Major Thermal Power Plants
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Major Thermal Power PlantsMajor Thermal Power Plants
* The Map showing Major Thermal Power Plants in India
Disclaimer: All efforts have been made to make this image accurate. However Compare Infobase Limited and its directors do not own any responsibility for the correctness or authencity of the same.
A thermal power plant is generally a steam driven power plant. The force that spins the turbines in the plant is steam that is either used to drive an electric generator or any other work that requires power. However there are variations in the functioning of different types of thermal power plants which mostly depends of the kind of fuel used. The most frequently used fuel for thermal power plants in India is coal.
About 70% of the electricity consumed in India is generated through thermal power plants. India is home to numerous thermal power plants which are renowned all over the world.
Below is a list of the Major Thermal Power Plants in India
Anpara thermal power station- Uttar Pradesh
Located on the banks of rihand reservoir in the district of sonebhadra in Uttar Pradesh the Anpara thermal power station is a coal fired thermal power plant. Situated at a distance of 200 km from Varanasi on pipri-singrauli road this powe station is well connected by air/rail and road route from other major cities. This thermal power plant has 5 operational units with a total installed capacity of 500 MW.
Bakreswar Thermal Power Project - West Bengal
The Bakreswar Thermal Power Project is one of the most prominent thermal power projects in India. It is situated at a distance of just 260 Km away from Kolkata. The project has clear rail track access via Chinpai on the Andal-Sinthia Line of Eastern Railways. The Bakreswar Thermal Power Project is running with five operational units having total installed capacity of 1050 MW. Expansion of another 600 MW unit (sixth unit) has been envisaged for implementation during the Eleventh-Five-year Plan period.
Panipat Thermal Power Station II
A coal based Thermal Power Plants in India the Panipat Thermal Power Station II is located in Panipat in Haryana. Developed under four stages this thermal power plant has 8 units in total with an installed capacity of 250 MW.
Deenbandhu Chhotu Ram Thermal Power Station
A coal based power plant of HPGCL the Deenbandhu Chhotu Ram Thermal Power Plant is located at Yamunagar in Haryana. Commissioned in April 2008 with its first unit today this power plant has two units with a total installed capacity of 600 MW.
Rajiv Gandhi Thermal Power Station
The Rajiv Gandhi Thermal Power Station is situated in Kedar in the Hisar district of Haryana. One of the lowest costing power projects in India so far this power plant is a coal based power plants of HPGCL. This thermal power plant has 2 units with a total installed capacity of 600 MW.
Kota Super Thermal Power Plant
Situated on the bank of River Chambal near Kota in Rajasthan this thermal power station is the state's first major coal fired power plant. Known as one of the most efficient and prestigious thermal power plants in India the Kota Super Thermal Power Plant has received many awards for productivity during 1984,1987, 1989, 1981 and every year since 1992 on wards. This thermal power plant has 28 units with an installed capacity of 1240 MW.
Last Updated on 12 October 2010
Major Thermal Power Plants in India
Major Thermal Power Plants in India
Amarkantak TPS ChachaiMadhya Pradesh
Anpara TPS Anpara Uttar Pradesh Anta Thermal Power Station Anta Rajasthan Arasmeta CPP (private) Janjgir Chattisgarh Auraiya Thermal Power Station Dibiyapur Uttar Pradesh Badarpur TPP Badarpur NCT Delhi Bakreswar TPS Suri West Bengal Barauni TPP Barauni Bihar Barsingsar LignitPower Plant e Barsingsar Rajasthan Bellary TPP Kudatini Karnataka Bhusawal TPS Deepnagar Maharastra Bokarao Thermal Power Station 'B' Bokaro Jharkhand Chandrapur STPS Chandrapur Maharastra Chandrapura Thermal Power Station
Chandrapura Jharkhand
Chhabra STPP Mothipura Rajasthan Deenbandhu Chhotu Ram TPP Yamunanagar Haryana
Dr Narla Tatarao TPS Ibrahimpatnam Andhra Pradesh
Dr Shyama Prakash Mukharjee TPP
Chattisgarh
Durgapur Thermal Power Station Durgapur West Bengal Durgapur TPP Durgapur West Bengal Ennore TPS Ennore Tamilnadu Farakka STPS Nagarun West Bengal
Faridabad Thermal Power Plant Mujedi Haryana Feroz Gandhi Unchahar TPP Unchahar Uttar Pradesh Gandhinagar TPS Gandhinagar Gujarat Giral Lignite TPS Thumbli Rajasthan Guru Gobind SSTP Ghanauli Punjab
Guru Hargobind TP Lehra Mohabbat
Punjab
Guru Nanak dev TP Bathinda Punjab Harduaganj TPS Harduaganj Uttar Pradesh IB Thermal pp Banharpali Orissa Indraprashta PS Delhi NCT Delhi Jhanor-Gandhar TPS Urjanagar Gujarat Jindal Megha PP (private) Tamnar Chattisgarh JSW Vijanagar PP-II (private) Vijaynagar Karnataka Kahalgaon STPS Kahalgaon Bihar
Kakatiya TPS Chelpur Andhra Pradesh
Kaparkheda TPS Kaparkheda Maharastra Kawas TPS Adityanagar Gujarat Kolaghat TPS Mecheda West Bengal Koradi TPS Koradi Maharastra Korba STPP Jamani Palli Chattisgarh STPS Kota Rajasthan
Kothagudem TPS Paloncha Andhra Pradesh
Kothagudem V stage TPS Paloncha Andhra Pradesh
Kutch Lignite TPS Panandhro Gujarat Lanco Amarkantak TPP (private) Pathadi Chattisgarh Lanco Udupi TPP (private) Nandikoor Karnataka Mejia Thermal Power Station Durlavpur West Bengal Mettur TPS Metturdam Tamilnadu Muzaffarpur TPP Kanti Bihar Nashik TPS Nashik Maharastra National Capital TPP Vidyutnagar Uttar Pradesh Neyveli TPS 1 Neyveli Tamilnadu Neyveli TPS 2 Neyveli Tamilnadu North Chennai TPS Athipattu Tamilnadu Obra TPS Obra Uttar Pradesh Panipat TPP 1 Assan Haryana Panipat TPP 2 Assan Haryana Panki TPS Panki Uttar Pradesh Paras TPS Vidyutnagar Maharastra Pariccha TPS Pariccha Uttar Pradesh Parli TPS Parli-Vaijnath Maharastra Raichur Super TPS Raichur Karnataka
Rajghat PS Delhi NCT Delhi Rajiv Gandhi CCPP kayamkulam Kerala Rajwest Lignite Power Plant (private)
Rajasthan
Ramagundam B TPS Ramagundam Andhra Pradesh
Ramagundam STPS Jyothi NagarAndhra Pradesh
Rayalaseema TPS Cuddapah Andhra Pradesh
Rihand TPP Rihand Nagar Uttar Pradesh Rosa TPP (private) Rosa Uttar Pradesh Sabarmati TPS (Private) Ahamadabad Gujarat Sagardighi TPS Manigram West Bengal
Sanjay Gandhi TPS Birsinghpur Madhya Pradesh
Santaldih TPS West Bengal
Satpura TPS Sarni Madhya Pradesh
Sikka TPS Jamnagar Gujarat
Simhadri STPS Simhadri Andhra Pradesh
Singrauli Super Thermal Power Station
Shaktinagar Uttar Pradesh
Sipat TPP Sipat Chattisgarh Surat Lignite TPS Nani Naroli Gujarat Suratgarh STPS Suratgarh Rajasthan Talcher STPS Kaniha Orissa Talcher TPP Talcher Orissa Tanda TPP Vidyutnagar Uttar Pradesh Tuticorin TPS Tuticorin Tamilnadu Ukai TPS Ukai dam Gujarat
Vindhyachal STPS Vidhya Nagar Madhya Pradesh
VS Lignite Power Plant (private) Gurha Rajasthan Wanakbori TPS Wanakbori Gujarat
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List of power stations in IndiaNon-renewable
NuclearMain article: Nuclear power in IndiaNuclear power is the fourth-largest source of electricity in India after thermal, hydro and wind power.[1] As of 2010, India had 16 nuclear power reactors in operation generating 4,560 MW while 4 other are under construction and are expected to generate an additional 2,720 MW.[2]
Nineteen nuclear power reactors operated at six sites by the Nuclear Power Corporation of India produce 4,560.00 MW, 2.9% of total installed base.[3]
Power station
Operator
Establishment Date Location District State Region
Reactor
units (MW)
Installed
Capacity
(MW)
Under construc
tion(MW)
Plant Coordina
tes
Narora Atomic Power Station
NPCILJanuary 1, 1991 Narora
Bulandshahr
Uttar Pradesh
Northern
2 x 220 440 -
28°09 ′ 26 ″ N 78°24 ′ 34 ″ E
Rajasthan Atomic Power Station
NPCILDecember 16, 1973
Rawatbhata Chittorgarh Rajasthan
Northern
1 x 100, 1 x 200, 4 x 220
1180 -24°52 ′ 21 ″ N 75°36 ′ 57 ″ E
Tarapur Atomic Power Station
NPCILOctober 28, 1969 Tarapur Thane
Maharashtra
Western
2 x 160, 2 x 540
1,400 -19°49 ′ 51 ″ N 72°39 ′ 30 ″ E
Kakrapar Atomic Power Station
NPCILMay 6, 1993 Kakrapar Surat Gujarat
Western
2 x 220 440 2 x 700
21°14 ′ 09 ″ N 73°21 ′ 03 ″ E
Kudankulam Nuclear Power Plant
NPCIL
November 20, 1988 (signed by PM), January 14, 2004 Operational
Kudankulam
Tirunelveli Tamilnadu
Southern
2 x 1000
- 200008°10 ′ 03 ″ N 77°42 ′ 46 ″ E
Madras Atomic Power
BHAVINI
January 24, 1984
Kalpakkam
Kancheepuram
Tamilnadu
Southern
1 x 500
- 500
12°33 ′ 10 ″
Power station
Operator
Establishment Date Location District State Region
Reactor
units (MW)
Installed
Capacity
(MW)
Under construc
tion(MW)
Plant Coordina
tes
StationN 80°10 ′ 23 ″ E
Kaiga Nuclear Power Plant
NPCILNovember 16, 2000 Kaiga
Uttara Kannada Karnataka
Southern
4 x 220 660 220
14°51 ′ 53 ″ N 74°26 ′ 19 ″ E
Madras Atomic Power Station
NPCILJanuary 24, 1984
Kalpakkam
Kancheepuram
Tamil Nadu
Southern
2 x 220 440 -
12°33 ′ 27 ″ N 80°10 ′ 31 ″ E
Total 6 19 4,560 2,720
Thermal Power
Thermal power is the largest source of power in India.There are different types of Thermal power plants based on the fuel used to generate the steam such as coal, gas, Diesel etc. About 75% of electricity consumed in india are generated by Thermal power plants.
Coal and Lignite Based
More than 50% of India's commercial energy demand is met through the country's vast coal reserves. Public sector undertaking National Thermal Power Corporation and several other state level power generating companies are engaged in operating coal based Thermal Power Plants.Apart from NTPC and other state level operators, some private companies are also operating the power plants. Here is some list of currently operating Coal based Thermal power plants in India. As on July 31, 2010, and as per the Central Electricity Authority the total installed capacity of Coal or Lignite based power plants in India are 87093.38 MW.[4]
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
Rajghat Power Station
IPGCL Rajghat North Delhi Delhi StateNorthern
Panipat Thermal Power Station I
HPGCL Assan Panipat Haryana StateNorthern 4 x 110 440.00
29°23 ′ 51 ″ N 76°52 ′ 32 ″ E
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
Panipat Thermal Power Station II
HPGCL Assan Panipat Haryana StateNorthern
2 x 210, 2 x 250 920.00
29°23 ′ 51 ″ N 76°52 ′ 32 ″ E
Faridabad Thermal Power Station
HPGCL Faridabad Faridabad Haryana StateNorthern 1 x 55 55.00
28°22 ′ 28 ″ N 77°18 ′ 21 ″ E
Rajiv Gandhi Thermal Power Station
HPGCL Khedar Hisar Haryana StateNorthern 1 x 600 600.00
29°21 ′ 25 ″ N 75°52 ′ 02 ″ E
Guru Nanak dev TP
PSPCL Bathinda Bathinda Punjab StateNorthern 4 x 110 440.00
30°14 ′ 02 ″ N 74°55 ′ 26 ″ E
Guru Hargobind TP
PSPCLLehra Mohabbat Bathinda Punjab State
Northern
2 x 210, 2 x 250 920.00
30°16 ′ 04 ″ N 75°09 ′ 53 ″ E
Guru Gobind Singh Super Thermal Power Plant
PSPCL Ghanauli Rupnagar Punjab StateNorthern 6 x 210 1260.00
31°02 ′ 32 ″ N 76°35 ′ 02 ″ E
Suratgarh Super Thermal Power Plant
RVUNL SuratgarhSri Ganganagar Rajasthan State
Northern 6 x 250 1500.00
29°10 ′ 56 ″ N 74°01 ′ 09 ″ E
Kota Super Thermal
RVUNL Kota Kota Rajasthan State Northern
2 x 110, 3 x 210,
1240.00
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
Power Plant
2 x 195
25°10 ′ 17 ″ N 75°48 ′ 54 ″ E
Giral Lignite Power Plant
RVUNL Thumbli Barmer Rajasthan StateNorthern 2 x 125 250.00
26°02 ′ 44 ″ N 71°15 ′ 13 ″ E
Chhabra Thermal Power Plant
RVUNL Mothipura Baran Rajasthan StateNorthern 2 x 250 500.00
24°37 ′ 14 ″ N 77°02 ′ 10 ″ E
Obra Thermal Power Station
UPRVUNL Obra SonebhadraUttar Pradesh State
Northern
1 x 40, 3 x 94, 5 x 200
1,322.00
24°26 ′ 41 ″ N 82°58 ′ 41 ″ E
Anpara Thermal Power Station
UPRVUNL Anpara SonebhadraUttar Pradesh State
Northern
3 x 210, 2 x 500 1630.00
24°12 ′ 11 ″ N 82°47 ′ 18 ″ E
Panki Thermal Power Station
UPRVUNL Panki KanpurUttar Pradesh State
Northern 2 x 105 210.00
26°28 ′ 35 ″ N 80°14 ′ 31 ″ E
Parichha Thermal Power Station
UPRVUNL Parichha JhansiUttar Pradesh State
Northern
2 x 110, 2 x 210 640.00
25°30 ′ 51 ″ N 78°45 ′ 36 ″ E
Harduaganj Thermal Power Station
UPRVUNL Harduaganj Aligarh Uttar Pradesh
State Northern
1 x 55, 1 x 60, 1 x 105
220.00
28°01 ′ 00 ″ N 78°0
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
7 ′ 50 ″ E
Badarpur Thermal power plant
NTPC Badarpur New Delhi NCT DelhiCentral
Northern
3 x 95, 2 x 210 705.00
28°30 ′ 22 ″ N 77°18 ′ 26 ″ E
Singrauli Super Thermal Power Station
NTPC Shaktinagar SonebhadraUttar Pradesh
Central
Northern
5 x 200, 2 x 500 2000.00
24°06 ′ 16 ″ N 82°42 ′ 27 ″ E
Barsingsar Lignite Power Plant
NLC Barsingsar Bikaner RajasthanCentral
Northern 2 x 125 250.00
27°49 ′ 09 ″ N 73°12 ′ 28 ″ E
Rihand Thermal Power Station
NTPCRihand Nagar Sonebhadra
Uttar Pradesh
Central
Northern 4 x 500 2000.00
24°01 ′ 39 ″ N 82°47 ′ 28 ″ E
NTPC Dadri NTPC VidyutnagarGautam Budh Nagar
Uttar Pradesh
Central
Northern
4 x 210, 2 x 490 1820.00
28°36 ′ 04 ″ N 77°36 ′ 25 ″ E
Feroj Gandhi Unchahar Thermal Power Plant
NTPC Unchahar Raebareli Uttar Pradesh
Central
Northern
5 x 210 1050.0025°54 ′ 52 ″ N 81°19 ′ 33 ″ E
Tanda Thermal Power Plant
NTPC VidyutnagarAmbedkar Nagar
Uttar Pradesh
Central
Northern 4 x 110 440.00
26°35 ′ 22 ″ N 82°36 ′ 04 ″ E
Raj west Lignite
JSW Barmer Barmer Rajasthan Private
Northern
1 x 135 135.00
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
Power Plant
25°53 ′ 20 ″ N 71°19 ′ 25 ″ E
VS Lignite Power Plant
KSK Gurha Bikaner RajasthanPrivate
Northern 1 x 125 125.00
27°51 ′ 18 ″ N 72°51 ′ 22 ″ E
Rosa Thermal Power Plant
Reliance RosaShahjahanpur
Uttar Pradesh
Private
Northern 4 x 300
1200.00[5]
27°49 ′ 07 ″ N 79°56 ′ 10 ″ E
Northern 28 104 21,882.00
Ukai Thermal Power Station
GSECL Ukai dam Tapi Gujarat StateWestern
2 x 120, 2 x 200, 1 x 210
85021°12 ′ 39 ″ N 73°33 ′ 26 ″ E
Gandhinagar Thermal Power Station
GSECL Gandhinagar Gandhinagar Gujarat StateWestern
2 x 120, 3 x 210 870
23°14 ′ 59 ″ N 72°40 ′ 26 ″ E
Wanakbori Thermal Power Station
GSECL Wanakbori Kheda Gujarat StateWestern 7 x 210 1470
22°52 ′ 39 ″ N 73°21 ′ 35 ″ E
Sikka Thermal Power Station
GSECL Jamnagar Jamnagar Gujarat StateWestern 2 x 120 240
22°25 ′ 20 ″ N 69°49 ′ 37 ″ E
Dhuvaran Thermal Power Station
GSECL Khambhat Anand Gujarat State Western
2 x 110 220
22°13 ′ 59 ″ N
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
72°45 ′ 25 ″ E
Kutch Thermal Power Station
GSECL Panandhro Kutch Gujarat StateWestern
2 x 70, 2 x 75 290
23°39 ′ 50 ″ N 68°47 ′ 01 ″ E
Surat Thermal Power Station
GIPCL Nani Naroli Surat Gujarat StateWestern 4 x 125 500
21°23 ′ 46 ″ N 73°06 ′ 22 ″ E
Akrimota Thermal Power Station
GMDC Chher Nani Kutch Gujarat StateWestern 2 x 125 250
23°46 ′ 21 ″ N 68°38 ′ 44 ″ E
Satpura Thermal Power Station
MPPGCL Sarni BetulMadhya Pradesh State
Western
5 x 37.5, 1 x 200, 3 x 210
1017.522°06 ′ 33 ″ N 78°10 ′ 24 ″ E
Sanjay Gandhi Thermal Power Station
MPPGCL Birsinghpur UmariaMadhya Pradesh State
Western
4 x 210, 1 x 500 1340
23°18 ′ 18 ″ N 81°03 ′ 51 ″ E
Amarkantak Thermal Power Station
MPPGCL Chachai AnuppurMadhya Pradesh State
Western
2 x 120, 1 x 210 450
23°09 ′ 52 ″ N 81°38 ′ 17 ″ E
Bhawnendra Singh Deo Power Plant
CSPGCL KorbaChattisgarh State
Western
4 x 50, 2 x 120 440
22°23 ′ 01 ″ N 82°43 ′ 08 ″ E
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
Dr Shyama Prasad Mukharjee Thermal Power Plant
CSPGCL Korba Chattisgarh
State Western
2 x 250 50022°22 ′ 12 ″ N 82°43 ′ 16 ″ E
Korba West Hasdeo Thermal Power Plant
CSPGCL KorbaChattisgarh State
Western 4 x 210 840
22°24 ′ 45 ″ N 82°41 ′ 19 ″ E
Koradi Thermal Power Station
MAHAGENCO Koradi Nagpur
Maharastra State
Western
1 x 200, 2 x 210 620
21°14 ′ 52 ″ N 79°05 ′ 53 ″ E
Nashik Thermal Power Station
MAHAGENCO Nashik Nashik
Maharastra State
Western 3 x 210 630
19°58 ′ 50 ″ N 73°53 ′ 29 ″ E
Bhusawal Thermal Power Station
MAHAGENCO Deepnagar Jalgaon
Maharastra State
Western 2 x 210 420
21°02 ′ 57 ″ N 75°50 ′ 32 ″ E
Paras Thermal Power Station
MAHAGENCO Vidyutnagar Akola
Maharastra State
Western 2 x 250 500
20°42 ′ 55 ″ N 76°47 ′ 37 ″ E
Parli Thermal Power Station
MAHAGENCO
Parli-Vaijnath Beed
Maharastra State
Western
3 x 210, 2 x 250 1130
18°54 ′ 21 ″ N 76°32 ′ 36 ″ E
Khaperkheda Thermal Power
MAHAGENCO
Kaparkheda Nagpur Maharastra
State Western
4 x 210 840
21°16 ′ 55 ″
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
StationN 79°06 ′ 54 ″ E
Chandrapur Super Thermal Power Station
MAHAGENCO Urjanagar Chandrapur
Maharastra State
Western
4 x 210, 3 x 500 2340
20°00 ′ 24 ″ N 79°17 ′ 21 ″ E
Vindhyachal Super Thermal Power Station
NTPCVindhya Nagar Sidhi
Madhya Pradesh
Central
Western
6 x 210, 7 x 500 4760
24°05 ′ 53 ″ N 82°40 ′ 18 ″ E
Korba Super Thermal Power Plant
NTPC Jamani Palli KorbaChattisgarh
Central
Western
3 x 200, 4 x 500 2600
22°23 ′ 11 ″ N 82°40 ′ 58 ″ E
Sipat Thermal Power Plant
NTPC Sipat BilaspurChattisgarh
Central
Western
2 x 500,2 x 660 2320
22°07 ′ 57 ″ N 82°17 ′ 24 ″ E
Bhilai Expansion Power Plant
NTPC-SAIL(JV) Bhilai Durg
Chattisgarh
Central
Western 2 x 250 500
21°10 ′ 58 ″ N 81°25 ′ 28 ″ E
Sabarmati Thermal Power Station
Torrent Power Ahmedabad Gujarat
Private
Western
1 x 60, 1 x 120, 2 x 110
40023°04 ′ 14 ″ N 72°35 ′ 38 ″ E
Mundra Thermal Power Station
Adani power Mundra Kutch Gujarat
Private
Western
4 x 330, 5 X 660 4620
22°49 ′ 22 ″ N 69°33 ′ 10 ″ E
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
Jindal Megha Power Plant
Jindal Tamnar RaigarhChattisgarh
Private
Western 4 x 250 1000
22°06 ′ 16 ″ N 83°27 ′ 04 ″ E
Lanco Amarkantak Power Plant
Lanco Pathadi KorbaChattisgarh
Private
Western 2 x 300 600
22°14 ′ 44 ″ N 82°43 ′ 24 ″ E
Trombay Thermal Power Station
Tata Trombay MumbaiMaharastra
Private
Western
1 x 150, 2 x 500, 1 x 250
140019°00 ′ 09 ″ N 72°53 ′ 54 ″ E
Dahanu Thermal Power Station
Reliance Energy Limited
Dahanu ThaneMaharastra
Private
Western 2 x 250 500
19°57 ′ 12 ″ N 72°44 ′ 54 ″ E
Wardha Warora Power Station
KSK Warora Chandrapur Maharastra
Private
Western
1 x 135 135
Western 32 135 29,447.50Amravati Thermal Power Plant
INDIABULLS
Nandgaonpeth
Amravati Maharashtra
State Western
10 X 270 2700
Ramagundam B Thermal Power Station
APGENCORamagundam Karimnagar
Andhra Pradesh State
Southern 1 x 62.5 62.5
18°43 ′ 31 ″ N 79°30 ′ 47 ″ E
Kothagudem Thermal Power Station
APGENCO Paloncha KhammamAndhra Pradesh State
Southern
4 x 60, 4 x 120 720
17°37 ′ 18 ″ N 80°41 ′ 15 ″ E
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
Kothagudem Thermal Power Station V Stage
APGENCO Paloncha KhammamAndhra Pradesh State
Southern 2 x 250 500
17°37 ′ 24 ″ N 80°42 ′ 06 ″ E
Dr Narla Tatarao TPS
APGENCOIbrahimpatnam Krishna
Andhra Pradesh State
Southern
6 x 210, 1 x 500 1760
16°35 ′ 58 ″ N 80°32 ′ 12 ″ E
Rayalaseema Thermal Power Station
APGENCO Cuddapah YSRAndhra Pradesh State
Southern 4 x 210 840
14°42 ′ 14 ″ N 78°27 ′ 29 ″ E
Kakatiya Thermal Power Station
APGENCO Chelpur WarangalAndhra Pradesh State
Southern 1 x 500 500
18°23 ′ 02 ″ N 79°49 ′ 42 ″ E
Raichur Thermal Power Station
KPCL Raichur Raichur Karnataka StateSouthern
7 x 210, 1 x 250 1720
16°21 ′ 20 ″ N 77°20 ′ 36 ″ E
Bellary Thermal Power Station
KPCL Kudatini Bellary Karnataka StateSouthern 1 x 500 500
15°11 ′ 37 ″ N 76°43 ′ 16 ″ E
North Chennai Thermal Power Station
TNEB Athipattu Thiruvallore Tamilnadu StateSouthern 3 x 210 630
13°15 ′ 12 ″ N 80°19 ′ 41 ″ E
Ennore Thermal Power
TNEB Ennore Chennai Tamilnadu State Southern
2 x 60, 3 x 110
450
13°12 ′ 07 ″
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
StationN 80°18 ′ 40 ″ E
Mettur Thermal Power Station
TNEB Metturdam Salem Tamilnadu StateSouthern 4 x 210 840
11°46 ′ 19 ″ N 77°48 ′ 49 ″ E
Tuticorin Thermal Power Station
TNEB Tuticorin Tuticorin Tamilnadu StateSouthern 5 x 210 1050
08°45 ′ 44 ″ N 78°10 ′ 32 ″ E
NTPC Ramagundam
NTPC Jyothi Nagar KarimnagarAndhra Pradesh
Central
Southern
3 x 200, 4 x 500 2600
18°45 ′ 31 ″ N 79°27 ′ 17 ″ E
Simhadri Super Thermal Power Plant
NTPC SimhadriVisakhapatnam
Andhra Pradesh
Central
Southern 4 x 500 2000
17°35 ′ 42 ″ N 83°05 ′ 18 ″ E
Neyveli Thermal Power Station - I
NLC Neyveli Cuddalore TamilnaduCentral
Southern
6 x 50, 3 x 100, 2 x 210
102011°35 ′ 34 ″ N 79°28 ′ 17 ″ E
Neyveli Thermal Power Station - II
NLC Neyveli Cuddalore TamilnaduCentral
Southern 7 x 210 1470
11°33 ′ 28 ″ N 79°26 ′ 31 ″ E
JSW EL-SBU-I Power Plant
JSW Vijayanagar Bellary KarnatakaPrivate
Southern 2 x 130 260
15°10 ′ 54 ″ N 76°40 ′ 36 ″ E
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
JSW EL-SBU-II Power Plant
JSW Vijayanagar Bellary KarnatakaPrivate
Southern 2 x 300 600
15°10 ′ 54 ″ N 76°40 ′ 36 ″ E
Udupi Thermal Power Plant
Lanco Nandikoor Udupi KarnatakaPrivate
Southern 1 x 600 600
13°08 ′ 49 ″ N 74°48 ′ 02 ″ E
Neyveli Zero Unit STPS Neyveli Cuddalore Tamilnadu
Private
Southern 1 x 250 250
11°32 ′ 33 ″ N 79°24 ′ 57 ″ E
Southern 20 83 17,372.5
Barauni Thermal Power Station
BSEB Barauni Begusarai Bihar State Eastern2 x 50, 2 x 105 310
25°23 ′ 59 ″ N 86°01 ′ 20 ″ E
Muzafferpur Thermal Power Station
KBUCL Kanti Muzaffarpur Bihar State Eastern 2 x 110 22026°11 ′ 41 ″ N 85°18 ′ 06 ″ E
Patratu Thermal Power Station
JSEB Patratu Ramgarh Jharkhand State Eastern
4 x 40, 2 x 90, 2 x 105, 2 x 110
77023°38 ′ 27 ″ N 85°17 ′ 36 ″ E
Tenughat Thermal Power Station
TVNL Jharkhand State Eastern 2 x 210 42023°43 ′ 38 ″ N 85°45 ′ 53 ″ E
Kolaghat Thermal
WBPDCL Mecheda East Midnapore
West Bengal
State Eastern 6 x 210 1260
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
Power Station
22°25 ′ 00 ″ N 87°52 ′ 15 ″ E
Bakreshwar Thermal Power Station
WBPDCL Suri BirbhumWest Bengal State Eastern 5 x 210 1050
23°49 ′ 43 ″ N 87°27 ′ 06 ″ E
Bandel Thermal Power Station
WBPDCL HooghlyWest Bengal State Eastern
4 x 60, 1 x 210 450
22°59 ′ 44 ″ N 88°24 ′ 13 ″ E
Santaldih Thermal Power Station
WBPDCL PuruliaWest Bengal State Eastern
4 x 120, 1 x 250 730
23°36 ′ 08 ″ N 86°28 ′ 06 ″ E
Sagardigi Thermal Power Station
WBPDCL MonigramMurshidabad
West Bengal State Eastern 2 x 300 600
24°22 ′ 44 ″ N 88°05 ′ 44 ″ E
Durgapur Thermal Power Plant
DPL Durgapur BardhamanWest Bengal State Eastern
2 x 30, 1 x 70, 2 x 75, 1 x 110, 1 x 300
69023°31 ′ 09 ″ N 87°18 ′ 05 ″ E
IB Thermal Power Plant
OPGCL Banharpali Jharsuguda Orissa State Eastern 8 x 120 96021°41 ′ 23 ″ N 83°51 ′ 36 ″ E
Captive Power Plant
NALCO Angul Angul Orissa State Eastern 2 x 210 420
20°51 ′ 11 ″ N 85°1
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
1 ′ 26 ″ E
Kahalgaon Super Thermal Power Station
NTPC Kahalgaon Bhagalpur BiharCentral Eastern
4 x 210, 3 x 500 2340
25°14 ′ 34 ″ N 87°15 ′ 48 ″ E
Bokaro Thermal Power Station B
DVC Bokaro Bokaro JharkhandCentral Eastern 3 x 210 630
23°47 ′ 04 ″ N 85°52 ′ 50 ″ E
Chandrapura Thermal Power Station
DVC Chandrapura
Bokaro Jharkhand Central
Eastern3 x 130, 3 x 120, 2 x 250
1250
Farakka Super Thermal Power Station
NTPC NagarunMurshidabad
West Bengal
Central Eastern
3 x 200, 2 x 500 1600
24°46 ′ 23 ″ N 87°53 ′ 43 ″ E
Durgapur Thermal Power Station
DVC Durgapur BardhamanWest Bengal
Central Eastern
1 x 140, 1 x 210 350
23°31 ′ 59 ″ N 87°15 ′ 00 ″ E
Mejia Thermal Power Station
DVC Durlavpur BankuraWest Bengal
Central Eastern
4 x 210, 2 x 250, 2 x 500
234023°27 ′ 47 ″ N 87°07 ′ 51 ″ E
Talcher Super Thermal Power Station
NTPC Kaniha Angul OrissaCentral Eastern 6 x 500 3000
21°05 ′ 49 ″ N 85°04 ′ 30 ″ E
Talcher Thermal Power Station
NTPC Talcher Angul Orissa Central
Eastern 4x 60, 2 x 110
460
20°54 ′ 41 ″ N
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
85°12 ′ 27 ″ E
Hirakud Power:CPP
Hindalco Industries Hirakud Sambalpur Orissa
Private CPP Eastern
1x 67.5, 3 x 100 367.5
21°47 ′ 08 ″ N 84°03 ′ 18 ″ E
Budge Budge Thermal Power Plant
CESC AchipurSouth 24 Paraganas
West Bengal
Private Eastern 3 x 250 750
22°28 ′ 09 ″ N 88°08 ′ 23 ″ E
Titagarh Thermal Power Station
CESCNorth 24 Paraganas
West Bengal
Private Eastern 4 x 60 240
22°43 ′ 56 ″ N 88°22 ′ 11 ″ E
CESC Southern Generating Station
CESCWest Bengal
Private Eastern 3 x 67.5 135
22°32 ′ 58 ″ N 88°17 ′ 29 ″ E
Jojobera TPP Tata Jojobera Jamshedpur Jharkhand
Private Eastern
3 x 120,1x67.5
427.522°45 ′ 21 ″ N 86°14 ′ 57 ″ E
Jharsuguda TPP Vedanta Jharsuguda Jharsuguda Orisa
Private IPP Eastern 4x600 2400
21°48 ′ 49 ″ N 84°02 ′ 23 ″ E
Vedanta Aluminim CPP
Vedanta Jharsuguda Jharsuguda OrisaPrivate CPP Eastern 9x135 1215
21°47 ′ 08 ″ N 84°03 ′ 18 ″ E
Eastern 22 104 19,015.0
Name Operator Location District StateSecto
r Region UnitsCapacit
y(MW)
Coordinates
Total 102 426 86,397.00
Gas or Liquid Fuel Based
As on June 30, 2011, and as per the Central Electricity Authority the total installed capacity of Gas based power plants in India is 17,706.35 MW.[4] This accounts for 10% of the total installed capacity.GAIL is the main source of fuel for most of these plants. Here is some list of presently operating plants.
Power station Operator Location District State
Sector Region
Unit wise Capacity
Installed
Capacity
(MW)
Plant Coordinat
es
IPGCL Gas Turbine Power Station
IPGCL New Delhi NCT Delhi State Northern
9 x 30 270.00
Pragati Gas Power Station
PPCL New Delhi NCT Delhi StateNorthern
2 x 104.6, 1 x 121.2 330.40
Pragati-III Combined Cycle Power Plant
PPCL New Delhi NCT Delhi StateNorthern 4 x 250 1000.00
Pampore Gas Turbine Station I
J&K Govt Pampore PulwamaJammu & Kashmir State
Northern 3 x 25 75.00
Pampore Gas Turbine Station II
J&K Govt Pampore PulwamaJammu & Kashmir State
Northern 4 x 25 100.00
Ramgarh Gas Thermal Power Station
RVUNL Ramgarh Rajasthan StateNorthern
1 x 3, 1 x 35.5, 1 x 37.5, 1 x 37.8
113.80
Dholpur Combined Cycle Power Station
RVUNLPurani Chaoni Dholpur Rajasthan State
Northern 3 x 110 330.00
26°42 ′ 09 ″ N 77°50 ′ 56 ″ E
Anta Thermal
NTPC Anta Baran Rajasthan Central
Northern
3 x 88, 1 x 149
413.00
25°10 ′ 47 ″
Power station Operator Location District State
Sector Region
Unit wise Capacity
Installed
Capacity
(MW)
Plant Coordinat
es
Power Station
N 76°19 ′ 08 ″ E
Auraiya Thermal Power Station
NTPC Dibiyapur AuraiyaUttar Pradesh
Central
Northern
4 x 110, 2 x 106 652.00
26°37 ′ 50 ″ N 79°39 ′ 41 ″ E
Faridabad Thermal Power Plant
NTPC Mujedi Faridabad HaryanaCentral
Northern
2 x 143, 1 x 144 430.00
28°20 ′ 49 ″ N 77°21 ′ 42 ″ E
National Capital TPP NTPC
Vidyutnagar
Gautam Budh Nagar
Uttar Pradesh
Central
Northern
4 x 131, 2 x 146.5 817.00
28°35 ′ 38 ″ N 77°36 ′ 38 ″ E
Northern 10 45 3,531.20
Dhuvaran Gas Based CCPP-I
GSECL Khambhat Anand Gujarat StateWestern
1 x 67.85, 1 x 38.77 106.62
22°14 ′ 24 ″ N 72°45 ′ 09 ″ E
Dhuvaran Gas Based CCPP-II
GSECL Khambhat Anand Gujarat StateWestern
1 x 72.51, 1 x 39.94 112.45
22°14 ′ 24 ″ N 72°45 ′ 09 ″ E
Utran Gas Based CCPP GSECL Utran Surat Gujarat State
Western
3 x 30, 1 x 45, 1 x 228
363.0021°13 ′ 44 ″ N 72°52 ′ 14 ″ E
Vadodara Gas Based
GIPCL Vadodara Vadodara Gujarat State Western
3 x 32, 1 x 49
145.00
Power station Operator Location District State
Sector Region
Unit wise Capacity
Installed
Capacity
(MW)
Plant Coordinat
es
CCPP-IVadodara Gas Based CCPP-II
GIPCL Vadodara Vadodara Gujarat StateWestern
1 x 111, 1 x 54 165.00
Uran Gas Turbine Power Station
Mahagenco Bokadvira Raigarh
Maharastra State
Western
4 x 108, 2 x 120 672.00
18°52 ′ 55 ″ N 72°58 ′ 13 ″ E
Kawas TPS NTPCAdityanagar Surat Gujarat
Central
Western
4 x 106, 2 x 110.5 645.00
21°10 ′ 33 ″ N 72°41 ′ 14 ″ E
Jhanor-Gandhar TPS
NTPC Urjanagar Bharuch GujaratCentral
Western
3 x 131, 1 x 255 648.00
21°46 ′ 48 ″ N 72°58 ′ 45 ″ E
Goa Gas Power Station
RSPCL Zuarinagar Goa GoaPrivate
Western
1 x 32, 1 x 16 48.00
15°12 ′ 38 ″ N 73°52 ′ 37 ″ E
Vatva Combined Cycle Power Plant
Torrent Vatva Ahamadabad GujaratPrivate
Western
2 x 32.5, 1 x 35 100.00
SUGEN Combined Cycle Power Plant
Torrent Akhakhol Surat GujaratPrivate
Western 3 x 382.5 1147.50
Essar Combined Cycle Power
Essar Hazira Surat Gujarat Private
Western
3 x 110, 1 x 185
515.00
21°06 ′ 39 ″ N 72°3
Power station Operator Location District State
Sector Region
Unit wise Capacity
Installed
Capacity
(MW)
Plant Coordinat
es
Plant 9 ′ 19 ″ E
GSEG Combined Cycle Power Plant
GSEG Hazira Surat GujaratPrivate
Western 3 x 52 156.00
21°09 ′ 57 ″ N 72°42 ′ 16 ″ E
GPEC Combined Cycle Power Plant
GPEC Paguthan Bharuch GujaratPrivate
Western
3 x 135, 1 x 250 655.00
21°46 ′ 49 ″ N 72°58 ′ 46 ″ E
Trombay Gas Power Station
Tata Trombay MumbaiMaharastra
Private
Western
1 x 120, 1 x 60 180.00
19°00 ′ 12 ″ N 72°54 ′ 14 ″ E
Western 15 56 5,892.57
Basin Bridge Gas Turbine Power Station
TNEB Chennai ChennaiTamilnadu State
Southern 4 x 30 120.00
13°05 ′ 55 ″ N 80°16 ′ 10 ″ E
Thirumakottai Gas Turbine Power Station
TNEBThirumakottai Thiruvarur
Tamilnadu State
Southern
1 x 70, 1 x 38.88 108.88 10°32 ′ 29 ″
N 79°27 ′ 1 ″ E
Kuttalam Gas Turbine Power Station
TNEB Maruthur Nagapattinam Tamilnadu
State Southern
1 x 64, 1 x 37
101.00
Valathur Gas Turbine Power Station - I
TNEB Valathur Ramanathapuram
Tamilnadu
State Southern
1 x 61, 1 x 34
95.00
Valathur Gas Turbine
TNEB Valathur Ramanathapuram
Tamilnadu
State Southern
1 x 59.8, 1 x 32.3
92.10
Power station Operator Location District State
Sector Region
Unit wise Capacity
Installed
Capacity
(MW)
Plant Coordinat
es
Power Station - IIKaraikal Gas Turbine Power Station
PPCL Karikal Pondicherry Pondicherry
State Southern
1 x 22.9, 1 x 9.6
32.50
Rajiv Gandhi CCPP
NTPCkayamkulam Alappuzha Kerala
Central
Southern
2 x 115.20, 1 x 129.18
359.5809°14 ′ 19 ″ N 76°25 ′ 49 ″ E
Jegurupadu Combined Cycle Power Plant - I
GVK Jegurupadu E GodavariAndhra Pradesh
Private
Southern
2 x 46, 1 x 49, 1 x 75 216.00
16°55 ′ 54 ″ N 81°51 ′ 36 ″ E
APGPCL Plant - I APGPCL
Vijjeswaram W Godavari
Andhra Pradesh Joint
Southern
2 x 33, 1 x 34 100.00
16°56 ′ 02 ″ N 81°43 ′ 27 ″ E
Kusalava power plant,GMK Formly
Triveni Gollapallem
E Godavari Andhra Pradesh
Private
Southern
2×1.1,1×1 3.2
Spectrum Combined Cycle Power Plant
Spectrum E GodavariAndhra Pradesh
Private
Southern
2 x 46, 1 x 47, 1 x 70 209.00
17°03 ′ 31 ″ N 82°18 ′ 34 ″ E
Gautami Combined Cycle Power Plant
MytasPeddapuram E Godavari
Andhra Pradesh
Private
Southern
2 x 145, 1 x 174 464.00
17°02 ′ 21 ″ N 82°08 ′ 43 ″ E
Konaseema Combined Cycle
KGPL Ravulapalem
E Godavari Andhra Pradesh
Private
Southern
2 x 140, 1 x 165
445.00
16°44 ′ 05 ″
Power station Operator Location District State
Sector Region
Unit wise Capacity
Installed
Capacity
(MW)
Plant Coordinat
es
Power Plant
N 81°51 ′ 44 ″ E
Lanco Kondapalli Power Plant- I
Lanco Kondapalli KrishnaAndhra Pradesh
Private
Southern
2 x 119.57, 1 x 128.99
368.1316°38 ′ 20 ″ N 80°33 ′ 00 ″ E
Lanco Kondapalli Power Plant- II
Lanco Kondapalli KrishnaAndhra Pradesh
Private
Southern
1 x 233, 1 x 133 366.00
16°38 ′ 20 ″ N 80°33 ′ 00 ″ E
Vemagiri Combined Cycle Power Plant
GMR Vemagiri E GodavariAndhra Pradesh
Private
Southern
1 x 137, 1 x 233 370.00
16°55 ′ 29 ″ N 81°48 ′ 46 ″ E
Samarlakota Combined Cycle Power Plant
RelianceSamarlakota E Godavari
Andhra Pradesh
Private
Southern
1 x 140, 1 x 80 220.00
17°02 ′ 19 ″ N 82°08 ′ 05 ″ E
Aban Combined Cycle Power Plant
Lanco Karuppur TanjoreTamil nadu
Private
Southern
1 x 74.41, 1 x 38.80 113.21
11°07 ′ 16 ″ N 79°31 ′ 45 ″ E
Kochi Combined Cycle Power Station
BSES Kochi KeralaPrivate
Southern
8 x 40.50, 1 x 35.5 157.00
PPN Combined Cycle Power Plant
Tamil nadu
Private
Southern
11°04 ′ 31 ″ N 79°5
Power station Operator Location District State
Sector Region
Unit wise Capacity
Installed
Capacity
(MW)
Plant Coordinat
es
0 ′ 43 ″ E
Southern 18 47 4,057.50
Lakwa Thermal Power Station
APGCL Maibella Sivasagar Assam StateN Eastern
4 x 15, 3 x 20, 1 x 37.2(WHRP)
157.226°59 ′ 08 ″ N 94°55 ′ 42 ″ E
Namrup Thermal Power Station
APGCL Dibrugarh Assam StateN Eastern
1 x 20, 2 x 21, 1 x 11, 1 x 24, 1 x 14
111.0027°11 ′ 11 ″ N 95°22 ′ 34 ″ E
N Eastern 2 14 268.2Calcutta Electric Supply Corporation
2000
Total 45 161 13,748.47
Diesel Based
As on July 31, 2010, and as per the Central Electricity Authority the total installed capacity of Diesel based power plants in India is 1,199.75 MW.[4] Normally the diesel based power plants are either operated from remote locations or operated to cater peak load demands. Here is some list of presently operating plants.
Power station
Operator Location
District State
Region
Installed
Capacity
(MW)
Under construc
tion(MW)
Plant Coordin
ates
Ambala Diesel Power Station
Haryana Govt
Haryana
State
Northern
Keylong Diesel Power Station
HP Govt
Himachal Pradesh
State
Northern
1 x 0.13
0.13
Bemina J&K Jammu Stat North 1 x 5 5.00
Power station
Operator Location
District State
Region
Installed
Capacity
(MW)
Under construc
tion(MW)
Plant Coordin
ates
Diesel Power Station
Govt& Kashmir
e ern
Kamah Diesel Power Station
J&K Govt
Jammu & Kashmir
State
Northern
1 x 0.06
0.06
Leh Diesel Power Station
J&K Govt
Jammu & Kashmir
State
Northern
1 x 2.18
2.18
Upper Sindh Diesel Power Station
J&K Govt
Jammu & Kashmir
State
Northern
1 x 1.7 1.70
Northern 6 8 12.99GMR VASAVI Diesel Power Plant
for TNEB
Tamil Nadu
State
Southern 4x50 200
Yelahanka Diesel Power Station
KPCL Yelahanka
Karnataka
State
Southern
6 x 21.32
127.92
Brahmapuram Diesel Power Station
KSEBBrahmapuram Kerala
State
Southern
5 x 21.32 106.60
Kozhikode Diesel Power Station
KSEB Kozhikode
Kerala State
Southern
8 x 16.00
128.00
Southern 3 19 362.52Gangtok Diesel Power Station
Sikkim Govt
Gangtok Sikkim State
Eastern
4.00
Ranipool Sikkim Ranipool Sikkim Stat South 1.00
Power station
Operator Location
District State
Region
Installed
Capacity
(MW)
Under construc
tion(MW)
Plant Coordin
ates
Diesel Power Station
Govt e ern
Eastern 2 5.00Suryachakra Diesel Power Station
SPCL A & N
Andaman & Nicobar
Private
Islands
20
Islands 1 20.00Total 12 27 400.51
RenewableHydroelectric
Srisailam Dam across Krishna River.
Nagarjuna Sagar Dam across Krishna River.
Sardar Sarovar Dam on Narmada River.
Idukki arch dam on Periyar River.See also: National Hydroelectric Power CorporationThis is a list of major hydroelectric power plants in India.
Station State District Operator Generatorunits
Capacity (MW)
Plant Coordinates
Tehri Dam UttarakhandTHDC India Ltd.
4*250, 4*100, 4*250 2400 30°22 ′ 40 ″ N
78°28 ′ 50 ″ E
Srisailam DamAndhra Pradesh APGenco 6 × 150, 7 × 110 1,670 16°05 ′ 13 ″ N
78°53 ′ 50 ″ E
NagarjunasagarAndhra Pradesh APGenco
1 X 110, 7 X 100.8, 5 X 30 965 16°36 ′ N
79°20 ′ E
Sardar Sarovar Gujarat SSNNL 6X200, 5X140 1,450 21°49 ′ 49 ″ N 73°44 ′ 50 ″ E
Baspa-II Himachal Pradesh
JHPL 3 X 100 300
Nathpa JhakriHimachal Pradesh SJVNL 6 X 250 1,500 31°33 ′ 50 ″ N
77°58 ′ 49 ″ E
Bhakra Dam Punjab BBMB 5 X 108, 5 X 157 1,325 31°24 ′ 39 ″ N 76°26 ′ 0 ″ E
Dehar (Pandoh)Himachal Pradesh Mandi BBMB 6 X 165 990 31°24 ′ 47 ″ N
76°52 ′ 06 ″ E
Baira Suil Himachal Pradesh
NHPC 3 X 60 180
Station State District Operator Generatorunits
Capacity (MW)
Plant Coordinates
Chamera-IHimachal Pradesh NHPC 3 X 180 540 32°35 ′ 50 ″ N
75°59 ′ 09 ″ E
Chamera-IIHimachal Pradesh NHPC 3 X 100 300 32°35 ′ 50 ″ N
75°59 ′ 09 ″ E
PongHimachal Pradesh BBMB 6 x 66 396 32°01 ′ N
76°05 ′ E
Uri Hydroelectric Dam
Jammu & Kashmir NHPC 4 X 120 480 34°08 ′ 40 ″ N
74°11 ′ 08 ″ E
Dulhasti Jammu & Kashmir
NHPC 3 X 130 390
SalalJammu & Kashmir NHPC 6 X 115 690 33°8 ′ 26 ″ N
74°48 ′ 27 ″ E
Sharavathi Karnataka KPCL10 X 103.5, 2X27.5, 4X60 1,469 14°17 ′ 56 ″ N
74°25 ′ 27 ″ E
Kalinadi Karnataka KPCL2X50, 1x135, 5X150, 3X50, 3X40
1,240 14°50 ′ 32 ″ N 74°07 ′ 23 ″ E
Linganamakki Dam Karnataka 55 17°7 ′ 18 ″ N 74°53 ′ 31 ″ E
Idukki Kerala KSEB 6 X 130 780 9°51 ′ 01 ″ N 76°58 ′ 01 ″ E
Bansagar DamMadhya Pradesh 425 24°11 ′ 30 ″ N
81°17 ′ 15 ″ E
Bargi DamMadhya Pradesh 105 22°56 ′ 30 ″ N
79°55 ′ 30 ″ E
Station State District Operator Generatorunits
Capacity (MW)
Plant Coordinates
Madikheda DamMadhya Pradesh 60 25°33 ′ 20 ″ N
77°51 ′ 10 ″ E
OmkareshwarMadhya Pradesh NHPC 8 X 65 520 22°05 ′ N
74°54 ′ E
Indira SagarMadhya Pradesh NHPC 8 X 125 1,000 22°17 ′ 02 ″ N
76°28 ′ 17 ″ E
Loktak Manipur NHPC 3 X 35 105 24°33 ′ N 93°47 ′ E
Khuga Dam Manipur 24°18 ′ N 93°9 ′ E
Koyna Maharashtra MahaGenco4X70, 4X80, 2X20, 4X80, 4X250
1,960 17°24 ′ 06 ″ N 73°45 ′ 08 ″ E
Ghatghar Pumped Storage Scheme
Maharashtra MahaGenco 125 X 2 250
Mulshi Dam Maharashtra 6 X 25 150 18°31 ′ 37 ″ N 73°30 ′ 39 ″ E
Jayakwadi Dam Maharashtra 12 19°29 ′ 8.7 ″ N 075°22 ′ 12 ″ E
Rangeet Sikkim NHPC 3 X 20 60
Teesta-V Sikkim NHPC 3 X 170 510 25°30 ′ 50 ″ N 89°39 ′ 56 ″ E
Tanakpur Uttarakhand NHPC 3 X 40 120 27°21 ′ N 81°23 ′ E
Dhauliganga-I Uttarakhand NHPC 4 X 70 280 29°58 ′ N 80°37 ′ E
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Thermal Power PlantinShare1
At present 54.09% or 93918.38 MW (Data Source CEA, as on 31/03/2011) of total electricity production in India is from Coal Based Thermal Power Station. A coal based thermal power plant converts the chemical energy of the coal into electrical energy. This is achieved by raising the steam in the boilers, expanding it through the turbine and coupling the turbines to the generators which converts mechanical energy into electrical energy.
Introductory overviewIn a coal based power plant coal is transported from coal mines to the power plant by railway in wagons or in a merry-go-round system. Coal is unloaded from the wagons to a moving underground conveyor belt. This coal from the mines is of no uniform size. So it is taken to the Crusher house and crushed to a size of 20mm. From the crusher house the coal is either stored in dead storage( generally 40 days coal supply) which serves as coal supply in case of coal supply bottleneck or to the live storage(8 hours coal supply) in the raw coal bunker in the boiler house. Raw coal from the raw coal bunker is supplied to the Coal Mills by a Raw Coal Feeder. The Coal Mills or pulverizer pulverizes the coal to 200 mesh size. The powdered coal from the coal mills is carried to the boiler in coal pipes by high pressure hot air. The pulverized coal air mixture is burnt in the boiler in the combustion zone.Generally in modern boilers tangential firing system is used i.e. the coal nozzles/ guns form tangent to a circle. The temperature in fire ball is of the order of 1300 deg.C. The boiler is a water tube boiler hanging from the top. Water is converted to steam in the boiler and steam is separated from water in the boiler Drum. The saturated steam from the boiler drum is taken to the Low Temperature Superheater, Platen Superheater and Final Superheater respectively for superheating. The superheated steam from the final superheater is taken to the High Pressure Steam Turbine (HPT). In the HPT the steam pressure is utilized to rotate the turbine and the resultant is rotational energy. From the HPT the out coming steam is taken to the Reheater in the boiler to increase its temperature as the steam becomes wet at the HPT outlet. After reheating this steam is
taken to the Intermediate Pressure Turbine (IPT) and then to the Low Pressure Turbine (LPT). The outlet of the LPT is sent to the condenser for condensing back to water by a cooling water system. This condensed water is collected in the Hotwell and is again sent to the boiler in a closed cycle. The rotational energy imparted to the turbine by high pressure steam is converted to electrical energy in the Generator.
Diagram of a typical coal-fired thermal power station
PrincipalCoal based thermal power plant works on the principal of Modified Rankine Cycle.
Components of Coal Fired Thermal Power Station: Coal Preparation
i)Fuel preparation system: In coal-fired power stations, the raw feed coal from the coal storage area is first crushed into small pieces and then conveyed to the coal feed hoppers at the boilers. The coal is next pulverized into a very fine powder, so that coal will undergo complete combustion during combustion process.
** pulverizer is a mechanical device for the grinding of many different types of materials. For example, they are used to pulverize coal for combustion in the steam-generating furnaces of fossil fuel power plants. Types of Pulverisers: Ball and Tube mills; Ring and Ball mills; MPS; Ball mill; Demolition. ii)Dryers: they are used in order to remove the excess moisture from coal mainly wetted during transport. As the presence of moisture will result in fall in efficiency due to incomplete combustion and also result in CO emission. iii)Magnetic separators: coal which is brought may contain iron particles. These iron particles may result in wear and tear. The iron particles may include bolts, nuts wire fish plates etc. so these are unwanted and so are removed with the help of magnetic separators.
The coal we finally get after these above process are transferred to the storage site.Purpose of fuel storage is two –
Fuel storage is insurance from failure of normal operating supplies to arrive. Storage permits some choice of the date of purchase, allowing the purchaser to take
advantage of seasonal market conditions. Storage of coal is primarily a matter of protection against the coal strikes, failure of the transportation system & general coal shortages.
There are two types of storage:
1. Live Storage(boiler room storage): storage from which coal may be withdrawn to supply combustion equipment with little or no remanding is live storage. This storage consists of about 24 to 30 hrs. of coal requirements of the plant and is usually a covered storage in the plant near the boiler furnace. The live storage can be provided with bunkers & coal bins. Bunkers are enough capacity to store the requisite of coal. From bunkers coal is transferred to the boiler grates.
2. Dead storage- stored for future use. Mainly it is for longer period of time, and it is also mandatory to keep a backup of fuel for specified amount of days depending on the reputation of the company and its connectivity.There are many forms of storage some of which are –
1. Stacking the coal in heaps over available open ground areas.2. As in (I). But placed under cover or alternatively in bunkers.3. Allocating special areas & surrounding these with high reinforced concerted
retaking walls. Boiler and auxiliaries
A Boiler or steam generator essentially is a container into which water can be fed and steam can be taken out at desired pressure, temperature and flow. This calls for application of heat on the container. For that the boiler should have a facility to burn a fuel and release the heat. The functions of a boiler thus can be stated as:-
1. To convert chemical energy of the fuel into heat energy2. To transfer this heat energy to water for evaporation as well to steam for superheating.
The basic components of Boiler are: -1. Furnace and Burners2. Steam and Superheating
a. Low temperature superheaterb. Platen superheaterc. Final superheater
EconomiserIt is located below the LPSH in the boiler and above pre heater. It is there to improve the efficiency of boiler by extracting heat from flue gases to heat water and send it to boiler drum.Advantages of Economiser include1) Fuel economy: – used to save fuel and increase overall efficiency of boiler plant.
2) Reducing size of boiler: – as the feed water is preheated in the economiser and enter boiler tube at elevated temperature. The heat transfer area required for evaporation reduced considerably.
Air PreheaterThe heat carried out with the flue gases coming out of economiser are further utilized for preheating the air before supplying to the combustion chamber. It is a necessary equipment for supply of hot air for drying the coal in pulverized fuel systems to facilitate grinding and satisfactory combustion of fuel in the furnace
ReheaterPower plant furnaces may have a reheater section containing tubes heated by hot flue gases outside the tubes. Exhaust steam from the high pressure turbine is rerouted to go inside the reheater tubes to pickup more energy to go drive intermediate or lower pressure turbines.
Steam turbinesSteam turbines have been used predominantly as prime mover in all thermal power stations. The steam turbines are mainly divided into two groups: -
1. Impulse turbine2. Impulse-reaction turbine
The turbine generator consists of a series of steam turbines interconnected to each other and a generator on a common shaft. There is a high pressure turbine at one end, followed by an intermediate pressure turbine, two low pressure turbines, and the generator. The steam at high temperature (536 ‘c to 540 ‘c) and pressure (140 to 170 kg/cm2) is expanded in the turbine.
CondenserThe condenser condenses the steam from the exhaust of the turbine into liquid to allow it to be pumped. If the condenser can be made cooler, the pressure of the exhaust steam is reduced and efficiency of the cycle increases. The functions of a condenser are:-1) To provide lowest economic heat rejection temperature for steam.2) To convert exhaust steam to water for reserve thus saving on feed water requirement.3) To introduce make up water.We normally use surface condenser although there is one direct contact condenser as well. In direct contact type exhaust steam is mixed with directly with D.M cooling water.
Boiler feed pumpBoiler feed pump is a multi stage pump provided for pumping feed water to economiser. BFP is the biggest auxiliary equipment after Boiler and Turbine. It consumes about 4 to 5 % of total electricity generation.
Cooling towerThe cooling tower is a semi-enclosed device for evaporative cooling of water by contact with air. The hot water coming out from the condenser is fed to the tower on the top and allowed to tickle in form of thin sheets or drops. The air flows from bottom of the tower or perpendicular to the direction of water flow and then exhausts to the atmosphere after effective cooling.The cooling towers are of four types: -1. Natural Draft cooling tower2. Forced Draft cooling tower
3. Induced Draft cooling tower4. Balanced Draft cooling tower
Fan or draught systemIn a boiler it is essential to supply a controlled amount of air to the furnace for effective combustion of fuel and to evacuate hot gases formed in the furnace through the various heat transfer area of the boiler. This can be done by using a chimney or mechanical device such as fans which acts as pump.i) Natural draught When the required flow of air and flue gas through a boiler can be obtained by the stack (chimney) alone, the system is called natural draught. When the gas within the stack is hot, its specific weight will be less than the cool air outside; therefore the unit pressure at the base of stack resulting from weight of the column of hot gas within the stack will be less than the column of extreme cool air. The difference in the pressure will cause a flow of gas through opening in base of stack. Also the chimney is form of nozzle, so the pressure at top is very small and gases flow from high pressure to low pressure at the top.
ii) Mechanized draughtThere are 3 types of mechanized draught systems1) Forced draught system2) Induced draught system3) Balanced draught systemForced draught: – In this system a fan called Forced draught fan is installed at the inlet of the boiler. This fan forces the atmospheric air through the boiler furnace and pushes out the hot gases from the furnace through superheater, reheater, economiser and air heater to stacks.Induced draught: – Here a fan called ID fan is provided at the outlet of boiler, that is, just before the chimney. This fan sucks hot gases from the furnace through the superheaters, economiser, reheater and discharges gas into the chimney. This results in the furnace pressure lower than atmosphere and affects the flow of air from outside to the furnace.Balanced draught:-In this system both FD fan and ID fan are provided. The FD fan is utilized to draw control quantity of air from atmosphere and force the same into furnace. The ID fan sucks the product of combustion from furnace and discharges into chimney. The point where draught is zero is called balancing point.
Ash handling systemThe disposal of ash from a large capacity power station is of same importance as ash is produced in large quantities. Ash handling is a major problem.i) Manual handling: While barrows are used for this. The ash is collected directly through the ash outlet door from the boiler into the container from manually.ii) Mechanical handling: Mechanical equipment is used for ash disposal, mainly bucket elevator, belt conveyer. Ash generated is 20% in the form of bottom ash and next 80% through flue gases, so called Fly ash and collected in ESP.
iii) Electrostatic precipitator: From air preheater this flue gases (mixed with ash) goes to ESP. The precipitator has plate banks (A-F) which are insulated from each other between which the flue gases are made to pass. The dust particles are ionized and attracted by charged electrodes. The electrodes are maintained at 60KV.Hammering is done to the plates so that fly ash comes down and collect at the bottom. The fly ash is dry form is used in cement manufacture.
GeneratorGenerator or Alternator is the electrical end of a turbo-generator set. It is generally known as the piece of equipment that converts the mechanical energy of turbine into electricity. The generation of electricity is based on the principle of electromagnetic induction.
Advantages of coal based thermal Power Plant They can respond to rapidly changing loads without difficulty A portion of the steam generated can be used as a process steam in different
industries Steam engines and turbines can work under 25 % of overload continuously Fuel used is cheaper Cheaper in production cost in comparison with that of diesel power stations
Disadvantages of coal based thermal Power Plant Maintenance and operating costs are high Long time required for erection and putting into action A large quantity of water is required Great difficulty experienced in coal handling Presence of troubles due to smoke and heat in the plant Unavailability of good quality coal Maximum of heat energy lost Problem of ash removing
Major Thermal Power Plants in India
Power station
Operator Location District StateSector
Region
Unit wise Capacity
Installed Capacity(MW)
Rajghat Power Station
IPGCL Delhi DelhiNCT Delhi
StateNorthern
2 x 67.5 135.00
Deenbandhu Chhotu Ram Thermal Power Station
HPGCLYamunanagar
Yamunanagar
Haryana StateNorthern
2 x 300 600.00
Panipat Thermal
HPGCL Assan Panipat Haryana State Northern
4 x 110 440.00
Power Station IPanipat Thermal Power Station II
HPGCL Assan Panipat Haryana StateNorthern
2 x 210, 2 x 250
920.00
Faridabad Thermal Power Station
HPGCL Faridabad Faridabad Haryana StateNorthern
1 x 55 55.00
Rajiv Gandhi Thermal Power Station
HPGCL Khedar Hisar Haryana StateNorthern
1 x 600 600.00
Guru Nanak dev TP
PSPCL Bathinda Bathinda Punjab StateNorthern
4 x 110 440.00
Guru Hargobind TP
PSPCLLehra Mohabbat
Bathinda Punjab StateNorthern
2 x 210, 2 x 250
920.00
Guru Gobind Singh Super Thermal Power Plant
PSPCL Ghanauli Rupnagar Punjab StateNorthern
6 x 2101260.00
Suratgarh Super Thermal Power Plant
RVUNL SuratgarhSri Ganganagar
Rajasthan
StateNorthern
6 x 2501500.00
Kota Super Thermal Power Plant
RVUNL Kota KotaRajasthan
StateNorthern
2 x 110, 3 x 210, 2 x 195
1240.00
Giral Lignite Power Plant
RVUNL Thumbli BarmerRajasthan
StateNorthern
2 x 125 250.00
Chhabra Thermal Power Plant
RVUNL Mothipura BaranRajasthan
StateNorthern
2 x 250 500.00
Orba UPRVUNL Obra SonebhadraUttar State Norther1 x 40, 3 1,322.0
Thermal Power Station
Pradesh nx 94, 5 x 200
0
Anpara Thermal Power Station
UPRVUNL Anpara SonebhadraUttar Pradesh
StateNorthern
3 x 210, 2 x 500
1630.00
Panki Thermal Power Station
UPRVUNL Panki KanpurUttar Pradesh
StateNorthern
2 x 105 210.00
Parichha Thermal Power Station
UPRVUNL Parichha JhansiUttar Pradesh
StateNorthern
2 x 110, 2 x 210
640.00
Harduaganj Thermal Power Station
UPRVUNL Harduaganj AligarhUttar Pradesh
StateNorthern
1 x 55, 1 x 60, 1 x 105
220.00
Badarpur Thermal power plant
NTPC Badarpur New DelhiNCT Delhi
Central
Northern
3 x 95, 2 x 210
705.00
Singrauli Super Thermal Power Station
NTPC ShaktinagarSonebhadraUttar Pradesh
Central
Northern
5 x 200, 2 x 500
2000.00
Barsingsar Lignite Power Plant
NLC Barsingsar BikanerRajasthan
Central
Northern
1 x 125 125.00
Rihand Thermal Power Station
NTPCRihand Nagar
SonebhadraUttar Pradesh
Central
Northern
4 x 5002000.00
National Capital Thermal Power Plant
NTPC VidyutnagarGautam Budh Nagar
Uttar Pradesh
Central
Northern
4 x 210, 2 x 490
1820.00
Feroj Gandhi Unchahar Thermal Power
NTPC Unchahar Raebareli Uttar Pradesh
Central
Northern
5 x 210 1050.00
PlantTanda Thermal Power Plant
NTPC VidyutnagarAmbedkar Nagar
Uttar Pradesh
Central
Northern
4 x 110 440.00
Raj west Lignite Power Plant
JSW Barmer BarmerRajasthan
Private
Northern
1 x 135 135.00
VS Lignite Power Plant
KSK Gurha BikanerRajasthan
Private
Northern
1 x 125 125.00
Rosa Thermal Power Plant Stage I
Reliance RosaShahjahanpur
Uttar Pradesh
Private
Northern
2 x 300 600.00
Northern 28 104Ukai Thermal Power Station
GSECL Ukai dam Tapi Gujarat StateWestern
2 x 120, 2 x 200, 1 x 210
850
Gandhinagar Thermal Power Station
GSECLGandhinagar
Gandhinagar
Gujarat StateWestern
2 x 120, 3 x 210
870
Wanakbori Thermal Power Station
GSECL Wanakbori Kheda Gujarat StateWestern
7 x 210 1470
Sikka Thermal Power Station
GSECL Jamnagar Jamnagar Gujarat StateWestern
2 x 120 240
Dhuvaran Thermal Power Station
GSECL Khambhat Anand Gujarat StateWestern
2 x 110 220
Kutch Thermal Power Station
GSECL Panandhro Kutch Gujarat StateWestern
2 x 70, 2 x 75
290
Surat Thermal Power Station
GIPCL Nani Naroli Surat Gujarat StateWestern
4 x 125 500
Akrimota Thermal Power Station
GMDC Chher Nani Kutch Gujarat StateWestern
2 x 125 250
Satpura Thermal Power Station
MPPGCL Sarni BetulMadhya Pradesh
StateWestern
5 x 37.5, 1 x 200, 3 x 210
1017.5
Sanjay Gandhi Thermal Power Station
MPPGCL Birsinghpur UmariaMadhya Pradesh
StateWestern
4 x 210, 1 x 500
1340
Amarkantak Thermal Power Station
MPPGCL Chachai AnuppurMadhya Pradesh
StateWestern
2 x 120, 1 x 210
450
Korba East Thermal Power Plant
CSPGCL KorbaChattisgarh
StateWestern
4 x 50, 2 x 120
440
Dr Shyama Prasad Mukharjee Thermal Power Plant
CSPGCL KorbaChattisgarh
StateWestern
2 x 250 500
Korba West Hasdeo Thermal Power Plant
CSPGCL KorbaChattisgarh
StateWestern
4 x 210 840
Koradi Thermal Power Station
MAHAGENCO
Koradi NagpurMaharastra
StateWestern
4 x 105, 1 x 200, 2 x 210
1040
Nashik Thermal Power Station
MAHAGENCO
Nashik NashikMaharastra
StateWestern
2 x 125, 3 x 210
880
Bhusawal Thermal Power Station
MAHAGENCO
Deepnagar JalgaonMaharastra
StateWestern
1 x 50, 2 x 210
470
Paras MAHAGEN VidyutnagarAkola MaharastState Wester 1 x 55, 2 555
Thermal Power Station
CO ra n x 250
Parli Thermal Power Station
MAHAGENCO
Parli-Vaijnath
BeedMaharastra
StateWestern
2 x 20, 3 x 210, 2 x 250
1170
Kaparkheda Thermal Power Station
MAHAGENCO
KaparkhedaNagpurMaharastra
StateWestern
4 x 210 840
Chandrapur Super Thermal Power Station
MAHAGENCO
ChandrapurChandrapurMaharastra
StateWestern
4 x 210, 3 x 500
2340
Vindhyachal Super Thermal Power Station
NTPCVidhya Nagar
SidhiMadhya Pradesh
Central
Western
6 x 210, 4 x 500
3260
Korba Super Thermal Power Plant
NTPC Jamani PalliKorbaChattisgarh
Central
Western
3 x 200, 3 x 500
2100
Sipat Thermal Power Plant
NTPC Sipat BilaspurChattisgarh
Central
Western
2 x 500 1000
Bhilai Expansion Power Plant
NTPC-SAIL(JV)
Bhilai DurgChattisgarh
Central
Western
2 x 250 500
Sabarmati Thermal Power Station
TorrentAhamadabad
GujaratPrivate
Western
1 x 60, 1 x 120, 2 x 110
400
Mundra Thermal Power Station
Adani Mundra Kutch GujaratPrivate
Western
2 x 330 660
Jindal Megha Power Plant
jindal Tamnar RaigarhChattisgarh
Private
Western
4 x 250 1000
Lanco Amarkantak Power Plant
Lanco Pathadi KorbaChattisgarh
Private
Western
2 x 300 600
Trombay Thermal Power Station
Tata Trombay MumbaiMaharastra
Private
Western
1 x 150, 2 x 500, 1 x 250
1400
Dahanu Thermal Power Station
Reliance Dahanu ThaneMaharastra
Private
Western
2 x 250 500
Wardha Warora Power Station
KSK Warora ChandrapurMaharastra
Private
Western
1 x 135 135
Western 32 135Ramagundam B Thermal Power Station
APGENCORamagundam
KarimnagarAndhra Pradesh
StateSouthern
1 x 62.5 62.5
Kothagudem Thermal Power Station
APGENCO Paloncha KhammamAndhra Pradesh
StateSouthern
4 x 60, 4 x 120
720
Kothagudem Thermal Power Station V Stage
APGENCO Paloncha KhammamAndhra Pradesh
StateSouthern
2 x 250 500
Dr Narla Tatarao TPS
APGENCOIbrahimpatnam
KrishnaAndhra Pradesh
StateSouthern
6 x 210, 1 x 500
1760
Rayalaseema Thermal Power Station
APGENCO Cuddapah YSRAndhra Pradesh
StateSouthern
4 x 210 840
Kakatiya Thermal Power Station
APGENCO Chelpur WarangalAndhra Pradesh
StateSouthern
1 x 500 500
Raichur Thermal Power
KPCL Raichur Raichur Karnataka
State Southern
7 x 210, 1 x 250
1720
StationBellary Thermal Power Station
KPCL Kudatini BellaryKarnataka
StateSouthern
1 x 500 500
North Chennai Thermal Power Station
TNEB Athipattu ThiruvalloreTamilnadu
StateSouthern
3 x 210 630
Ennore Thermal Power Station
TNEB Ennore ChennaiTamilnadu
StateSouthern
2 x 60, 3 x 110
450
Mettur Thermal Power Station
TNEB Metturdam SalemTamilnadu
StateSouthern
4 x 210 840
Tuticorin Thermal Power Station
TNEB Tuticorin TuticorinTamilnadu
StateSouthern
5 x 210 1050
NTPC Ramagundam
NTPCJyothi Nagar
KarimnagarAndhra Pradesh
Central
Southern
3 x 200, 4 x 500
2600
Simhadri Super Thermal Power Plant
NTPC SimhadriVisakhapatnam
Andhra Pradesh
Central
Southern
2 x 500 1000
Neyveli Thermal Power Station – I
NLC Neyveli CuddaloreTamilnadu
Central
Southern
6 x 50, 3 x 100, 2 x 210
1020
Neyveli Thermal Power Station – II
NLC Neyveli CuddaloreTamilnadu
Central
Southern
7 x 210 1470
JSW EL-SBU-I Power Plant
JSW VijayanagarBellaryKarnataka
Private
Southern
2 x 130 260
JSW EL-SBU-II Power Plant
JSW VijayanagarBellaryKarnataka
Private
Southern
2 x 300 600
Udupi Thermal Power Plant
Lanco Nandikoor UdupiKarnataka
Private
Southern
1 x 600 600
Neyveli Zero Unit
STPS Neyveli CuddaloreTamilnadu
Private
Southern
1 x 250 250
Southern 20 83Barauni Thermal Power Station
BSEB Barauni Begusarai Bihar StateEastern
2 x 50, 2 x 105
310
Muzafferpur Thermal Power Station
KBUCL Kanti Muzaffarpur Bihar StateEastern
2 x 110 220
Patratu Thermal Power Station
JSEB PatratuJharkhand
StateEastern
4 x 40, 2 x 90, 2 x 105, 2 x 110
770
Tenughat Thermal Power Station
TVNLJharkhand
StateEastern
2 x 210 420
Kolaghat Thermal Power Station
WBPDCL MechedaEast Midnapore
West Bengal
StateEastern
6 x 210 1260
Bakreshwar Thermal Power Station
WBPDCL Suri BirbhumWest Bengal
StateEastern
5 x 210 1050
Bandel Thermal Power Station
WBPDCL HooghlyWest Bengal
StateEastern
4 x 60, 1 x 210
450
Santaldih Thermal Power Station
WBPDCL PuruliaWest Bengal
StateEastern
4 x 120, 1 x 250
730
Sagardigi Thermal Power Station
WBPDCL MonigramMurshidabad
West Bengal
StateEastern
2 x 300 600
Durgapur Thermal Power
DPL Durgapur Bardhaman West Bengal
State Eastern
2 x 30, 1 x 70, 2 x 75, 1 x
690
Plant110, 1 x 300
IB Thermal Power Plant
OPGCL Banharpali Jharsuguda Orissa StateEastern
8 x 120 960
Captive Power Plant
NALCO Angul Angul Orissa StateEastern
2 x 210 420
Kahalgaon Super Thermal Power Station
NTPC Kahalgaon Bhagalpur BiharCentral
Eastern
4 x 210, 3 x 500
2340
Bokaro Thermal Power Station B
DVC Bokaro BokaroJharkhand
Central
Eastern
3 x 210 630
Chandrapura Thermal Power Station
DVCChandrapura
BokaroJharkhand
Central
Eastern
3 x 130, 3 x 120, 2 x 250
1250
Farakka Super Thermal Power Station
NTPC NagarunMurshidabad
West Bengal
Central
Eastern
3 x 200, 2 x 500
1600
Durgapur Thermal Power Station
DVC Durgapur BardhamanWest Bengal
Central
Eastern
1 x 140, 1 x 210
350
Mejia Thermal Power Station
DVC Durlavpur BankuraWest Bengal
Central
Eastern
4 x 210, 2 x 250
1340
Talcher Super Thermal Power Station
NTPC Kaniha Angul OrissaCentral
Eastern
6 x 500 3000
Talcher Thermal Power Station
NTPC Talcher Angul OrissaCentral
Eastern
4x 60, 2 x 110
460
Budge Budge Thermal
CESC Achipur South 24 Paraganas
West Bengal
Private
Eastern
3 x 250 750
Power PlantTitagarh Thermal Power Station
CESCNorth 24 Paraganas
West Bengal
Private
Eastern
4 x 60 240
CESC Southern Generating Station
CESCWest Bengal
Private
Eastern
3 x 67.5 135
Jojobera TPP
Tata Jojobera JamshedpurJharkhand
Private
Eastern
3 x 120,1×67.5
427.5
Jharsuguda TPP
Vedanta Jharsuguda Jharsuguda OrisaPrivate IPP
Eastern
4×600 2400
Vedanta Aluminim CPP
Vedanta Jharsuguda Jharsuguda OrisaPrivate CPP
Eastern
9×135 1215
Eastern 22 104Total 102 426
Comments (22) Related Posts About SUMIT KUMAR
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#1 written by Mahasvin 1 month ago Hi, This information is very helpful thanks,Is it possible to get list of upcoming thermal power plant within India.?
#2 written by Rajeev 2 months ago Dear Friends,It’s not updated data, Dear team please update the figer of Major Thermal Power Plants in India.
o #3 written by shivanshtyagi 2 months ago
Dear Rajeev, Sure we will do that, in mean time if you have this data or any info related to power sector please share it with us. All the contribution will go out in your name.Share at [email protected]
#4 written by S.kumar 3 months ago dear sumit kumar this information is too good for thermal power station. this is very much helpful for me and i like very much.
o #5 written by SUMIT KUMAR 3 months ago
Thanks sushil. #6 written by R K Jain 3 months ago
Thermal efficiency of a thermal power plant is the ratio of electrical energy generated to the chemical energy of fuel consumed. For a subcritical plant it is below 42% for a new plant. What a plant is generating is the plant utilization factor. For a supercritical power plant the best thermal efficiency may be around 45-47%.
#7 written by Vaaimai 4 months ago Thanks. But I learnt that efficiency of thermal power plants are around 45% – 50%.
o #8 written by shivanshtyagi 4 months ago
That is my bad, yes effieceincy of plant are 45-45% but that is thermal efficiency i.e how much coal energy is converted into the electric power.For thermal power plant there is a factor called Plant load Factor (PLF), so if a plant has installed capacity of 100 and it rums with PLF of 90% it will produce 90MWh of instantaneous power.On an average plf of plants are from 85-90%. Though some plants even run of PLF higher than 100% or say 1.
#9 written by Vaaimai 4 months ago
Thanks again. Do you have any idea of efficiency of nuclear power plants? If a 1000 MW nuclear reactor is installed, what will be the power output?
#10 written by Vaaimai 4 months ago What is the thermal efficiency of a thermal power plant? You said that Neyveli Thermal Power Station – II is producing 1470 MW of power. Whether it produces such amount of electricity or lesser than that? (say 60 % efficiency means 882 MW)
o #11 written by shivanshtyagi 4 months ago
1470 is the installed capacity of the plant.Normally thermal power plants run on around 85-90% efficency.
#12 written by naveen ($onu) 5 months ago one of the most apt and brisk synopsys of a thermal power plant i have ever read. the two diagrams at the start of modified rankine cycle and the plant over view are the highlights. Great work sir. you have proved a valid point again that simple logics are more important than unrequired expertise. i would be very impressed if u could also add on super critical technology and once through boilers which use a seperator rather than the conventional circulation type boilers. also some some point missing are gland steam cooler and also a note on water technology. but all together great work.
o #13 written by shivanshtyagi 5 months ago
Dear Naveen thanks for appreciation and suggestion. Well will you like to add all these suggestions to the site. If you want just send us the word file and the update will be done in your name on the main page.
#14 written by dixitpatel 5 months ago its very good detail………….
#15 written by Tanu Saxena 5 months ago Hey… gr8 info…Bt what is done in the power plants in order to treat flue gases?there is no mention of even any scrubber…do they even operate in any power plant?
#16 written by sruthin 6 months ago heyy gr88 workk sir…it ws realyy informative…spott onnn!!!
#17 written by manish tripathi 11 months ago good
#18 written by Rizwan 1 year ago Very very good bhai, thanx a lot for a huge information.
#19 written by ABDUL JALIL 1 year ago Very nice one.Will you give the e-mail ID of Mr. SUMIT KUMAR please?
o #20 written by SUMIT KUMAR 1 year ago
[email protected], [email protected] #21 written by [email protected] 1 year ago
ntpc rajghat close date is 15 june 2011 Is is true . send the name of company who took the whole scrapt of power plant
o #22 written by SUMIT KUMAR 1 year ago
-The Delhi government is toying with the idea of permanently shutting down the Rajghat power plant close by june this year . The plant was earlier closed during the Commonwealth Games to remove the polluting unit in the heart of the city, and provide to residents a recreational area in its place.-The power station, situated in northeast Delhi, is one of the coal-based power plants of Indraprashta Power Generation Co. Ltd. (IPGCL) and has a generation capacity of 135 MW.-The power plant was commissioned in 1989 and supplied 135 MW. The Delhi State Industrial and Infrastructure Development Corporation (DSIIDC) had been asked to prepare a blueprint for “adaptive reuse”, and the agency presented its proposal in front of Chief Minister Sheila Dikshit and other officials on Wednesday. Dikshit has given in-principle approval to the project, which will require several clearances before it can begin. It will now be presented to the DDA and the DUAC. The project will take about 3 to 4 years to be implemented.-“Cost of the project is close to Rs 600 crore. It will be a self financing project as power plant equipment will be sold off and also the office space developed inside the plant will be rented out. Rajghat power plant is spread over 46 acre and as per the DSIIDC proposal, 26 acre will be turned into a city forest. The ash pond inside the plant will be enlarged and converted into a waterbody. The soil there is contaminated due to ash depositing here over the years so it would be cleaned before work starts.-The existing waterbody, which is used by the power plant, will be retained and redeveloped. The plan is to have the forest and the waterbody close to the Salimgarh Fort so that the area can be developed as a tourist spot. The area where coal handling was done will be converted into a garden and the main building of the plant will be converted into office space. “We will not touch the outer structure or the envelope of the building. The only changes will be in the interior of the building. Also, demolishing the existing structure will cost more than retrofitting it,” said the official. This is the second power plant site that the government is redeveloping – retrofitting of the Indraprastha Power plant is already underway. Its equipment has already been auctioned.
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wind farm in Muppandal, Tamil Nadu.Main article: Wind power in IndiaIndia has the world's fifth largest wind power industry, with an installed wind power capacity of 9,587 MW.India's Largest Wind power production facilities (10MW and greater)[6][7]
Power Plant Producer Location State Total Capacity (MWe)
Vankusawade Wind Park
Suzlon Energy Ltd. Satara Dist. Maharashtra 259
Power Plant Producer Location State Total Capacity (MWe)
Sipla[8] CLP Wind Farms (India) Private Ltd
Jaisalmer Rajasthan 102
Samana[9] CLP Wind Farms (India) Private Ltd
Jamnagar Gujarat 101
Theni[10] CLP Wind Farms (India) Private Ltd
Tamil Nadu 99
Saundatti[11] CLP Wind Farms (India) Private Ltd
Belgaum Karnataka 84
Khandke[12] CLP Wind Farms (India) Private Ltd
Ahmednagar Maharashtra 50
Narmada[13] CLP Wind Farms (India) Private Ltd
Nallakonda Andhra Pradesh
50
Harapanahalli[14] CLP Wind Farms (India) Private Ltd.
Davanagere Karnatka 40
Nuziveedu Seeds NSL Renewable Power Pvt Ltd. Bhimasamudra Karnataka 50.40Kayathar Subhash Subhash Ltd. Kayathar Tamil Nadu 30Ramakkalmedu Subhash Ltd. Ramakkalmedu Kerala 25Muppandal Wind Muppandal Wind Farm Muppandal Tamil Nadu 22Gudimangalam Gudimangalam Wind Farm Gudimangalam Tamil Nadu 21
Puthlur RCI Wescare (India) Ltd. Puthlur Andhra Pradesh
20
Lamda Danida Danida India Ltd. Lamda Gujarat 15
Chennai Mohan Mohan Breweries & Distilleries Ltd.
Chennai Tamil Nadu 15
Jamgudrani MP MP Windfarms Ltd. Dewas Madhya Pradesh
14
Jogmatti BSES BSES Ltd. Chitradurga Dist Karnataka 14Perungudi Newam Newam Power Company Ltd. Perungudi Tamil Nadu 12Kethanur Wind Farm Kethanur Wind Farm Kethanur Tamil Nadu 11
Hyderabad APSRTC Andhra Pradesh State Road Transport Corp.
Hyderabad Andhra Pradesh
10
Muppandal Madras Madras Cements Ltd. Muppandal Tamil Nadu 10Poolavadi Chettinad Chettinad Cement Corp. Ltd. Poolavadi Tamil Nadu 10Shalivahana Wind Shalivahana Green Energy. Ltd. Tirupur Tamil Nadu 20.4
See also[show]Map of all coordinates from Google
Map of first 200 coordinates from Bing
States of India by installed power capacity subdivided by energy source
References1. ̂ ALL INDIA INSTALLED CAPACITY (IN MW) OF POWER STATIONS
2. ̂ Westinghouse, Areva eye India nuclear plants3. ̂ Plants in Operation4. ^ a b c [1]5. ̂ http://articles.economictimes.indiatimes.com/2012-04-02/news/31275383_1_rosa-project-
power-plant-reliance-power6. ̂ "Indian Wind Energy - Projects, Companies, Research, Data, Statistics - Energy Alternatives
India". EAI.in. Retrieved 2010-11-27.7. ̂ http://www.shalivahanagroup.com/8. ̂ CLP Group: Sipla Wind Farm9. ̂ CLP Group: Samana Wind Farm10. ̂ CLP Group: Theni Wind Farm11. ̂ CLP Group: Saundatti Wind Farm12. ̂ CLP Group: Khandke Wind Farm13. ̂ CLP Group: Narmada Wind Farm14. ̂ CLP Group: Harapanahalli Wind Farm
External links List of HE Stations in India with station capacity above 25 MW, as on 31-01-2010
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LIST OF THERMAL POWER PLANTS IN INDIAThermal Power Plants In India List Find the list of major thermal power plants in India. Information on locations of thermal power plants and
SOLAR THERMAL POWER PLANTS IN INDIAThermal Power Plants In India on Solar Power India has a potential solar thermal power production market given its position in earth’s equatorial
THERMAL POWER PLANT LAYOUTLayout of Thermal Power Plants in India Thermal Power Plants are steam driven power plants that convert the coal and other fuel energy to thermal e
Systems and Functions of Thermal Power Plant BoilersIn a thermal power plant, the energy stored in fuels such as coal, natural gas, and fuel oil is sequentially converted into electrical energy. A thermal power plant boiler triggers the first action towards the production of electricity and so is the most important part of a thermal power plant. A thermal power plant boiler has two functions namely the Combustion System and the Water and StInformation on thermal power plants in India which are important to the power sector in India.
Power generation in India depends on various sources such as thermal power, wind power, solar power, hydropower and biogas energy. Thermal power plants in India located in various states supply the majority of power required for the country. Thermal power plants function on different types of fuels and the operation of a thermal power plant depends on the kind of fuel used. Oil, coal and gas are the major fuels used to operate thermal power plants in India. The national and regional level distributions of power from the thermal power plants in India are done through the power grid network. The steam driven thermal power plants in India generally works on coal. The power sector in India is growing since 1950 though there is a gap between the need and supply. Plans for new thermal power plants are in the pipeline to meet the demands and achieve the power generation target.Thermal power plants in India generate electricity from heat energy through the process called Rankine Cycle. The process involves burning coal, gas or oil depending on the fuel. This produce steam of high pressure which rotaries the turbine when sent through it. The turbine runs a generator, producing electricity at the power plants. A thermal power plant converts the chemical energy of fossil fuels like natural gas, fuel oil and coal into thermal energy, then to mechanical energy and finally electrical energy. The electrical energy produced at the thermal power plants in India plays a large role in the industrial sector of the country
There are almost hundred coal fuel operated thermal power plants in India. Most of these thermal power plants in India are run by NTPC and other state owned firms. In addition, there are private owned thermal power plants also. India is rich in coal reserves, which meet the fuel demands of the thermal power plants in India.
Major Thermal Power Plants in India
Super thermal power plants in India are the solutions the government of India found to overcome the power deficit faced by the country during a period. Maharastra stands first in production of thermal power in India and NTPC leads in the thermal power generating sector with total capacity of 24,395 MW. Maharastra has plenty of coal mines encouraging the inception of coal operated thermal power plants. The entire super thermal power plants in India are coal run. Gujarat with many prominent power plants stands second in the power production sector of India.
A number of efficient thermal power plants in India are located in Rajasthan, a state that does not face deficit currently. The state has atomic and thermal power stations and is one of the three states in India that has met power generation target. Kota Super Thermal Power Plant in Rajasthan is the first coal based thermal power plant of the state. This power plant, along with Suratgarh Super Thermal Power Plant are two of the high efficient thermal power plants in India. Chhabra Thermal Power Plant is an important source of electricity in the state. While all other thermal power plants are coal based the Giral Thermal Power Plant in Rajasthan is lignite fired one.
The Ramagundam Power Plant located in Andhra Pradesh is among the largest thermal power plants in India. This coal based power plant also facilitated the power requirements of other states such as Tamil Nadu, Kerala, Goa, Karnataka and Pondicherry.
Korba in Chhattisgarh is called the power capital of the country. The state is blessed with ample coal resources and the Korba Thermal Power Station located here is one of the biggest thermal power plants in India.
Orissa is another state in India with huge cache of coal which boosts power sector of the state. The Talcher Super Thermal Power Plant in Orissa is the second biggest thermal power plant in India.
Madhya Pradesh owns the largest thermal power plant in India known as Vindhyachal Super Thermal Power Station. This coal run thermal power plant takes care of the majority of the power needs of the state.Many major thermal power plants in India are located in the UP. Anpara Thermal Power Station in UP is the tallest power station in the state. The Patratu Thermal Power Station in Bihar is an Indo-Russian joint venture and Barauni Thermal Power Station is one of the biggest in the state, which has plenty of thermal power stations to its credit.
Haryana has the credit of being the first state in India to supply power to its villages. The state has many coal fired thermal power plants and many projects are in the offing.
West Bengal has plenty of coal mines and the state supply coals to other needy states. Coal from the mines of West Bengal powers the thermal power plants in India.
Punjab has many major thermal power plants and Guru Hargobind Thermal Plant with 2 units, is the smallest thermal power plant in the state. While Tamilnadu has four major thermal power plants like North Chennai Thermal Power Plant, Ennore Thermal Power Plant, Mettur Thermal Power Plant and Tuticorin Thermal power Plant, Kerala has one major thermal power plant.
Assam with rich coal resources is home to many defunct thermal power plants in India. Some of the functioning thermal power plants of the state take care of the power requirements of the state.
Thermal Power Plant Operators
The thermal power plants in India are mostly state run, though private and private public partnership projects also exist. NTPC is the major operator of thermal power plants in India. NTPC owns many major thermal power plants in India. In AP, APGENCO, APGPCOR and NTPC run thermal power stations whereas in Maharashtra MSEB, BSES and TATA own many thermal power stations. NTPC also owns thermal power stations in India located in Bihar, Madhya Pradesh, Delhi, Chhattisgarh, Uttar Pradesh and West Bengal.
Contact | NTPC Thermal Power Plants in India | Thermal Power Plants Operation
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The most powerful gas turbine increases efficiency.In El Segundo, California, Siemens is constructing the first two Flex-Plant 10 combined cycle power islands for the U.S. power company NRG Energy. The project offers an environmentally compatible solution that has extremely short startup times and is low on startup emissions and water usage. As soon as the plant goes online in the spring of 2013, it will be able to supply environment-friendly power to as many as 240,000 households.Combined heat and power (CHP) plants are among the most efficient energy production methods, simultaneously converting fuel into both electrical energy and heat, usually in the form of steam and hot water. With a fuel efficiency of more than 90 percent, these plants are perfectly attuned with our energy conservation philosophy.
Clean energy from renewable resources
Siemens is one of America‘s leading providers for energy-efficient wind, solar and hydro power equipment. The company offers high-efficiency, rugged and reliable wind turbines for large-scale onshore and offshore applications as well as floating wind turbines and wind turbines with direct-drive technology. Siemens has wind turbine production facilities in Hutchinson, Kansas, and in Fort Madison, Iowa. The company has established a new research and development center for wind power in Boulder, Colorado. In 2010, Siemens received its largest onshore wind power order to date from MidAmerican Energy: Siemens will deliver 258 wind turbines to wind farms in Iowa which will supply 190,000 U.S. households with clean energy.
The wind farms in Iowa will supply 190,000 U.S. households with clean energy.With more than 25 years of experience in the photovoltaic (PV) market, Siemens is able to meet all PV market needs. Our company offers turnkey solutions that include power grid connections, service, monitoring and maintenance of free-field plants as well as industry roof-mounted plants. We are also the market leader for steam turbines used in solar thermal power plants. Siemens has received orders from BrightSource Energy to supply instrumentation and control systems as well as steam-turbine generators for a solar thermal power plant in Ivanpah, on the California side of the Mojave Desert. They will help reduce the plant’s annual CO2 emissions by more than 400,000 tons.Together with our joint-venture partner Voith, Siemens is the leading supplier of equipment and services for hydro power plants. One-third of the world's hydro power is generated by technologies from Voith Siemens Hydro. Voith Hydro landed four major contracts in June 2008 from power utility American Municipal Power-Ohio (AMP-Ohio) to rebuild a hydro power plant on the Ohio River.
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