This project explores the energy systems and their development towards 2035 in the West Nordic areas and the Arctic. The objective of the project was to contribute to a knowledge base that can be shared and used in developing a sustainable and competitive energy systems that fulfil the goals and obligations for 2035 on climate, emissions and renewable shares. “Energy systems” in this case covers the potential for different renewable energy resources, infrastructure, the demand for energy in different sectors, and relevant policies.Along with the scenario analysis, five case studies have been developed: land transport; a small hybrid energy system in Igaliku, Greenland; electrification of fishing vessels; tourism; and the future energy system in Svalbard.
This project explores the energy systems and their development towards 2035 in the West Nordic areas and the Arctic. The objective of the project was to contribute to a knowledge base that can be shared and used in developing a sustainable and competitive energy systems that fulfil the goals and obligations for 2035 on climate, emissions and renewable shares. “Energy systems” in this case covers the potential for different renewable energy resources, infrastructure, the demand for energy in different sectors, and relevant policies. Along with the scenario analysis, five case studies have been developed: land transport; a small hybrid energy system in Igaliku, Greenland; electrification of fishing vessels; tourism; and the future energy system in Svalbard.
How to shift to renewable energy systems in sparsely populated areas? This guide provides tools for initiative takers and planners, to explore the potential in local resources and provide sustainable electricity and heating for the community. The guide includes a step-by-step guide through the project development process and presents advantages and challenges of optional technologies and energy systems, including heating and electricity from wind, sun, sea and fresh water, biomass and the ground. The focus of this guide is on implementation of renewable energy solutions in sparsely populated areas, based upon proven technologies that are available in the market, and to design reliable and affordable energy systems. Energy storage and smart energy management get special attention. Facts and numbers from a pilot project in Leirvik at the Faroe Islands illustrates how to use this guide.
How to shift to renewable energy systems in sparsely populated areas? This guide provides tools for initiative takers and planners, to explore the potential in local resources and provide sustainable electricity and heating for the community. The guide includes a step-by-step guide through the project development process and presents advantages and challenges of optional technologies and energy systems, including heating and electricity from wind, sun, sea and fresh water, biomass and the ground. The focus of this guide is on implementation of renewable energy solutions in sparsely populated areas, based upon proven technologies that are available in the market, and to design reliable and affordable energy systems. Energy storage and smart energy management get special attention. Facts and numbers from a pilot project in Leirvik at the Faroe Islands illustrates how to use this guide.
This project explores the energy systems and their development towards 2035 in the West Nordic areas and the Arctic. The objective of the project was to contribute to a knowledge base that can be shared and used in developing a sustainable and competitive energy systems that fulfil the goals and obligations for 2035 on climate, emissions and renewable shares. “Energy systems” in this case covers the potential for different renewable energy resources, infrastructure, the demand for energy in different sectors, and relevant policies.Along with the scenario analysis, five case studies have been developed: land transport; a small hybrid energy system in Igaliku, Greenland; electrification of fishing vessels; tourism; and the future energy system in Svalbard.
This project explores the energy systems and their development towards 2035 in the West Nordic areas and the Arctic. The objective of the project was to contribute to a knowledge base that can be shared and used in developing a sustainable and competitive energy systems that fulfil the goals and obligations for 2035 on climate, emissions and renewable shares. “Energy systems” in this case covers the potential for different renewable energy resources, infrastructure, the demand for energy in different sectors, and relevant policies. Along with the scenario analysis, five case studies have been developed: land transport; a small hybrid energy system in Igaliku, Greenland; electrification of fishing vessels; tourism; and the future energy system in Svalbard.
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