Kadamparai Dam Tunnel

April 3, 2018 | Author: Saranya Sri | Category: Physical Universe, Power (Physics), Energy Production, Technology, Energy Technology


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Kadamparai Dam tunnelKadamparai Dam Kadamparai Dam and downhill - Valparai! By 9 in morning we stared to climb down the valparai hills after taking some pictures with our relative’s whom accommodate us throughout the stay and some kind of love, to greet us again. I haven’t ever fascinate with such colorful flowers treated my eyes and sense this much like those in the garden home we stayed. It’s bitter to know the group took control the home next day plucked all the flowers that bloomed and smiled at me to reflect. The flower pictures I shared here are those taken at the garden. With half a mind, I left the place saying bye to twitter sweet birds that welcomes morning, the blowing wind in fragrance of tea and the warm gave sunshine. Sign by boards, I peer along the way around the trees where lion tail monkeys are yet to leap. At last with little disappointment we found the elephants near Shivaji estate – belong to late actor Shivaji Ganeshan, and where a couple roaming far away the hill and later to have a group of elephants below the valley and inside the shrubs. After having cuppa in the waterfalls estate the last tea garden within valparai before climbing down, we turned right near the 20th hairpin bend that head to Kadamparai Dam. The dam was within a distance of 15/20km, and the road lead between teak forest and Tiger valley. We were stopped by a check post and after hardly convincing the old lady, who was in charge, the block was opened and we passed the upper Aliyar and reached the Kadamparai Power house gateway. This was a power house situated at an invisible site inside the hills! It was a 6km tunnel carved in a single rock, with a passage of two Lorries to come and go! Awe… it was interesting to know the main process of this Power house is to recycle the dam water and generate Hydro Electric power. The very special about this was the recycling process. Throughout day the water from Kadamparai dam is open to generate electricity and throughout night, half the current stored are spend to recycle the water from Upper Aliyar to Kadamparai dam. It was like up to down and down to up. and who recommend us to visit sounds awesome about the silence and fearful noise. to experience never before and to a multi theater effect.It was highly restricted and very special permission is needed to go inside the tunnel. As we had some other plan. where the one was Lomes view. From here one get a wonderful . which was few km above from the power house gateway. Those who have went and came. As I have lost the pictures I was covering while climbing up valparai hills. we couldn’t visit the Kadamparai dam. I wish to recapture those scenes and stopped at few places. There are few waterfalls on the way. the water that arrives from Parambikulam dam in Kerala. and from here above the hill were the only place in valparai I saw the Nilgiri Thar. the water that runs through Kerala and into Parambikulam dam is diverted again into Tamil Nadu and what rushes here as falls. If you remember the Sholayar dams. we spent sometime near the dam banks where lot of people where cooking and taking boat ride on the dam. the other with little showers left the children to enjoy. It was a sunny day and as per our plan we head to Thirumoorthi Dam and falls. about 35km from the foot hills. These are some goats. rarely seen on Western Ghats at the least existence. This water is also diverted to Thirumoorthi and Amaravathi Dams. One of the falls was such forceful and drizzle on the road. The place near the falls are much .view of Aliyar Dam and the zigzag dreadful hairpin bends. After having lunch at a small town – Tali. and leaving my parents and other to let shower. By evening we visited the Amaravathi Dam! That could be a separate post soon… By Jeevan • Palani • Kodaikanal KADAMPARAI POWER HOUSE (PUMPED STORAGE SCHEME) • • Source from Kadamapari Reservoir/Upper Aliyar Dam .crowded like a village festival and many busses and cab vehicles enter and exit continually wanted me to get away as soon. 2-26.10.4 Hz and heavy under drawl of UI from central pool.1. Plants Machineries at Power Stations • • • Home Advertise Your Products/ Services Privacy Policy Top of Form GO Bottom of Form .1988 Mode of Operation Generation Mode – The machines will be operated to cater the Peak hour demand for full load . the generation will be depending on the kadamparai storage and the level of Upper Aliyar dam.04.1988 UNIT. Pump Mode: The machines will be operated as pump mode to pump the water from upper Aliyar dam to kadamparai reservoir during night hours on grid frequency above 49.17.12. OF UNIT DATE OF COMMISSIONING KADAMPARAI/.38 /737 Non Irrigation Salient Features LOCATION ELEVATION INSTALLED CAPACITY No.1987 UNIT.16.4.1989 UNIT.12.3. Coimbatore EL 710 4 X 100 = 400 MW 4 UNIT. Hydro Electric Power Plants Hydro Electric Power Projects.02.• • • • Net Capacity at FRL is 940. As per Sushil Shinde. Minister of power. Government of India.40 MW has been harnessed so far. 2010 by admin | 1 Comment » Francis Hydro Turbine There is abundance of Hydro power potential in India.7%. hydro proportion compare to other sources of energy is not going to change in near future. The percentage of Hydro Power capacity in overall energy proportion is merely 24. While government is aiming a large capacity addition during 11th and 12th five year plan.Posts Tagged ‘KADAMPARAI HYDRO ELECTRIC POWER STATION’ LIST OF HYDRO ELECTRIC POWER STATIONS IN INDIA Posted on October 29th. It takes about 10 years for . As CEA only 37328. Development of hydro power resources is important for energy security of the country. 15.09. prepared “Hydro Development Plan for 12th Plan (2012-07)” covering planning of hydro power projects during 11th & 12th Plan period.380 MW nuclear projects has been proposed.627 MW from hydro projects. The construction period of a large hydro project after placement of Letter of Award for the main packages could span 5 years or more.in) the total number of large hydro power station in India is 173 (capacity . during the 11th Plan period a capacity addition of 78. 3.627 MW hydro and 3.2010 (sources: cea. therefore.482 MW in State Sector and 3.693 MW thermal.nic.491 MW in Private Sector. At present by 30. Out of 15. As per the programme approved by the Planning Commission. It is therefore necessary to prepare a long term plan of hydropower development covering at least 10 years period.654 MW has been proposed in Central Sector.developing a large size hydro project from planning to commissioning. Central Electricity Authority (CEA) has. 8.700 MW comprising 59. 00 NO.20 1500.45 3847. List of all hydro power station in India is various capacity is as following: LIST OF HYDRO ELECTRIC POWER STATIONS IN INDIAWITH STATION CAPACITY ABOVE 25 MW REGION/ NO.00 1520.00 37328.00 11294.OF UNITS CAPACITY (MW) 1116.30 3767.00 1000.40 LIST OF HYDRO ELECTRIC POWER STATIONS IN THE COUNTRY WITH STATION CAPACITY ABOVE 25 MW REGION/ SECTOR/ UTILITY/ STATION II SECTOR 1 CENTRAL BBMB NHPC SJVNL THDC NHDC 6 13 1 1 2 8 41 6 4 16 2866.above 25 MW).70 NO.OF UNITS CAPACITY (MW) .25 7392.OF STATIONS NO.OF SECTOR/ UNITS X STATION UTILITY/ SIZE S STATION (MW) I REGION NORTHERN WESTERN SOUTHERN EASTERN EASTERN ALL INDIA (TOTAL) 55 28 66 15 9 173 187 101 237 55 26 606 13678. OF NO. OF UNITS X SIZE (MW) NO. OF UNITS TY (MW)CAPACI TY (MW) 3 STATE ELECTRICITY BOARDS / DEPARTMENTS HPSEB J&KSPDC PSEB RRVUNL UPJVNL UJVNL GSECL SSNNL MPPGCL CSPGC 4 3 8 4 4 10 2 2 8 1 8 14 12 9 25 11 15 34 8 11 23 3 24 55 366.00 875.00 192.20 755.00 300.00 LIST OF HYDRO ELECTRIC POWER STATIONS IN INDIA WITH STATION CAPACITY ABOVE 25 MW REGION/ SECTOR/ UTILITY/ STATION NO.60 1252.00 2406.00 411.15 540. OF NO.00 120.00 1051.OF UNITS X SIZE STATIONS (MW) CAPACITY (MW)CAPACI NO.00 1450.70 - 1 1 1 1 4 1 9 2 3 2 4 15 1 27 86.35 MAHAGENCO APGENCO - .00 11551.00 660.00 1459.DVC NEEPCO SUB TOTAL CENTRAL 2 PRIVATE MPCL JHPL ADHPL JPVL TATA HYDRO DLHP SUB TOTAL - - 2 4 29 5 13 113 143.00 34.00 447.00 3705.00 400.00 501. 00 156.40 LIST OF HYDRO ELECTRIC POWER STATIONS IN INDIA WITH STATION CAPACITY ABOVE 25 MW NO. 1 BHAKRA – L HYDRO ELECTRIC POWER 5*108 STATION BHAKRA – R HYDRO ELECTRIC POWER 5*157 STATION 1 5 540.50 977.O NO.00 2027.N REGION/ SECTOR/ NO.70 37328.65 4 16 1480.40 1881.2 STATION KOTLA HYDRO ELECTRIC POWER STATION SUB TOTAL HYDRO ELECTRIC POWER STATION 1*29.00 24317.M.00 2 1 5 785.20 130.25+2*2 ELECTRIC POWER 1 4. OF Sl.00 396.00 3 GANGUWAL HYDRO 1*29.30 5 6 DEHAR HYDRO ELECTRIC POWER STATION PONG HYDRO 6*165 6*66 1 1 6 6 990.KPCL KSEB TNEB JSEB OHPC WBSEDCL APGCL MPSEB SUB TOTAL ALL INDIA - 14 13 25 2 6 3 1 3 135 173 68 48 66 2 31 11 2 8 466 606 3585.B.25+2*2 1 4.00 100.00 . UTILITY/ STATION STATIONS UNIT (MW) SIZE (MW) S B.65 4 3 77.OF F CAPACITY UNITS X o.B.2 3 77.50 2122. 00 3 3*115 1 3 345.00 7 1 4 480.H.00 .00 4 3*31.30 2 3*115 1 3 345.00 8 4*70 1 4 280.00 6 28 2866.C.00 3092.20 5 3*180 1 3 540.00 10 3*40 1 10 3 32 120.00 6 CHAMERA-II HYDRO ELECTRIC POWER 3*100 STATION URI HYDRO ELECTRIC POWER STATION DHAULIGANGA HYDRO ELECTRIC POWER STATION DULHASTI HYDRO ELECTRIC POWER STATION SEWA-II HYDRO ELECTRIC POWER STATION TOTAL NHPC (NR) 4*120 1 3 300.P.ELECTRIC POWER STATION TOTAL BBMB N.II HYDRO ELECTRIC POWER STATION TANAKPUR HYDRO ELECTRIC POWER STATION CHAMERA-I HYDRO ELECTRIC POWER STATION 3*66 1 3 198.20 SJVNL (NR) 1 NATHPA JHAKRI HYDRO ELECTRIC 6*250 1 6 1500.00 9 3*130 1 3 390.4 1 3 94. (NR) 1 BAIRA SIUL HYDRO ELECTRIC POWER STATION SALAL-I HYDRO ELECTRIC POWER STATION SALAL. 00 18 70 8458.00 4 3*42 1 4 3 12 126.00 . OF UNITS X NO.00 NO.00 366.00 4*250 1 4 1000.OF CAPACITY UNITS (MW) 11 411.50 2 4*15 1 4 60. REGION/ SECTOR/ UTILITY/ STATION TOTAL RRJVUNL UTTAR PRADESH UPJVNL 1 2 RIHAND HYDRO ELECTRIC POWER STATION OBRA HYDRO ELECTRIC POWER 6*50 3*33 1 1 6 3 300.OF SIZE STATIONS (MW) 4 NO.POWER STATION THDC (NR) 1 TEHRI HYDRO ELECTRIC POWER STATION TOTAL CENTRAL NR HIMACHAL PRADESH HPSEB 1 GIRI BATA HYDRO ELECTRIC POWER STATION BASSI HYDRO ELECTRIC POWER STATION SANJAY HYDRO ELECTRIC POWER STATION LARGI HYDRO ELECTRIC POWER STATION TOTAL HPSEB 2*30 1 2 60.No.00 LIST OF HYDRO ELECTRIC POWER STATIONS IN INDIA WITH STATION CAPACITY ABOVE 25 MW Sl.00 99.00 3 3*40 1 3 120. 60 2 3*17 1 3 51.8 1 3 90.00 4 4*60 1 4 240.75 3*10.00 9 10 1 1 4 3 304.60 4 3*24 1 4 3 15 72.-I HYDRO ELECTRIC 3*30 POWER STATION MANERIBHALI STAGE-II HYDRO ELECTRIC 4*76 POWER STATION KHATIMA HYDRO 3*13.00 6 3*66 1 3 198.00 5 4*30 1 4 120.00 3 3*10 1 3 30.00 501.2 1 3 30.00 7 4*36 1 4 144.00 8 MANERIBHALI (THILOT) ST.STATION 3 MATATILLA HYDRO ELECTRIC POWER STATION KHARA HYDRO ELECTRIC POWER STATION TOTAL UPJVNL UTTRANCHAL UJVNL 1 DHAKRANI HYDRO ELECTRIC POWER STATION DHALIPUR HYDRO ELECTRIC POWER STATION KULHAL HYDRO ELECTRIC POWER STATION CHIBRO HYDRO ELECTRIC POWER STATION KHODRI HYDRO ELECTRIC POWER STATION RAMGANGA HYDRO ELECTRIC POWER STATION CHILLA HYDRO ELECTRIC POWER STATION 3*11.25 1 3 33.00 41.40 . 00 400.00 240.) 1 VISHNUPRAYAG TOTAL JPPVL TOTAL UTTRANCHAL TOTAL NORTHERN REGION WESTERN REGION GUJARAT GSECL 1 2 UKAI KADANA (PSS) TOTAL GSECL 4*75 4*60 1 1 2 4 4 8 300.00 1652.ELECTRIC POWER STATION TOTAL UJVNL 10 34 1252.15 13678.00 540. (PVT.25 LIST OF HYDRO ELECTRIC POWER STATIONS IN INDIA WITH STATION CAPACITY ABOVE 25 MW .00 4*100 1 1 11 55 4 4 38 187 400.15 JAIPRAKASH POWER VENTURE LTD. 00 2 3 4 2*45 2*80 1 1 1 2 2 3 30.00 8 1000.00 315.00 90.O F CAPACITY UNIT (MW) S 1 5*50 1 5 250.00 BAN SAGAR TONS – I HYDRO ELECTRIC 3*105 POWER STATION BANSAGAR TONS-II HYDRO ELECTRIC 2*15 5 1 2 .No REGION/ SECTOR/ UNITS X NO.00 160.OF .00 1520. UTILITY/ STATION SIZE STATIONS (MW) SSNNL SARDAR SAROVARCHPH HYDRO ELECTRIC POWER STATION SARDAR SAROVARRBPH HYDRO ELECTRIC POWER STATION TOTAL SSNNL TOTAL GUJARAT MADHYA PRADESH CENTRAL/ JOINT NHDC 1 INDIRA SAGAR HYDRO ELECTRIC POWER STATION OMKARESHWAR HYDRO ELECTRIC POWER STATION TOTAL NHDC MPGPCL 1 GANDHI SAGAR HYDRO ELECTRIC POWER STATION BARGI HYDRO ELECTRIC POWER STATION PENCH 5*23 1 8*125 1 NO.NO.00 2 6*200 1 6 1200.00 1990.00 2 4 11 19 1450. OF Sl.00 5 115.00 2 8*65 1 2 8 16 520. LIST OF HYDRO ELECTRIC POWER STATIONS IN INDIA WITH STATION CAPACITY ABOVE 25 MW REGION/ Sl. OF UNITS NO.00 2 1 5 75.00 6 1 2 80.) 1 BHIRA HYDRO ELECTRIC POWER 6*25 STATION BHIVPURI HYDRO ELECTRIC POWER 3*24+2*1.00 8 1 2 250.00 4 1 2 36.N SECTOR/ O.00 5 1 1 60.5 STATION KHOPOLI HYDRO ELECTRIC POWER 3*24 STATION 1 6 150.00 7 1 1 60.OF NO.00 .00 3 1 4 1000.00 3 1 3 72.00 TATA POWER COMPANY (PVT.OF CAPACITY STATION X SIZE (MW) UNITS (MW) S KOYNA III HYDRO ELECTRIC POWER 4*80 STATION KOYNA IV HYDRO ELECTRIC POWER 4*250 STATION KOYNA DPH HYDRO ELECTRIC 2*18 POWER STATION VAITARNA HYDRO ELECTRIC POWER 1*60 STATION BIRA TAIL RACE HYDRO ELECTRIC 2*40 POWER STATION TILLARI HYDRO ELECTRIC POWER 1*60 STATION GHATGHAR PSS HYDRO ELECTRIC 2*125 POWER STATION SUB TOTAL MAHANGENCO 1 4 320. UTILITY/ STATION 2 NO.00 8 24 2406. 25 POWER STATION UPPER SILERU ST-I HYDRO ELECTRIC 2*60 POWER STATION UPPER SILERU STII HYDRO 2*60 ELECTRIC POWER STATION LOWER SILERU HYDRO ELECTRIC 4*115 POWER STATION T.DAM HYDRO ELECTRIC POWER 4*9 STATION HAMPI HYDRO ELECTRIC POWER 4*9 STATION 1 6 114.00 .00 4 1 4 460.00 5 1 4 36.00 6 1 4 36. (DLHP) BANDHARDHARA – II HYDRO 1*34 ELECTRIC POWER STATION TOTAL DLHP (PVT) TOTAL MAHARASHTRA TOTAL WESTERN REGION SOUTHERN REGION ANDHRA PRADESH APGENCO 1 MACHKUND HYDRO ELECTRIC 3*17+3*21.00 7392.75 1 1 1 34.00 2887.00 3 1 2 120.B.00 DODSON-LINDBLOM HYDRO POWER PVT.00 1 13 28 1 40 101 34.4 BHIRA PSS HYDRO ELECTRIC POWER 1*150 STATION SUB TOTAL TATA HYDRO 1 1 150. LTD.00 4 15 447.00 2 1 2 120. OF UNITS X NO. 1 SHARAVATHY HYDRO ELECTRIC POWER STATION 10*103. UTILITY/ STATION SIZE (MW) STATIONS UNITS TOTAL ANDHRA PRADESH KARNATAKA KARNATAKA POWER CORPORATION LTD.OF o.00 14 55 3705.7 N.SAGAR HYDRO ELECTRIC POWER 1*110+7*100.00 11 1 2 30.35 .8 1 STATION SRISAILAM HYDRO ELECTRIC POWER 7*110 STATION N. HYDRO 1*30 ELECTRIC POWER STATION N.J.00 14 1 4 156.J.00 12 1 3 60.J.00 10 1 1 60.60 9 1 2 770.00 13 1 6 900.5 1 10 1035.SAGAR RBC EXT.J.SAGAR LBC HYDRO ELECTRIC 2*30 POWER STATION POCHAMPAD HYDRO ELECTRIC 3*9 POWER STATION POCHAMPAD HYDRO ELECTRIC 6*150 POWER STATION PRIYDARSHNI JURALA HYDRO 4*39 ELECTRIC POWER STATION TOTAL APGENCO 1 8 36.35 LIST OF HYDRO ELECTRIC POWER STATIONS IN INDIA WITH STATION CAPACITY ABOVE 25 MW Sl.SAGAR RBC HYDRO ELECTRIC 2*30 POWER STATION N.N REGION/ SECTOR/ NO.OF NO.00 14 55 CAPACITY (MW) 3705.00 8 7 815. 6 1 8 139.00 11 1 6 290.2 LINGNAMAKKI HYDRO ELECTRIC POWER STATION BADHRA HYDRO ELECTRIC POWER STATION KALINAD HYDRO ELECTRIC POWER STATION 2*27.00 12 4*13.20 4 3*135+3*150 1 6 855.00 10 SHARAVATHY TAIL RACE HYDRO 4*60 ELECTRIC POWER STATION ALMATTI DAM HYDRO ELECTRIC POWER STATION JOG HYDRO ELECTRIC POWER STATION SIVASAMUDRAM HYDRO ELECTRIC POWER STATION MUNIRABAD HYDRO ELECTRIC 1*15+5*55 1 4 240.5 1 2 55.2+4*21.00 28.00 9 3*40 1 3 120.00 7 2*16 1 2 32.20 13 14 6*3+4*6 2*9+1*10 1 1 10 3 42.00 .00 8 3*50 1 3 150.00 6 1 4 460.00 3 1*2+2*12+1*7.20 1 +1*6 5 39.00 5 SUPA DPH HYDRO ELECTRIC POWER 2*50 STATION VARAHI HYDRO ELECTRIC POWER STATION GHATPRABHA HYDRO ELECTRIC POWER STATION KADRA HYDRO ELECTRIC POWER STATION KODASALI HYDRO ELECTRIC POWER STATION 4*115 1 2 100. 00 3 3*25+1*50 1 4 125.00 4 2*50 1 2 100. EXTN. HYDRO ELECTRIC POWER STATION KUTTIYADI ADDN.5 STATION PORINGALKUTTU HYDRO ELECTRIC POWER STATION PANNIAR HYDRO ELECTRIC POWER STATION 4*8 1 6 37.50 9 1 4 32.40 3585.00 14 14 68 68 3585. HYDRO ELECTRIC POWER STATION 1 6 300.00 10 2*15 1 2 30.00 5 SHOLAYAR HYDRO ELECTRIC POWER 3*18 STATION SENGULAM HYDRO ELECTRIC POWER 4*12 STATION NARIAMANGLAM HYDRO ELECTRIC POWER STATION 3*15+1*25 1 3 54. EXTN.POWER STATION TOTAL KPCL TOTAL KARNATKA KERALA KSEB 1 IDUKKI HYDRO ELECTRIC POWER STATION 6*130 1 6 780.00 7 1 4 70.40 2 SABARIGIRI HYDRO ELECTRIC POWER 6*50 STATION KUTTIYADI & K.00 8 PALLIVASAL HYDRO ELECTRIC POWER 3*5+3*7.00 .00 6 1 4 48. 00 4 1 2 100.5 1 2 75.III HYDRO ELECTRIC POWER 3*60 STATION KUNDAH.No REGION/ SECTOR/ NO..50 LIST OF HYDRO ELECTRIC POWER STATIONS IN INDIA WITH STATION CAPACITY ABOVE 25 MW NO.I HYDRO ELECTRIC POWER 3*20 STATION KUNDAH. OF Sl.00 13 2*25 1 13 13 2 48 48 50.OF UNITS X SIZE .00 7 1 4 50.5 1 3 60.00 3 1 3 180. UTILITY/ STATION STATIONS (MW) TNEB 1 KUNDAH.00 1881.00 12 3*60 1 3 180.VI ) HYDRO 1*30 ELECTRIC POWER STATION METTUR DAM HYDRO ELECTRIC 4*12.IV HYDRO ELECTRIC POWER 2*50 STATION KUNDAH-V HYDRO ELECTRIC POWER 2*20 STATION PARSON’S VALLEY ( K.II HYDRO ELECTRIC POWER 5*35 STATION KUNDAH.11 IDAMALAYAR HYDRO ELECTRIC POWER STATION LOWER PERIYAR HYDRO ELECTRIC POWER STATION KAKKAD HYDRO ELECTRIC POWER STATION TOTAL KSEB TOTAL KERALA 2*37.50 1881.00 6 1 1 30.00 NO.OF UNITS CAPACITY (MW) 2 1 5 175.00 5 1 2 40.00 . 00 12 1 3 95.00 .00 30.00 9 4*35 1 4 140.00 11 1 1 40.I HYDRO ELECTRIC POWER 1*60 STATION KODAYAR.00 17 1 3 36.II HYDRO ELECTRIC POWER 1*40 STATION SHOLAYAR HYDRO ELECTRIC POWER 2*35+1*25 STATION PYKARA HYDRO ELECTRIC POWER STATION ALIYAR HYDRO ELECTRIC POWER STATION SARKARPATHY HYDRO ELECTRIC POWER STATION 1 1 60.00 10 KODAYAR.00 13 3*7+1*11+2* 1 13.PH-2 HYDRO 2*15 ELECTRIC POWER 1 1 35.20 14 1*60 1 1 60.00 18 SURULIYAR HYDRO ELECTRIC POWER 1*35 STATION L.MET.MET.00 15 1*30 1 1 30.POWER STATION 8 METTUR TUNNEL HYDRO ELECTRIC POWER STATION PERIYAR HYDRO ELECTRIC POWER STATION 4*50 1 4 200.6 6 59.00 16 PAPANASAM HYDRO ELECTRIC POWER 4*8 STATION MOYAR HYDRO ELECTRIC POWER STATION 3*12 1 4 32.PH-1 HYDRO ELECTRIC POWER 2*15 STATION L.00 19 20 1 1 2 2 30. 2 1 2*40 1 3 2 63.20 80.MET.20 11294.00 23 1 4 400.00 2 SUBERNREKHA – II HYDRO ELECTRIC 1*65 POWER STATION TOTAL JSEB 1 2 1 2 65.00 24 PYKARA ULTIMATE HYDRO ELECTRIC 3*50 POWER STATION BHAVANI BARRAGE – I HYDRO 2*15 ELECTRIC POWER STATION TOTAL TNEB TOTAL SOUTHERN REGION 1 3 150.PH-4 HYDRO ELECTRIC POWER 2*15 STATION KADAMPARAI HYDRO ELECTRIC POWER STATION 4*100 1 2 30.HYDRO ELECTRIC POWER 2*20+1*23.00 130.00 22 1 2 30.PH-3 HYDRO ELECTRIC POWER 2*15 STATION L.00 .45 EASTERN REGION JHARKHAND JSEB 1 SUBERNREKHA – I HYDRO ELECTRIC POWER STATION 1*65 1 1 65.V.MET.00 25 66 66 237 2122.STATION 21 L.00 D.00 25 1 2 30.C MAITHON HYDRO ELECTRIC POWER STATION PANCHET & EXTN. 00 .50 2 HIRAKUD – II (CHIPLIMA) HYDRO 3*24 ELECTRIC POWER STATION BALIMELA HYDRO ELECTRIC POWER STATION RENGALI HYDRO ELECTRIC POWER STATION UPPER KOLAB HYDRO ELECTRIC POWER STATION UPPER INDRAVATI HYDRO ELECTRIC POWER STATION TOTAL OHPC 6*60+2*75 1 3 72.00 3 1 8 510. OF UNITS NO.N REGION/ SECTOR/ NO.00 2 RAMMAM-II HYDRO ELECTRIC POWER 4*12.OF o. UTILITY/ STATION X SIZE (MW) STATIONS UNITS ORISSA OHPC HIRAKUD – I (BURLA) HYDRO ELECTRIC POWER STATION 2*49.20 LIST OF HYDRO ELECTRIC POWER STATIONS IN INDIA WITH STATION CAPACITY ABOVE 25 MW Sl.50 WEST BENGAL WBSEDCL 1 JALDHAKA – I HYDRO ELECTRIC POWER STATION 3*9 1 3 27.00 5 4*80 1 4 320.00 2027.OF NO.5+2*32+3* 1 37.STATION TOTAL DVC 2 5 143.5 STATION 1 4 50.5 CAPACITY (MW) 1 7 275.00 6 4*150 1 6 4 31 600.00 4 5*50 1 5 250. OF NO.00 570.70 1 KYRDEMKULAI HYDRO ELECTRIC POWER STATION 2*30 1 2 60.00 2 UMIAM ST-I HYDRO ELECTRIC POWER 4*9 STATION UMIAM ST.00 156.00 3847.00 977.00 3 1 3 2 8 60.00 SIKKIM NHPC (ER) 1 RANGIT-III HYDRO ELECTRIC POWER STATION TEESTA HYDRO ELECTRIC POWER STATION TOTAL NHPC TOTAL EASTERN REGION NORTH EASTERN REGION ASSAM APGCL 1 KARBI LANGPI HYDRO ELECTRIC POWER STATION 2*50 1 2 100.OF CAPACITY .OF NO.00 NEEPCO LIST OFHYDRO ELECTRIC POWER STATIONS IN INDIA WITH STATION CAPACITY ABOVE 25 MW Sl.N REGION/ SECTOR/ NO.3 PURULIA PSS HYDRO ELECTRIC POWER STATION TOTAL WBSEDC 4*225 1 3 4 11 900.00 3*20 1 3 60.00 2 3*170 1 2 15 3 6 55 510.IV HYDRO ELECTRIC POWER STATION TOTAL MeSEB 2*30 1 4 36. 00 NHPC (NER) 1 LOKTAK HYDRO ELECTRIC POWER STATION SUB TOTAL NHPC (NER) SUB TOTAL CENTRAL (NER) TOTAL NER TOTAL ALL INDIA 3*35 1 3 105.00 4 RANGANADI HYDRO ELECTRIC POWER 3*135 STATION TOTAL NEEPCO 1 4 3 13 405. (4) I. (3) I.C.00 2 1 4 200.40 Note:. 1 to 4 uprated from 4×7 MW to . from 297.2009 i.o.00 3 3*25 1 3 75. I.50 MW to 275.e.CEA/PLG/DMLF/545/2009/1119-1120 dt 10.50 MW. of Hirakud-I corrected vide letter no.C. (2) Uprated/ derated Capacities of units have been incorporated.00 755. of Papanasam HEP Unit No.(1) Station capacity upto 25 MW not included. UTILITY/ STATION UNITS X SIZE (MW) STATIONS UNITS (MW) 1 KHANDONG HYDRO ELECTRIC POWER 3*25 STATION KOPILI HYDRO ELECTRIC POWER STATION DOYANG HYDRO ELECTRIC POWER STATION 4*50 1 3 75.12.00 37328.00 1 5 9 173 3 16 26 606 105.00 860.C.00 1116. CEA/PLG/DMLF/545/2010 dt 02.5 MW vide letter no.08.2010 Hydro Power Blog Grab RSS Feed Now Autho r of this blog is an Profes sional Hydro Power Engine .4×8 MW and Mettur DPH Unit No 1 to 4 from 4×10 MW to 12. If this blog was interes ting to you and helped you someh .er of vast experi ence in constr uction of Hydro Electri c Power Projec ts. please spare few second and leave your comm ents. 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It would be highly apprec iable. com If you want to share you articles and white papers on renewable energy with our vast community of visitors and users .on Hydro power station . please submit your work at hydropower stations@g mail.com • Recent Posts ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ hydro pOWER plants : Worldwide latest news you can use Hydro Power Stations : Worldwide news MODELING AND SIMULATION OF SYNCHRONOUS MACHINES USING ADAPTIVE NETWORK BASED FUZZY INFERENCE SYSTEMS PART-3 MODELING AND SIMULATION OF SYNCHRONOUS MACHINES USING ADAPTIVE NETWORK BASED FUZZY INFERENCE SYSTEMS PART-2 MODELING AND SIMULATION OF SYNCHRONOUS MACHINES USING ADAPTIVE NETWORK BASED FUZZY INFERENCE SYSTEMS PART-1 salient features of BOKANG BALING Hydro electric PROJECT (3x110mw) SALIENT FEATURES OF HUMBARLI PSS ( SALIENT FEATURES OF GOHAN TAL HYDRO POWER PROJECT (2X30 MW) Salient features of BUNAKHA Hydro power PROJECT (3×60 MW) Operation of Synchronous Generator PART-3 Operation of Synchronous Generator PART-2 • Recent Comments . ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ launch x431 diagun on History of Pancheshwar Dam pozycjonowanie on Comparision and differences of Synchronous and Asynchronous generators characterstics pozycjonowanie on CHARACTERISTICS OF HYDRO Projects PROJECTS Elisha on India is Sunshining : Solar Project Worth of 20.000 Crore is Waiting for Government Approval pozycjonowanie on A brief summary of Nathpa Jhakri Hydro Power Plant (1500 MW) Frederic Klavuhn on Pioneering the Hydropower Development – Financing of Hydro Power stations wedding flowers victoria bc on What is Capacity charges in Power sector? sklepy internetowe on What is cavitation in a hydro power turbine? April 2011 March 2011 February 2011 January 2011 December 2010 November 2010 October 2010 September 2010 August 2010 July 2010 June 2010 May 2010 April 2010 March 2010 February 2010 January 2010 December 2009 Enegery Sector Hydro Power Plants hydro power policy Nuclear Power Renewable Energy Sector thermal power Uncategorized Investing In power Sector • Archives • Categories • Blogroll . Green represents power consumedg in pumping. y ○ Themes P o ©2008 Hydro Electric Power Plants • Entries (RSS) • Comments (RSS) • Powered by WordPress. search (Redirected from Pumped-storage hydroelectric) Pumped storage hydroelectricity is a method of storing and producing electricity . the free encyclopedia a l Jump to: navigation.Diagram of the TVA pumped storage facility at Raccoon Mountain Pumped-Storage Plant E n e r Power spectrum of a pumped-storage hydroelectricity. red is power generated. • Designed by Free WordPress Themes. r Pumped-storage hydroelectricity t From Wikipedia. Plants that do not use pumped-storage are referred to as conventional hydroelectric plants. excess generation capacity is used to pump water into the higher reservoir. but many use the height difference between two natural bodies of water or artificial reservoirs. Some facilities use abandoned mines as the lower reservoir.to supply high peak demands by moving water between reservoirs at different elevations. water is released back into the lower reservoir through a turbine. conventional hydroelectric plants that have significant storage capacity may be able to play a similar role in the . but combined pumpstorage plants also generate their own electricity like conventional hydroelectric plants through natural stream-flow. When there is higher demand. Pure pumped-storage plants just shift the water between reservoirs. generating electricity. At times of low electrical demand. Reversible turbine/generator assemblies act as pump and turbine (usually a Francis turbine design). The technique is currently the most cost-effective means of storing large amounts of electrical energy on an operating basis. For example. Taking into account evaporation losses from the exposed water surface and conversion losses. The relatively low energy density of pumped storage systems requires either a very large body of water or a large variation in height. The only way to store a significant amount of energy is by having a large body of water located on a hill relatively near. a second body of water. but as high as possible above. but capital costs and the presence of appropriate geography are critical decision factors.272 kW·h.electrical grid as pumped storage. approximately 70% to 85% of the electrical energy used to pump the water into the elevated reservoir can be regained. 1000 kilograms of water (1 cubic meter) at the top of a 100 meter tower has a potential energy of about 0. In some . by deferring output until needed. Thermal plants are much less able to respond to sudden changes in electrical demand. while reducing the need for "peaking" power plants that use costly fuels. like other hydroelectric plants. in others one or both bodies of water have been man-made. potentially causing frequency and voltage instability. pumped storage systems help control electrical network frequency and provide reserve generation.places this occurs naturally. This system may be economical because it flattens out load variations on the power grid. Capital costs for purpose-built hydrostorage are high. . however. permitting thermal power stations such as coal-fired plants and nuclear power plants that provide base-load electricity to continue operating at peak efficiency (Base load power plants). Along with energy management. can respond to load changes within seconds. Pumped storage plants. The latest in large-scale engineering technology are variable speed machines for greater efficiency. These machines generate in synchronisation with the network frequency. The size of the dam can be judged from the car parked below. In the 1930s reversible hydroelectric turbines became available. These turbines could operate as both turbine-generators and in reverse as electric motor driven pumps. but operate asynchronously .The upper reservoir (Llyn Stwlan) and dam of the Ffestiniog Pumped Storage Scheme in north Wales. The lower power station has four water turbines which generate 360 MW of electricity within 60 seconds of the need arising. The first use of pumped storage was in the 1890s in Italy and Switzerland. A new use for pumped storage is to level the fluctuating output of intermittent power sources.5% of baseload generating capacity. It is particularly likely that pumped storage will become especially important as a balance for very large scale photovoltaic generation. accounting for 2. although at present this is rarely due to wind alone. increased wind generation may increase the likelihood of such occurrences.5 GWh of energy[2] because more energy is consumed in pumping than is generated. indicating there is more generation than load available to absorb it. [1] In 2000 the United States had 19. The pumped storage absorbs load at times of high output and low demand. while providing additional peak capacity. 2006). PHS generated (net) -5.5 GW of pumped storage capacity. electricity prices may be close to zero or occasionally negative (Ontario in early September. losses occur . In certain jurisdictions.(independent of the network frequency) as motor-pumps. electric turbine/pump efficiency. and friction.5% of total electrical capacity in the EU. in effect an 'Energy Storing Wind Dam'. Saturated brine is about 20% more dense than fresh water.due to water evaporation. This could provide a more efficient process and usefully smooth out the variabilities of energy captured from the wind. In 1999 the EU had 32 GW capacity of pumped storage out of a total of 188 GW of hydropower and representing 5. although ongoing and unwanted dissolution of salt could be a problem. Salt mines could be used. underground systems could greatly expand the number of pumped storage sites. If they prove affordable. A new concept in pumped storage is to utilise wind turbines to drive water pumps directly. . The use of underground reservoirs as lower dams has been investigated.
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