity of ash, voltage of fields, temperature etc
  • 36. Principle of Operation The fluegas laden with flyash is sent through ducts having negatively charged plates which give the particles a negative charge. The particles are then routed past positively charged plates, or grounded plates, which attract the now negatively-charged ash particles. The particles stick to the positive plates until they are collected by periodically rapping.
  • 39. SELECTION OF BOILER TYPE OF BOILER Based on steam parameter- Subcritical/ Supercritacal Based on steam/ water circuit-Once throuh/ drum type Based on air/ flue gas path- Tower/Two path/ T-type Type of fuel- Coal fired/ oil fired Type of draft system- Type of burner arrangement- Tangential/Front/ opposed Selection of Firing system- Type of mills Single reheat/ double reheat Type of water wall tube- Plain, rifled Type of tubing arrangement- Spiral/ straight
  • 40. • Tube leakages from boiler pressure parts. • Erosion of tubes due to high ash content and velocities • Over heating of tubes • Passing from valves causing difficulty in maintaining the parameters • Failure or incorrectness of measured parameters • Overloading of boiler due to very poor quality of coal • Deposition of ash (clinkers) on furnace walls. • Difficulties in removal of ash from the boiler • Reduced effectiveness of heat transfer leading to loss of efficiency. • Improper combustion of coal in the boiler. Typical Boiler Problems
  • 41. • Air ingress from the nose arch, penthouse and boiler second pass and quantification thereof • Difference between on line reading and the actual oxygen in the flue gas duct • Difference between actual and 'on line' temperature • measurement of air heater air / gas outlet temperatures • Fouling and Slagging • High unburnt Carbon in flyash or bottomash • High air heater leakage • Boiler operation at high excess air Typical Boiler Problems contd..
  • 42. A Few words on Super Critical Boiler Definition “CRITICAL” is a thermodynamic expression describing the state of a substance beyond which there is no clear distinction between the liquid and gaseous phase.  The critical pressure & temperature for water are  Pressure = 225.56 Kg / cm2  Temperature = 374.15 C
  • 43. SUPERCRITICALTHERMAL CYCLE ADVANTAGES (1)  Improvements in plant efficiency by more than 2 %  Decrease in Coal Consumption  Reduction in Green House gases.  Overall reduction in Auxiliary Power consumption.  Reduction in requirement of Ash dyke Land & Consumptive water.
  • 44. SUPERCRITICAL – ADVANTAGES (2)  Sliding pressure operation because of Once through system .  Even distribution of heat due to spiral wall arrangement leading to less Boiler tube failure, thereby improving system continuity and availability of the station.  Low thermal stress in Turbine .  The startup time is less for boiler.
  • 45. SUPERCRITICAL – DISADVANTAGES Higher power consumption of BFP Higher feed water quality required. More complex supporting and framing in Boiler due to Spiral Wall tubes. Slight higher capital cost.
  • 46. Description unit 660 500 S/H STEAM FLOW T/HR 2225 1625 SH STEAM PR KG/CM2 256 179 SH STEAM TEMP 0C 540 540 RH STEAM FLOW T/HR 1742 1397.4 RH STEAM TEMP INLET 0C 303.7 338.5 RH STEAM TEMP OUTLET 0C 568 540 RH STEAM PRESS INLET KG/CM2 51.17 46.1 FEED WATER TEMP 0C 291.4 255.2 COMPARISION OF 660 MW Vs 500 MW BOILER
  • 47. COST COMPARISON FOR 660 MW vs. 500 MW DESCRIPTION 660 MW 500 MW 1. 1Cost of Boiler alone 1970.73 Cr 1020.54 Cr 2 Cost of ESP 153.00 Cr Included above 3 Total cost of Boiler + ESP 2124.00 Cr 1020.54 Cr 4 Boiler cost Per MW 1.07 Cr 1.02 Cr 5 Cost of TG for entire stage 1204.72 Cr 634.31 Cr 6 Cost of TG Per MW 0.6Cr 0.63 Cr