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MNRE RE Governme vernment nt of India dia Ministry istry of New an w and d Renewable ewable Energy ergy e Power by 2022 Road Map for Renewa wabl ble 175 5 GW 10 GW 10 5 GW 5 10 100 0 GW 60 GW 60 Solar Small Hydro Wind


  1. MNRE RE Governme vernment nt of India dia Ministry istry of New an w and d Renewable ewable Energy ergy

  2. e Power by 2022 Road Map for Renewa wabl ble 175 5 GW 10 GW 10 5 GW 5 10 100 0 GW 60 GW 60 Solar Small Hydro Wind Biomass

  3. Year-wise and Source-wise Distribution of 175 GW (in MWp) Resource 2015-16 2016-17 2017-18 2018-19 2019-20 2020-21 2021-22 Total 2,000 12,000 15,000 16,000 17,000 17,500 17,500 97,000 Solar 2400 4100 4700 5300 6000 6700 7356 60000 Wind 400 500 750 850 950 1000 1016 10000 Biomass 220 225 100 100 100 100 100 5000 SHP Commissioned up to 31.03.2015 : Solar - 3,744 MW Wind - 23444 MW Biomass - 4534 MW SHP - 4055 MW

  4. Enablers identified for 175 GW Waste & Barren Land  Low Cost, Long Tenure Capital  Transmission Grid (Inter & Intra-State)  Policy & Regulatory Framework  Improvement in Financial Health of DISCOMs 

  5. Policy Initiatives for Promotion of Renewables Proposed amendment in Electricity Act and Tariff  Policy including introduction of Renewable Generation Obligation (RGO) State Electricity Regulatory Commissions  (SERCs) of twenty-six States have notified regulatory framework on net-metering and feed-in- tariff to encourage rooftop solar plants Restoration of Accelerated Depreciation Benefits  for Wind Power Projects A wind Atlas having information at 100 m height  has been launched

  6. Announcement of National Offshore Wind  Energy Policy, 2015 CERC issued forecasting & scheduling  regulations for inter-state transmission of wind and solar power in Aug 2015. Model forecasting & scheduling  regulations for intra-state transmission of wind and solar power have been issued by FOR  Augmentation of inter-state and intra- state transmission system – being taken up under Green Energy Corridor project

  7. Road Map for So Sola lar Po Power by 2022 100 10 0 GW GW 30 0 GW 40 GW 40 10 10 GW 20 20 GW Unemployed Govt./States/ Solar Park Solar Rooftop Youth/Farmers Private/Others

  8. Solar Park 20000 000MW MW for 34 Solar Parks in 22 States tes approved d Solar Power in CPSUs/Govt. 913 MW allocated to 13 organizations Canal Top/Canal Banks 50 MW Canal Top and 50 MW Canal Banks projects allocated in 8 States Solar Power in Defense 185 MW allocated (150 MW – OFB, 10 MW-BSF, 25 MW - BTL) Solar Power by NTPC 15000 MW targeted, tenders issued for 2750 MW in 5 States (bundling scheme) Solar Power by SECI 3600 MW allocated in 6 States, 1690 MW tenders issued Solar Power installed 5130 MW till 14.01.2016 capacity Grid Connected Solar 2526 MW allocated, 152 MW installed Rooftop

  9.  Solar systems installed on rooftops of residential, commercial, institutional & industrial buildings :  premises.  Electri trici city ty ge generat erated ed could d be -fed into the gr grid at at regu gulate ated feed-in in tariffs ffs or or -used used for for self self consump consumpti tion on with with net net-mete metering ing approac proach

  10.  Germany, USA , Italy, Japan, China are leaders in adopting grid-connected SPV Rooftop systems.  Germany has highest PV installed capacity of over 39.5 GW of which 70% is in rooftop segment (as on 31.12.2015).  China has 37.95 GW solar power of which 6.25 GW is from distributed generation.  Italy has 12.7 GW PV installation with over 60% rooftop systems  FIT is norm in Europe while net-metering is popular in USA.

  11.  Savings in transmission and distribution losses  Low gestation time  No requirement of additional land  Improvement of tail-end grid voltages and reduction in system congestion with higher self- consumption of solar electricity  Local employment generation  Reduction of power bill by supplying surplus electricity to local electricity supplier

  12.  About 10 sq.m area per kWp capacity  Cost about Rs.75,000 per kWp  The roof should be shadow free and south facing  Can be installed on slanting, plain and curved roofs  Regulation of SERC, State policy and DISCOMs cooperation for grid connectivity

  13.  Initial cost Rs.75,000 per kWp  Cost of electricity generation about Rs.6.50 per kWh  Most of commercial, industrial and Government establishments pay about Rs.8- 10 per kWh  Hence the solar rooftop is economically viable

  14. Sl. l. No. State tes Tota tal Sl. l. No. State tes Tota tal 1 Andhra Pradesh 2000 20 20 Uttar Pradesh 4300 2 Bihar 1000 21 21 West Bengal 2100 3 Chhattisgarh 700 22 22 Arunachal Pradesh 50 4 Delhi 1100 23 23 Assam 250 5 Gujarat 3200 24 24 Manipur 50 6 Haryana 1600 25 25 Meghalaya 50 7 Himachal Pradesh 320 26 26 Mizoram 50 8 Jammu & Kashmir 450 27 27 Nagaland 50 9 Jharkhand 800 28 28 Sikkim 50 10 10 Karnataka 2300 29 29 Tripura 50 11 11 Kerala 800 30 30 Chandigarh 100 12 12 Madhya Pradesh 2200 31 31 Goa 150 13 13 Maharashtra 4700 32 32 Dadra & Nagar Haveli 200 14 14 Orissa 1000 33 33 Daman & Diu 100 15 15 Punjab 2000 34 34 Puducherry 100 16 16 Rajasthan 2300 Andaman & Nicobar 35 35 20 Islands 17 17 Tamil Nadu 3500 18 18 Telangana 2000 36 36 Lakshadweep 10 19 19 Uttarakhand 350 Total 40000

  15.  Ministry is implementing a ‘Grid Connected Rooftop and Small Solar Power Plants Programme ’ since 26 th June, 2014.  Plant size ranges from 1 kWp to 500 kWp and 1 kW solar rooftop system requires about 10 sq.m. roof area  Benchmark costs of Grid connected solar rooftops(with out battery) is about Rs. 75,000/kWp. A subsidy of 30% is provided for general category and 70% for special category States, NE States and Islands.  No subsidy is provided for establishments under private and industrial sector.

  16.  16 States have come out with Solar Policy supporting grid connected rooftop systems :  Andhra Pradesh, Chhattisgarh, Gujarat, Haryana, Himachal Pradesh, Jharkhand, Karnataka, Kerala, Manipur, Punjab, Rajasthan, Tamil Nadu, Telangana, Uttar Pradesh, Uttarakhand and West Bengal.  Remaining 20 States/UTs have to come out with Solar Policy supporting grid connected rooftop systems  Arunachal Pradesh, Assam, Bihar, Goa, Jammu & Kashmir, Madhya Pradesh, Maharashtra, Meghalaya, Mizoram, Nagaland, Orissa, Sikkim, Tripura, Andaman & Nicobar and Lakshadweep Islands, Chandigarh, Dadra & Nagar Haveli, Daman & Diu, Delhi & Puducherry.

  17.  SERCs of 26 States/UTs have notified regulations for net- metering/feed-in-tariff mechanism :-  Andhra Pradesh, Assam, Bihar, Chhattisgarh, Gujarat, Goa, Haryana, Himachal Pradesh, Karnataka, Kerala, Maharashtra, Madhya Pradesh, Odisha, Punjab, Rajasthan, Tamil Nadu, Uttar Pradesh, Uttarakhand, West Bengal, Andaman & Nicobar and Lakshadweep Islands, Chandigarh, Dadra & Nagar Haveli, Daman & Diu, Delhi and Pondicherry have notified regulations for net- metering/feed-in-tariff mechanism  SERCs of remaining following 10 States may notify regulations for grid connected rooftop systems :-  Arunachal Pradesh, Jammu & Kashmir, Jharkhand, Telangana, Manipur, Meghalaya, Mizoram, Nagaland, Sikkim, Tripura should notify regulations for net- metering/feed-in-tariff.

  18.  The Net Metering mechanism shall allow the consumer to reduce its electricity requirement from grid  The utility benefits by avoiding purchase of electricity from short term market  Electricity generation at load center also minimises the distribution losses of electricity  26 States/UTs have announced regulations for net-metering

  19. Data received ived from Govt. Building ngs 844 4 nos. Average rage Tariff Rs Rs. 9.37 7 per kWh The e maximum mum tariff f paid by building ng Rs Rs 15.78 78 Per KWh The minimum um tariff paid by bu building ng Rs Rs 1.34 4 per KWh 1450. 50.51 51 MW The potentia ntial esti timate ated for rooftop instal allati ation No. of In Instit itutes utes paying ng above Rs Rs. 7.0/- per Kwh 394 4 nos. (46. 6.7%) 7%) No. of In Instit itutes utes paying ng above Rs Rs. 8.0/- per Kwh 226 6 nos. (26. 6.8%) 8%) No. of Inst stit itutes utes paying ng above e Rs Rs. . 9.0/- per Kwh 134 4 nos. s. (15. 5.9%) 9%) No. of In Instit itutes utes paying ng above Rs Rs. . 10.0/ 0/- per kwh kwh 89 nos. (10. 0.5%) 5%) No. of In Instit itutes utes paying ng above Rs Rs. . 11.0/ 0/- per Kwh 51 51 nos. (6.0%) 0%)

  20. Tariff range paid by institutes No. of Institutes in that range 500 ge 450 t range 400 tutes in that 350 300 No. of Institutes 250 200 150 100 50 0 0-7 7-8 8-9 9-10 10-11 11-12 12-13 13-14 14+ Range ge of per unit Electricity tricity Tariff ff (in Rs Rs.) .)

  21.  Model 1: Self financing of balance cost  Model 2: Installation through RESCO Mode  Model 3: Installation through leasing model  Model 4: Installation through concessional loans  Model 5: Self financing of complete cost without MNRE incentive

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