Government of India
Ministry of New and Renewable Energy
(R&D Coord. Group)
“Thrust Areas with Action Plan for RD&D”
For Technology Development
New and Renewable Energy
Ministry of New and Renewable Energy
(R&D Coord. Group)
1.1 The objective of RD&D Programme of the Ministry of New and Renewable Energy (MNRE) is to promote technology development and demonstration for widespread deployment of new and renewable energy for various applications in cost effective manner across the country. RD&D efforts are directed towards process/ technology development and demonstration with emphasis on cost reduction and improving efficiency. The RD&D projects are sanctioned to various R&D/academic institutions, industries etc. following the MNRE’s policy and guidelines dated 18.10.2010. 169 nos. of R&D projects in solar thermal, solar PV, biogas, bio-fuel, hydrogen and fuel cells were sanctioned by MNRE in the 11th Plan Period with total budget of Rs.525 crore to various R&D/academic institutions, industries, etc., 60% of which was sanctioned for solar projects.
1.2 The support provided by MNRE has strengthened capacity and capability of R&D/academic institutions, industries for carrying out R&D for technology development and demonstration in new and renewable energy. In addition, during the current 12th Five Year Plan, the Ministry has strengthen its three institutions, namely, National Institute of Solar Energy (NISE), Haryana, National Institute of Wind Energy (NIWE), Chennai and National Institute of Bio-energy (NIBE), Punjab for R&D in solar, wind and bioenergy, respectively, in addition to testing and evaluation in these areas. A total amount of Rs.417 crore has been spent on RD&D by MNRE till December 2015 in the proportion given in table below.
|Sl. No.||Project area||Amount spent in Rs. (crores)||Proportion of investment (%)|
|4||New Technology(Hydrogen & Fuel Cell)||39.0||9.35%|
2. Brainstorming Consultations Meeting on RD&D
2.2 A day-long “Brainstorming Consultations Meeting” was held on 5th January 2016 in the Conference Hall of MNRE for reviewing of RD&D projects funded by the MNRE and for identifying “Thrust Areas with Action Plan for RD&D” for support by the MNRE. The meeting was chaired by Sh. Upendra Tripathy, Secretary, MNRE, and was attended by invited key experts from the field of new and renewable energy from R&D/academic institutions and industries apart from Group/Divisional Heads handling RD&D programmes in the Ministry. A compendium on the status of R&D projects funded by MNRE was distributed to participating experts for their perusal. The status of various areas of new and renewable energy at both national and international level was presented by key experts and the progress of R&D projects was reviewed and discussed as per programme annexed. List of participants is enclosed at Annexure.
2.3 A detailed discussion was held on the progress of the projects sanctioned and thrust areas for RD&D with Action Plan for faster technology development and demonstration. The thrust areas, which include systems integration to improve the reliability of the system, have been identified on the basis of domestic experience and the need of technology development keeping in view the cost effectiveness inline with international ongoing R&D efforts. Experts suggested that the R&D projects sanctioned should be periodically monitored by MNRE so that proper and timely action is taken for implementation. They also suggested that the achievements under R&D projects should be validated by standard institutions having testing and evaluation expertise and facilities and accordingly the efforts should be scaled up for further development and demonstration of technology. The thrust areas were identified for RD&D and Action Plan prepared for technology development and demonstration for large scale use of new and renewable energy for various applications across the country.
3. Thrust Areas for RD&D and Action Plan
3.1 It was decided that in all areas the project programme should be developed associating industry keeping in view scalability and bankability to ensure the utility of the outcome for product development for commercialisation. The efforts should be continued till commercialization of technologies/systems/components. The thrust areas identified for RD&D and Action Plan emerged from the “Brainstorming Consultations Meeting” are given below;
- Development and optimization of low cost reflectors, efficient and cost effective receiver systems and coatings for Solar Thermal Power Generation Technologies
- High efficiency novel storage- technologies to cover wide temperature and capacity ranges, materials, systems and integration with CSP technologies.
- High efficiency CO2 Brayton cycles (100kW-1MW)
Super critical CO2 Brayton cycle: > 50% cycle efficiency even at 500oC receiver temperature.
- Hybridization of solar thermal power technologies with other RE sources for (non-grid) power generation
- Development of solar thermal technologies/systems including evacuated tube/CPC collectors for cooking, water heating, cooling, drying, desalination and industrial processes
- Hybridization and polygeneration
- Establishment of performance standards and testing
- Centres of excellence/Consortium based approach in specific areas mentioned above in specific areas
- HYBRIDIZATION and RETRO-FITTING with Coal Based Thermal Power Plants. This can improve the efficiency, increase the capacity and reduce the CO2 emissions.
- Improving Si PV efficiency and reducing the material and processing cost.
- Making Si material from sand
- Strengthening Research Groups for research in new areas such as PERC cells, dark silicon cells, Si nano-wire cells, passivated interface cells, micromorph cells etc.
- Second generation (thin film) for improving their efficiency and stability.
- Third generation cells including organic semiconductor PV, DSSC, perovskite based cells as long term solution to the energy scenario.
- Improving modules quality and reliability in cost effective manner.
- Development of standard designs for supporting structures to mount SPV systems for application on different widths and types of canals and reservoirs/lakes.
- Assessment of water saving in reduced evaporation and performance enhancement of SPV systems installed over water bodies.
- Materials and fabrication Technology for solar cells and modules
- Production Technology for solar cells and modules.
- Balance of Systems to draw power from PV array
- Inverters and converters and storage systems
- Power Conditioning Units (PCU) with high weighted average efficiency inverters (with MPPT) and Charge Controllers for off-grid solar power plants. Power Conditioning Units(PCU) with high weighted average efficiency inverters(with MPPT) for low capacity solar power plants for grid connected(Grid Exporter) configuration
- High Efficiency BLDC Motors (with MPPT) for solar pump configurations. High Efficiency inverters (with MPPT) for solar pump applications
- Development of Materials and Fabrication Technologies for solar cells and Modules
- Measurement facilities for calibration solar cell efficiency
- Flexible solar panels & frontier technologies.
Action Plan/ Strategy
- Technology demonstration should be scaled up for applications in various sectors like Telecom. Railways, Defense, Space, etc.
- In all RD&D efforts, industry which are at present producing modules from cells and wafers to be associated.
- The target of efficiency for silicon solar cells should be 25% by 2022
- The R & D/academic organizations working in the area of crystalline silicon solar cell should be directly linked to the Indian Industries, which are at present producing modules from cells and wafers. In addition, the Indian Installers of PV Systems with c-Si modules should be part of this consortium. The association with academic and R and D organizations will help the Industries in upgrading their product and help in solving technical problems,
- Setting up test labs for testing input material such as Si wafers, EVA, Tedlar, pastes etc. to help industries.
- Development, demonstration and evaluation of existing and new designs of biogas plants for biogas generation utilizing different feedstock for cooking, power generation and transport applications.
- Development of efficient and cost effective slurry handling system
- Standardization of multiple designs of biogas plants – all sizes, all feedstock based. Performance testing utilizing standardized gas flow meters for measurement of biogas generated.
- Technology development for reduction in HRT
- Performance validation and cost economics before approval.
- New enzymes/ consortium of bacterial development of fast biomethnation processes
- Development in new materials of biogas plants for cost reduction.
- Standardization biogas slurry based bio-fertilizer, value addition and marketing network development.
- Bio-manure up-gradation (incorporation of micronutrients into the slurry for land application).
- Development and standardization of scrubbers for biogas purification and gas flow meters.
- Development of efficient 100% biogas engine for power generation.
- Development of centralized biogas generation plants with distribution through piping.
- Development of business model for biogas fertilizer plants should be taken up. Strategy should be developed for large scale biogas plants, i.e., sewage treatment plants, sugar industry effluent, goushalas etc.
- Mechanism and regulation should be developed to segregate the municipal
- solids wastes and Polluter–Pays principle should be made mandatory to stop the burning of crop and industry derived biomass source.
- City dairies are to be mandated to treat their waste and produce biogas.
- Technology development and demonstration and standardization of Bio CNG.Bio Gas scale up projects. Only those projects which have reduced HRT ~ 1-2 days and which can give BIO-CNG at ~ 25 Rs/Kg must be scaled up
- Command area for biomass waste collection and utilization in urban and rural areas needs to be promoted.
- Promoting Bio–CNG marketing mechanism with standardization and control systems.
- Cellulosic ethanol pilot demonstration plants in range of 2-10 Tons per day
- Enzyme scale up projects at 250-500 lits (4 Crores). Presently there are no scale up facilities in country for enzymes which are required in cellulosic ethanol technology.
- Biomass availability studies- real time. This study is essential as many technologies are being planned based on agricultural wastes.
- MSW / Waste to bio-energy projects demo scale. After verification of claims of the developed technologies, these projects need funding.
- Waste gas fermentation for ethanol/ bio diesel. Gas fermentation is new area which is presently not pursued in country however waste industrial gases can be converted to ethanol/ bio diesel and China has set up few plants in steel industry.
- Agro waste to distillates by catalytic hyro-pyrolysis
- Semi-Commercial plants on Pyrolysis/gasification
- LCA , GHG and economic studies as these will be essential to classify fuels as environmentally sustainable.
- Technology for algal oil production as renewable biofuels.
- Cellulosic ethanol pilot, Demo plants in range of 2-10 Tons per day—will need large funding of ~15-20 crores in collaboration with industry.
- The basic technology of the project proponents should be vetted by experts before funding ensuring commercialization of the technology.
- DBT already has several R&D projects on cellulosic ethanol and many leads are available hence instead of R&D projects only demonstration projects could be considered in this area for support by MNRE.
- Hydrogen production from various feedstock in association with industry
- Technology for storage of hydrogen
- Establishment of a Centre of Excellence For New Energy Forms.
- High Temperature Proton Exchange Membrane Fuel Cell with combined cycle
- Low Temperature Proton Exchange Membrane Fuel Cell
- Planar Solid Oxide Fuel Cell
- Phosphoric Acid Fuel Cell (for civilian applications only)
- Direct Methyl/ Ethyl Alcohol Fuel Cell
- Molten Carbonate Fuel Cell
- Bio-Fuel Cell
- R&D should be pursued in partnership with industries in material development, reactors/fuel cells, storage vessels.
- Centres of Excellence may be set up with focused R&D for long terms gaols.
- The indigenous technology for storage of hydrogen needs to be encouraged on priority basis.
- Focused R&D projects need to be supported for hydrogen production through biomass gasification, bio-hydrogen, thermo-chemical splitting and thermolysis of water.
- In all areas of RD&D, industry must be associated with projects for technology development and demonstration ensuring commercial applications.
Control and Operation Issues with Integration of Renewable Energy Sources (RES)
- Development of Low Cost High Efficiency Converters and Associated Controls for Integration of Solar And Wind Generation Plants :
- New Topology, Maximum Power Point Tracking, Power Quality Control, Grid Synchronization, Voltage and Frequency Control, Active and Reactive Power Support, Online Health Monitoring and Accelerated Life Testing.
- Development of Controls for Power Management of RES Sources
- Grid Connected and Islanded Operation, Standalone Operation with Storage, Smart/Net Metering
- Microgrid Development
- Microgrid Architecture Design- AC vs DC, Converter Topology and Controls for integration of various RESs and Energy Storage systems, Fast and Adaptive Protection, Island Detection and Management scheme. Pilot Microgrid Test Bed for R&D.
- System Wide Power Management and Controls
- Wind, Solar irradiation, load forecasting, power balancing Ancillary Services, SCADA/EMS with Renewable Management, Synchrophasor Technology for Dynamic Monitoring and Control, Wide Area Control, Offshore wind farm integration, Flexible AC Transmission System (FACTS) Controllers.
Centre of Excellence in Grid related Research for RES Integration
- Batteries and Supercapacitors
- Lithium ion batteries
- Solid state batteries
- Hybrid capacitors
- Redox flow batteries
- Zinc-air rechargeable batteries
- Lithium-air rechargeable batteries (futuristic)
- Iron-air batteries (futuristic)
- Aluminium –air batteries (futuristic)
- Organic, green, environmentally friendly electrode materials for all organic batteries
- Pb-acid batteries, alkaline batteries (Ni-Fe, Fe-air, Ni-Metal hydride), Li- based batteries (Li-ion, Li-air, Li-S), redox flow batteries (Zn/Bromine, soluble Pb) and electrochemical capacitors (electrical double layer and pseudo capacitors, Pb-C battery-super capacitor hybrid).
- Small Capacity Pumped Storage systems
- Metal-Air systems
- Organic systems
- Consortium for RD&D for technology development and demonstration between the institutions and industries.
- Fabrication and Demonstration of 2-3 Ah Li-ion cells and battery pack of 30 Ah for energy storage applications to sources from wind/solar with a cycle life of 3000 cycles.
- Fabrication and Demonstration of 2-3 Ah Li-ion cells and battery pack of 60 Ah for energy storage applications to sources from wind/solar with a cycle life of 5000 cycles.
- Wind Resource Assessment and forecasting
- Wind Turbine System Design(wind turbine rotor, mechanical structures / materials, electrical components)
- Wind Energy Integration(wind power plant capabilities/Grid planning and operation)
- Offshore Technology (resource, off-shore structures, turbine design and simulation understanding the external climate and wake effect).
- Small wind & wind solar hybrid.
- Proper resource assessment including satellite based data
- Standards for wind turbines and related systems/components
- Industry association with R&D programmes.
- Small Hydro Turbines and generators
· Development of ultra-low (below 3 m) head turbines
· Development of permanent magnet generators for small capacity
- hydropower systems
· Development of flowing water kinetic energy based systems
· Development of IT based performance monitoring of SHP systems
· Development of Small Capacity Pumped Storage systems
- Development of software for resource assessment for site identification including use of modern techniques like RS and GIS.
- Standardization of SHP turbines and systems including automation for pwer plants
- Industry association with R&D programme.
Renewable Energy Resource Assessment
- Technique Development for high-resolution solar and wind / wave energy forecasting using model, satellite and in situ data
- Roof-top solar energy modelling using satellite-based 3D-city model
- Exploratory research investigation on Bio, Geothermal and Small-Hydro energy resource assessment with Satellite data
- The validation exercise of satellite-driven energy outputs with NIWE will continue as benchmarking activity.
- Resource assessment should be vigorously pursued and reviewed for its accuracy.
- Validation of satellite data against ground measured data and also comparing the same with that obtained from foreign source including from NREL and then developing a model for resource assessment across the country.
“Brainstorming Consultations Meeting on RD & D”
for Review and Preparing
“Action Plan with Thrust Areas for RD & D in New and Renewable Energy”
On 5th January 2016
Venue: MNRE Conference Hall
|10:00 -10:10||Introductory Remarks: Sh. Upendra Tripathy, Secretary, MNRE|
|Review and Discussions for Preparing Action Plan with Thrust Areas for RD&D|
|Session – I Resource Assessment|
|10:10:10:2010:20- 10:30||“Renewable Energy Resource Assessment-An Overview” with Talking Points for Discussion. Jointly by Dr. Bimal Kumar Bhattacharya, SAC, ISRO, Ahmedabad and Dr. Rajesh Katyal, DDG, National Institute of Wind Energy( NIWE), Chennai. 10 min.Discussion: 10 min|
|Session II Bioenergy Technologies|
|“Biogas Technology Developments-An Overview” with Talking Points for Discussion.by Dr. S. P. Kale, Associate Director, BARC, Mumbai. 10 min. Discussion: 20 min.
“Technology Developments in Biogas Generation for use as Fuel for Transport Applications-An Overview” with Talking Points for Discussion.
by Prof. V. K. Vijay, IIT Delhi. 10 min.
Discussion 10 Min.
“Biomass energy Technology Developments-An Overview” with Talking Points for Discussion
By Prof. S. Dasappa, IISc, Banglore 10 min.
Discussion: 10 Min.
“Technology Developments in Biofuel for Alternate Fuel- An Overview” with Talking Points for Discussion.
Dr D K Tuli, DBT Centre, Indian Oil, R&D Centre, Faridabad 10 min.
Discussion: 10 Min.
|Session III Solar Energy Technologies|
|“Developments in Solar Photovoltaic Technologies - An overview” with Talking Points for Discussion.by Prof. Vikram Kumar, Former Director, National Physical Laboratory, currently Emeritus Professor, CARE, IIT Delhi. 10 min.Discussion: 30 min.
“Development in Solar Thermal Technologies - An overview” with Talking Points for Discussion
by Prof. S Srinivasa Murthy, Emeritus Professor IIT Madras 10 min.
Discussion: 30 min.
|Session IV Power Control System and Energy Storage|
|“Power Control System-Balance of System for Grid Connectivity for Renewable Energy-An Overview” with Talking Points for Discussion. by Prof. S C Srivastava, IIT Kanpur, Kanpur. 10 min. Discussion 20 min.
“Technology Developments in Energy Storage for Renewable Energy Applications-An Overview” with Talking Points for Discussion.
by Prof. S Sampath, IISc Bangalore 10 min.
Discussion 20 min.
|Session- V Hydrogen and Fuel Cells|
|“Hydrogen Research & Development for Alternate Fuel-An Overview” with Talking Points for Discussion.Prof. S N Upadhyay, Dept. of Chemical Engg., IIT(BHU) 10 min.Discussion 20 min.
“Fuel Cell Technology Development for Alternate Fuel” with Talking Points for Discussion.
Dr. H.S. Maiti, Former Director, CGCRI, Kolkata. 10 min.
Discussion 10 min.
|Session-VI Wind, SHP, Geothermal|
|“Wind Power Development-An Overview” with Talking Points for Discussion……by Dr. Rajesh Katyal, DDG, NIWE 10 min. Discussion 10 min.
“SHP Development- An Overview” with Talking Points for Discussion
by Prof. Arun Kumar, IIT Roorkee 10 min.
Discussion 10 min.
“Geothermal Technology Developments-An Overview ” with Talking Points for Discussion.
by Dr. T. Harinarayana, Director, GERMI, Ahmedabad 10 min.
Discussion 10 min.
|17:00-17:30 Concluding Session Recommendations of Action Plan with Thrust AreaUnder the chairmanship of Shri Upendra Tripathy, Secretary, MNRE|
List of Participants
|SI. No||Name with Designation||Name of organization with email address|
|1.||Sh. Upendra Tripathy, Secretary,||MNRE|
|2.||Ms. Varsha Joshi,Joint Secretary||MNRE|
|3.||Dr. O. S. Sastry,Director General||National Institute of Solar Energy(NISE), MNRE, Gurgaon, Haryana|
|4.||Dr. B. S. Negi, Director (R&D)||MNRE|
|5.||Prof. Vikram Kumar, Emeritus Professor||Centre for Applied Research in Electronics(CARE), IIT Delhi, New Delhi-110016Email: Vikram Kumar vkmr47[at]gmail[dot]com|
|6.||Prof. A K Barua,Emeritus Professor||Indian Institute of Engineering Science and Technology(IIEST), Shibur, West BengalAshok Barua ,|
|7.||Prof. S. Srinivasa Murthy,Emeritus Professor||IISc, Bangalore-560012Email: Srinivasa Murthy S|
|8.||Prof. S. N .Upadhyay||IIT (BHU) VaranasiEmail: Prof S N Upadhyay|
|9.||Prof. O. N. Srivastava||Hydrogen Energy Center,BHU, Varanasi|
|10.||Dr. P. K. Singh, Chief Scientist||National Physical Laboratory(NPL), CSIR, New Delhi|
|11.||Prof. S. C. Srivastava||Deptt. of Electrical Engg.,IIT KanpurEmail: ssc[at]iitk[dot]ac[dot]in|
|12.||Prof. Bhim Singh, Prof. & Head||Electrical Energy Deptt, IIT Delhi, New Delhi -110016Email. bsing[at]eeiitd[dot]ac[dot]in|
|13.||Prof. S. C. Mullick,Retd. Professor,||Centre for Energy Studies IIT, Delhi, New Delhi-110016Subhas_ cmullick[at]gmail[dot]com|
|14.||Prof. Juzer VasiEmeritus Fellow||IIT Bombay, Mumbaivasi[at]ee[dot]iitb[dot]ac[dot]in|
|15.||Dr D. K. Tuli, Head||DBT Centre, IOC R&D Centre, FaridabadEmail. tulidk[at]gmail[dot]com|
|16.||Prof. H. S. MaitiEx- Director CGCRI||CGCRI, KolkataHsmaiti2009[at]gmail[dot]com|
|17.||Prof. V. K. Vijay||IIT Delhi, New Delhi-110016vkvijay[at]rdatiitd[dot]in|
|18.||Prof. T. HarinarayanaDirector GERMI||GERMI, Ahmedabad, Gujaratharinarayana[at]germi[dot]re[dot]in|
|19.||Porf. H. P. Garg, Sr. Consultant||NISE, Gwalpaharihpgarg01[at]rediffmail[dot]com|
|20.||Mr. V.V. GiridharSr. Principal Scientist||CECRI, Madras unitCECRI-Madras Complex, Chennai|
|21.||Dr. A.K. Saxena, General Manager||BHEL, Gurgaonaksaxena[at]bhel[dot]in|
|22.||Mr. Sudip BhattacharyaSr. Consultant (PV)||NISE, GurgaonSudip_75[at]mail[dot]com|
|23.||Prof. Arun Kumar,||AHEC,IIT Roorkeeaheciitr[dot]ak[at]hotmail[dot]com|
|24.||Dr. B.K. BhattacharyaScientist “G”,||Space Application Centre(SAC), ISRO, Ahmedabadbkbhattacharya[at]sac[dot]isro[dot]gov[dot]in|
|25.||Prof. S. Dasappa||IISc., Bangaloredasappa[at]cgpl[dot]iisc[dot]ernet[dot]in|
|26.||Prof. H.N. Chanakya||CiSTUP , IISc., Bangalorechanakya[at]astra[dot]iisc[dot]ernet[dot]in|
|27.||Dr. B. Bhargava,Director General||ONGC Energy Center, New Delhibhargavabh[at]gmail[dot]com|
|28.||Dr. Sangita KastureJoint Director||Department of Biotechnology, Ministry of Science and Technology, New DelhiSangita[dot]kasture[at]nic[dot]in|
|29.||Dr. (Mrs.) Parveen Dhamija Director||MNRE, pdhamija[at]NIC[dot]IN|
|30.||Dr. Yogender Kumar YadavDirector General||National Institute of Bioenergy(NIBE), MNRE Kapurthala director[at]nire[dot]ses[dot]in|
|31.||Dr. MR Nouni, Director||MNRE, mrnouni[at]nic[dot]in|
|32.||Mr. VK Jain, Director||MNRE, varunk[at]nic[dot]in|
|33.||Mr. S.K. Singh, Director||National Institute of Soar Energy(NISE), Gurgaon, Haryanask[dot]singh[dot]mnre[at]nic[dot]in|
|34.||Dr. Rajesh Katyal, DDG||National Institute of Wind Energy(NIWE), MNRE, ChennaiEmail: katyal[dot]niwe[at]nic[dot]in|
|35.||DR. P. C. Pant, Director||MNRE|
|36.||Mr. I.P. Singh, Director||MNRE|
|37||Mr.Girish Kumar, Director||MNRE, gkumar[dot]mnre[at]nic[dot]in|
|38.||Mr. Anil Kumar, Scientist ”C”||MNRE|
|39.||Mr. S. R. Meena, Scientist “C”||Biofuels Division, MNRE|
|40.||Ms. Preetika Singh||Tata Powerpeetika[dot]singh[at]tatapower[dot]com|