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SDC’s Global Programme Climate Change in India Sectors Targeted under Mitigation Actions Anand Shukla, Senior Thematic Advisor, Swiss Agency for Development and Cooperation, New Delhi 4 th National Conference on Climate Change Mitigation Initiatives & Adaptation Challenges Convergence & Action Agenda IHC, Lodi Road, New Delhi, 18 th June 2015
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ABOUT SDC IN INDIA BACKGROUND GOAL A technical cooperation partner of India for more than fifty years. Since 2011, SDC’s programme focuses specifically on the issues of climate change. SDC’s Global Programme Climate Change (GPCC) supports innovative climate change and mitigation projects in select partner countries, facilitates the generation and dissemination of knowledge and engages in climate change policy processes. Contribute to a climate compatible development in India over the long term by: Reducing or avoiding greenhouse gas emissions without compromising India’s development goal (Mitigation); and Safeguarding development achievements from the negative impacts of climate change (Adaptation).
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FOCUS AREAS Water Security Sustainable water management practices Food Security Climate smart agro- Advisory service s Hazard and Risk Management Vulnerability and risk assessments, innovative risk reduction and transfer mechanisms CLIMATE CHANGE ADAPTATION Renewable Energy Access to clean energy Built Environment Energy and resource-efficient measures and construction materials for buildings and cities Small-scale Industries Energy efficient technologies and processes for micro, small and medium enterprises CLIMATE CHANGE MITIGATION
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About the project Objectives BUILDING ENERGY EFFICIENCY PROJECT (BEEP) Built Environment The project aims to contribute to reducing energy consumption in new buildings and promoting best practices in designing and applying energy-efficient measures. Promote an integrated design approach for large buildings. Reinforce material testing capacities. Develop guidelines for the design of energy- efficient residential buildings. Prepare design templates for energy – efficient public buildings. Build capacity and disseminate knowledge.
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Built Environment Achievements 11 integrated design workshops organized for commercial /public building resulting in reduction of energy consumption by 20- 40%. Guidelines for energy-efficient multi-storey residential buildings for composite and hot climates officially launched in 2014. A public building in Jaipur, Rajasthan constructed using energy-efficient design recommendations, estimated to save energy by 32%. About 500 building sector professionals made aware of integrated design methodologies and best practices for energy-efficient buildings. BUILDING ENERGY EFFICIENCY PROJECT (BEEP)
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Built Environment Planned Results Implementing Partners More building professionals and practitioners are introduced to integrated design practices and trained in energy-efficient designs. Laboratory capacity in India to test the thermal performance of insulation materials and assemblies is strengthened. Comprehensive guidelines on designing energy- efficient residential buildings are developed for two more climatic regions. Effin’art, Switzerland Greentech Knowledge Solutions Pvt Ltd, India www.beepindia.org BUILDING ENERGY EFFICIENCY PROJECT (BEEP)
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Built Environment About the project Objectives The project aims to enable recognition of Limestone Calcined Clay Cement as the cement suitable for general construction and as a mainstream cement type. Standards committees in India, Cuba and possibly a third country accept for consideration the Standards for production and use of LCC. Cement sector invests in the production of LC3. LOW CARBON CEMENT PROJECT (LCC)
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Planned Results Implementing Partners Built Environment Standards developed and submitted to standardization bodies for approval. Efficiency, sustainability and market potential of LC3 production proven. Potential and results of LC3 project communicated to relevant stakeholders from research and industry. Experts in LC3 technology become available and the cement sector invests in the production and use of LC3. Ecole Polytechnique Fédérale de Lausanne (EPFL), Switzerland (Project lead) Indian Institute of technology (IIT)- Delhi; IIT Madras; IIT – Bombay; Technology and Action for Rural Advancement (TARA) www.lc3.ch LOW CARBON CEMENT PROJECT (LCC)
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About the project Objectives Small-scale Industries The project aims to enhance energy efficiency in micro, small and medium enterprises (MSME) through successful demonstration of clean, reliable and cost- effective technologies. Create an enabling policy environment and programme to facilitate the uptake of energy efficient technologies in MSME sector. Expand the use of energy-efficient technologies in the foundry sector. Energy-efficient technologies are used in other MSME sector. SCALING UP OF ENERGY-EFFICIENT TECHNOLOGIES IN SMALL ENTERPRISES (EESE)
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Planned Results Implementing Partners Small-scale Industries Facilitating the uptake of energy-efficient technologies in MSME sector through analysis and dissemination of data on energy-intensive clusters. Engaging with relevant stakeholders and formulating policy recommendations for an enabling environment. Scaling up the use of energy-efficient technologies or practices in the foundry sector through training of foundry entrepreneurs and enabling local service providers to provide technical backup support. Enabling the use of energy-efficient technologies or practices in other MSME sectors like the aluminum sector and in the production of agricultural pump sets. The Energy and Resources Institute (TERI), India http://sameeeksha.org SCALING UP OF ENERGY-EFFICIENT TECHNOLOGIES IN SMALL ENTERPRISES (EESE)
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Renewable Energy About the project Objectives The project aims to accelerate the usage of biomass- based clean energy solutions for electrification and industrial use through technology development, demonstration and market development. Develop and demonstrate an advance gasifier technology. Sustainable biomass supply chain identified. Increase awareness on a wider scale about biomass based clean energy solutions. ACCELERATING THE USE IF BIOMASS FOR CLEAN ENERGY SERVICES
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Renewable Energy Achievements About 60 biomass thermal gasifier systems installed in 15 sectors across five states. In six out of the 15 sectors, biomass thermal gasifier was introduced for the first time, replacing systems using polluting fuels. Thermal gasifiers and its different end-use applications in MSME sector demonstrated to about 700 owners of MSME units, industry association representatives and government officials in India and 44 in Ethiopia. Two-stage biomass gasifier for electricity generation successfully adapted to Indian conditions and needs, tested for over 1,500 hours and is ready for field implementation in rural India. Biomass thermal gasifier with full automation features (for temperature control) successfully tested and installed in the ceramics industry in Naroda industrial cluster of Ahmedabad, Gujarat. ACCELERATING THE USE IF BIOMASS FOR CLEAN ENERGY SERVICES
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Renewable Energy Planned Results Implementing Partners Demonstrate the advanced two-stage biomass gasified technology for generation and distribution of electricity for productive end-use and household lighting in four decentralized and grid-connected pilots in Odisha and Jharkhand. Further disseminate the advanced biomass thermal gasified technology (with automation features) in energy-intensive MSMEs and industrial clusters. Develop a pilot framework for a sustainable biomass supply chain in one industrial cluster. Facilitate the transfer of technology to Ethiopia. The Energy and Resources Institute (TERI), India ACCELERATING THE USE IF BIOMASS FOR CLEAN ENERGY SERVICES
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