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WORKSHOP OF BIMSTEC COUNTRIES ON SHARING OF EXPERIENCES IN DEVELOPING HYDRO PROJECTS

WORKSHOP OF BIMSTEC COUNTRIES ON SHARING OF EXPERIENCES IN DEVELOPING HYDRO PROJECTS COUNTRY PAPER-INDIA. INDIA AT A GLANCE. POWER SCENARIO IN INDIA. ORGANISATIONAL SET UP OF INDIAN POWER SECTOR. MINISTRY OF POWER CENTRAL ELECTRICITY AUTHORITY (CEA) .

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WORKSHOP OF BIMSTEC COUNTRIES ON SHARING OF EXPERIENCES IN DEVELOPING HYDRO PROJECTS

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  1. WORKSHOP OF BIMSTEC COUNTRIES ON SHARING OF EXPERIENCES IN DEVELOPING HYDRO PROJECTS COUNTRY PAPER-INDIA

  2. INDIA AT A GLANCE

  3. POWER SCENARIO IN INDIA

  4. ORGANISATIONAL SET UP OF INDIAN POWER SECTOR MINISTRY OF POWER CENTRAL ELECTRICITY AUTHORITY (CEA). CENTRAL ELECTRICITY REGULATORY COMMISSION. STATE ELECTRICITY REGULATORY COMMISSION CENTRAL TRANSMISSION UTILITY STATE TRANSMISSION UTILITIES STATE ELECTRICITY BOARDS/UTILITIES CENTRAL POWER SECTOR UTILITIES (CPSUs)

  5. 760 680 720 800 840 360 INDUS RIVER INDUS SYSTEM JHELUM BRAHMAPUTRA CHENAB SUTLEJ 320 C H I N A RIVER SYSTEM MAJOR RIVER SYSTEMS OF INDIA ( T I B E T ) DIBANG RAVI BEAS 960 880 920 GANGA RIVER INDUS SYSTEM KAMENG YAMUNA LUHIT 280 DELHI SUBANSIRI NEPAL DIHANG BHUTAN GANGA BRAHMAPUTRA CHAMBAL BARAK GANGA BANAS SON R BETWA 240 SABARMATI BANGLA DESH TISTA DAMODAR MAHI NARMADA TAPI MYANMAR MAHANADI SUBERNREKHA BRAHMANI BAITARNI 200 CENTRAL INDIAN RIVER SYSTEM GODAVARI WEST FLOWING RIVER SYSTEM EAST FLOWING RIVER SYSTEM KRISHNA PENNER SHARAVATHI KUTTIYADI CAUVERY PERIYAR

  6. INDIA’s HYDROELECTRIC POTENTIALRegion Wise DistributionTotal: 84044 MW at 60% Load Factor

  7. HYDRO POTENTIAL DEVELOPMENT AT A GLANCE

  8. VISION FOR HYDRO POWER DEVELOPMENT Plan to develop the balance potential by the end of 14th Plan i.e. by 2026-27 For development of entire potential , over Rs. 5,00,000 crores would be required. Survey & Investigation activities of all identified projects would need to be completed by the end of 12th Plan i.e. by 2016-17. Completion of Survey & Investigation activities would involve an expenditure of over Rs. 5000 Crs.

  9. VISION FOR HYDRO POWER DEVELOPMENT

  10. FUNDS REQUIRED FOR HYDRO CAPACITY ADDITION

  11. LIKELY HYDRO CAPACITY ADDITION DURING 10TH PLAN

  12. SECTORWISE HYDRO PROJECTS IDENTIFIED FOR 11TH PLAN

  13. SECTORWISE HYDRO PROJECTS TENTATIVELY IDENTIFIED FOR 12TH PLAN

  14. WATER RESOURCES/HYDRO POWER DEVELOPMENT – KEY ISSUES • RESETTLEMENT & REHABILITATION PROBLEMS • ENVIRONMENT AND FOREST ISSUES • GEOLOGICAL SURPRISES • DIFFICULT/ IN-ACCESSIBLE POTENTIAL SITES • STORAGE VS. R-O-R PROJECTS • APPORTIONMENT OF PROJECT COST AMONG VARIOUS AGENCIES

  15. Resettlement And Rehabilitation Issues Hydro electric projects involve submergence causing displacement of project area people . There are some of the hydro projects where the progress has/ is being severely hampered from sustained opposition to project construction. R& R is becoming a major issue in the implementation of storage-based hydro development. Many times, it is one of the main reasons for the delay in the execution resulting in Time & Cost Over-runs

  16. Issues Related to Environment And Forest Hydro Projects often require forest land for their implementation and compensatory afforestation on the non forest lands. The progress of some of the projects has been affected on account of delay/non-clearance from Environment and Forest aspects Clearance from wildlife aspects is very cumbersome. These aspects need to be looked into carefully to avoid undue problems during execution of the projects.

  17. Geological Surprises The features of the hydro electric projects, being site specific, depend on the geology, topography and hydrology at the site. The construction time of a hydro project is greatly influenced by the geology of the area and its accessibility. It is, therefore, essential that state-of-the-art investigation and construction techniques are adopted to minimise geological risks as well as the overall gestation period of hydel projects. Even if, extensive investigation using new techniques of investigations, are undertaken an element of uncertainty remains in the sub-surface geology and the geological surprises during actual construction can not be ruled out.

  18. Apportionment of Project Cost Among Various Agencies/States Efforts need to be made to evolve consensus for apportioning the costs , among various Agencies on account of extra security charges, additional cost on flood moderation, irrigation, drinking water, infrastructure (access roads) development etc. Large Storage Projects developed in the higher reaches of river give benefits to the projects downstream and there should be apportionment of project cost among all the beneficiaries.

  19. Storage Vs. R-O-R Projects There is a lot of controversy in the development of Hydro Projects as Storage or R-O-R . The type (Storage/ROR) of a hydro project depends upon the topography, geology and hydrology of the area and is site specific. The storage sites in the country are limited and hence their optimum development would need to be ensured.

  20. Storage Vs. R-O-R Projects Most of the distress caused by storage schemes occur in the Hill states whereas the benefits are largely in the states in the plains which are perceived to be more prosperous. Therefore , Hill states prefer R-O-R schemes. For the maximization of benefits in a basin, the judicious blend of both types of schemes (Storage/ROR) would need to be considered.

  21. MEASURES TAKEN FOR EXPEDITING DEVELOPMENT OF HYDRO POTENTIAL Creation of Power Corporations in Central/Joint Sector Three stage clearance procedure for expediting hydro development through CPSUs Ranking Study by CEA to take up hydro development in appropriate sequence. 50,000 MW Hydro-Electric Initiative for preparation of PFRs of 162 projects and DPRs of low tariff H.E. schemes.

  22. POLICY FRAMEWORK FOR ACCELRATING THE HYDRO DEVLOPMENT Policy liberalisation to attract private investment. Policy on hydro power development. National Water Policy. Electricity Act,2003 and consequent Changes in Industry Structure . National Rehabilitation &Resettlement (R&R) Policy . National Electricity Policy.

  23. MAJOR TECHNOLOGICAL DEVELOPMENTS IN HYDRO SECTOR Unit size of the hydro generating units have increased from largest unit size of 22 MW (at time of independence) to 250 MWnow. Maximum station capacity at present is 1500 MW at Nathpa Jhakrihydro station in Himachal Pradesh. Pykara Ultimate is the highest head plant (1026 m). A number of hydro projects have been developed in cascades in order to reap the maximum possible benefits.

  24. MAJOR TECHNOLOGICAL DEVELOPMENTS IN HYDRO SECTOR India has 20 underground power stations with total installed capacity of 9930 MW commissioned so far and 21 power stations with total capacity of 9551 MW are under Implementation. 9 Pumped Storage projects ( 3659.60 MW) are under operation and 3 Pumped Storage projects ( 2150 MW) are under construction in the country. A large number of small, medium and large multipurpose/ power dams of all types viz concrete gravity, masonry, earth , rock-fill and CFRD have been built all over the country with indigenous expertise. Roller Compacted Concrete Dam is under construction at Ghatghar pumped storage project.

  25. MAJOR TECHNOLOGICAL DEVELOPMENTS IN HYDRO SECTOR Indian engineers and geologists have developed an expertise in the field of tunneling and have a credit of successful execution of large number of large tunnels for hydro power projects all over the country. Examples – 27 Km for Nathpa Jhakri and 31 Km for Parbati-II H.E. Projects. The highest dam in India, 260 m high Tehri dam (rock fill) across Bhagirathi river in seismic environment of Himalayas, has been completed. The performance of Hydro Stations has been constantly improving and their operating availability has been achieved above 90% in the years 2003-04 onwards. The forced outages have also reduced to about 2% .

  26. PRIVATE SECTOR DEVELOPMENT IN INDIA Role of private participation in generation, transmission and distribution have become increasingly critical in view of the rapidly growing investment needs of the sector. The Central Government and the State Governments have developed workable and successful models for public private partnership. At present in India, 15 H.E. Schemes with 1203 MW are in operation and 7 schemes with an installation of 2291 MW are under construction in the private sector. Further, 73 schemes (17268 MW) have been offered for development in Private sector by different states in the country. During 11th &12th Plan, Capacity Addition through Private Sector would be about 23 % and 24% respectively.

  27. Thank you!

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