NEDO s Experience in India

NEDO s Experience in India RE Integration, Energy Storage & Microgrids Project Experiences and Recommendations for India Makoto Watanabe Executive Director, NEDO New Energy and Industrial Technology Development Organization

Profile of NEDO Organization: Affiliated to Ministry of Economy, Trade and Industry (METI), Government of Japan Established Year: 1980 Chairman: Mr. Kazuo Furukawa Head Office: Kawasaki, Japan Overseas Office: 6 (Bangkok, Beijing, New Delhi, Paris, Silicon Valley, Washington D.C.) Employee: About 900 Budget: US$1.1 billion (FY2016) 75.9 billion INR NEDO Headquarters 2

What NEDO is doing in India As Japan s largest governmental organization promoting R&D and disseminating technology, NEDO has been carrying out demonstration projects under agreements with the Government of India. The main aim of the demonstration projects is to showcase Japan s advanced technology in India. NEDO s target areas for the demonstration projects are energy and environment. 10 projects have been successfully completed and 6 projects are ongoing. 3

Role of NEDO Ministry of Economy, Trade and Industry (METI) Government of Japan Budget / Personnel Coordination with policymaking authorities Fund / Guidance / Evaluation Universities Companies Public Research Laboratories 4

NEDO s Activities in India Neemrana Panipat 3 New Delhi 2 7 6 1 9 Mumbai 13 Pune 16 Vishnupuram Jamshedpur Rourkela 4 Angul 14 Chennai 10 NEDO New Delhi Office Burnpur 5 12 11 15 8 Srikakula Visakhapatnam m Ongoing Projects 1 2 3 4 5 6 Micro-Grid System with PV Power Generation (-2019) Green Telecom Tower Project (-2016) High-performance industrial furnace (-2018) EMS for Multiple Energy Sources at Steel Plant (-2019) ICT Based Green Hospital (-2019) Completed Projects 7 8 9 10 11 12 13 14 15 16 Smart Grid Pilot Project (-2018) FS for USC Coal-Fired Power Plant in Delhi (-2016) FS for USC Coal-Fired Power Plant in AP (-2016) Parallel Micro Hydro Power Generation System (-2015) Sinter Cooler Waste Heat Recovery (-2014) Highly Efficient Coal Preparation Technology (-2014) Increasing the Efficient Use of Energy Using a Coke Dry Quenching System (-2011) Converting a Diesel Generator to Dual-fuel Operation (-2011) Regional Energy Efficiency Centre (-2011) Utilization of Sensible Heat from Blast Furnace Hot Stove Waste Gas (-2004) Waste Heat Recovery System of Cement Plant (-2004) 5

1 Micro-Grid System with PV Power Generation The purpose of this project is to demonstrate a micro-grid system by using Japan s Energy Management System in Neemrana Industrial Park. The EMS monitors supply-demand of electricity for factories, controlling power supplies effectively from the grid, diesel generators and PV cells. System Overview The equipment marked in yellow is newly installed. 5MW PV System in Neemrana Industrial Park Key Information Period: 2012-2019 Cost: US$ 27 M MOU Signatories: DEA, MNRE, DMICDC Tech Provider: Hitachi Capacity: 6MW 6

3 Smart Grid Pilot Project in Panipat The purpose of this project is to demonstrate Japan s smart grid technology and transfer operation knowledge and know-hows to UHBVN (Uttar Haryana Bijli Vitran Nigam). The key features to be achieved in the project are To reduce AT&C loss (Project Start: 34%, Target: 15% ) To introduce peak load management and outage management To train UHBVN s employees to operate new systems properly Key Information Period: 2014-2018 Cost: US$ 22 M MOU Signatories: DEA, MOP, UHBVN Tech Provider: Fuji Electric, Sumitomo Electric, TEPCO, Hitachi 7

3 Smart Grid Pilot Project in Panipat Cont. Capacity Building Capacity building for improving the working structure Judgment on work improvement Planning Designing Information collection and analysis Planning of new services Operation & Maintenance Providing information/data Issues to be address by Japanese technology: 1 Reduce AT&C loss Loss 2 Peak load management PLM 3 Outage management OM Distribution Line Switchgear PLM OM Supervisory control and data acquisition (SCADA) Loss PLM OM Outage management system (OMS) Meter data management system (MDMS) RTU RTU RTU OM loss Smart meters loss PLM (11,000 consumers) PLM RTU Remote terminal unit (RTU) PLM OM AT&C = Aggregate Technical and Commercial 8

Balancing grid on RE integration Thermal power (1)Supply Side T&D Facility Inter- state grid connection and exchange Pumped-Hydro Energy Storage Storage Battery (2)Demand Side Demand Response Thermal storage (3)Rule & Regulation 9

Our experience on Storage Battery Japan has experience various Large Capacity Storage Batteries. NAS Battery (34MW, 238MWh) Redox Flow Battery (15MW, 60MWh) Aomori Hokkaido Lithium-Ion Battery (40MW, 20MWh) Lithium-Ion Capacitors Lead Acid Battery (15MW, 8MWh, 15kWh) Miyagi Izu Oshima 10

Key to deploy Battery Energy Storage Unless appropriate incentives that reflect a correct economic value of batteries emerge, batteries will have a difficult time penetrating the electric system. By changing the market and regulatory environment, value of battery s services can be adequately remunerated. The Power Grid and the applications for battery storage Source: GSGF, Power Grid Electrical Energy Storage 11

Japan Smart Community Alliance (JSCA) JSCA is an alliance which aims to laid down a foundation of smart community development and disseminate it to the world. Information and communications Electric machinery Services Trading industry Real estate Chairman: MITSUBISHI ELECTRIC Board Members: Hitachi, ITOCHU, JGC, Kansai Electric Power, NIPPON TELEGRAPH AND TELEPHONE, Panasonic, SHIMIZU, Tokyo Gas, TOSHIBA, TOYOTA MOTOR Members: 275 (As of February, 2017) Electric power, Gas Construction Secretariat: Supported by: https://www.smart-japan.org/english/index.html Info: smart-japan@ml.nedo.go.jp 12

Representative Office in New Delhi 9th Floor, Hotel Le Meridien Commercial Tower, Raisina Road, New Delhi 110 001, India Tel:+91-11-4351-0101 Fax:+91-11-4351-0102 http://www.nedo.go.jp/english/index.html