The economic opportunities and constraints of green growth

노트 : Asie.Visions is an electronic publication dedicated to Asia. With contributions by French and international experts, Asie.Visions deals with economic, strategic, and political issues. The collection aims to contribute to the global debate and to a better understanding of the regional issues at stake. It is published in French and/or in English and upholds Ifri’s standards of quality (editing and anonymous peerreview)

State-of-the-Art Renewable Energy in Korea

Nowadays, renewable energy plays an important role in our daily lives. This Special Issue addresses the current trend in the use of renewable energy in South Korea. The first aspect is a renewable-based power system, where both main and ancillary supplies are sourced from renewable energies; the second aspect is a distribution network for renewable energy; and the last aspect is a nanogrid network technology. Renewable energy requires many innovations over existing power infrastructure and regulation. These articles show the changing trend in various sectors in Korea

Using Smart Grids to Enhance Use of Energy-Efficiency and Renewable-Energy Technologies

The picture of electrification across the Asia Pacific Economic Cooperation (APEC) economies is complex. APEC members are in various states of smart grid development, ranging from no activity, conducting demonstrations, and engaging in joint projects with other economies. Each member economy has unique attributes that influence the benefits of smart grid capabilities and affect the priorities given to deployment strategies. To help provide insights into this complex topic, this work surveys APEC economies and characterizes the status of smart grid activities. It also identifies APEC economies that are actively pursuing smart grid capabilities to address environmental and economic sustainability goals. Finally, the report explores the potential application of smart grid capabilities to resolve renewable-integration and energy-efficiency concerns so future directions or roadmaps in this area can be developed by interested economies

Governing the transition of socio-technical systems: A case study of the development of smart grids in Korea

a b s t r a c t This paper examines the motivations, processes and outcomes of the development of smart grids in South Korea through the perspectives of governance and innovation systems. Drawing on desktop research and semi-structured interviews, this paper has two major findings. First, the development of smart grids in Korea has been shaped by various factors including macroeconomic policy, the role of the government, and experimentation. The complex interactions between these factors at the landscape, regime and niche levels has impacted on the development of smart grids. Second, while Korea's government-led approach has its strengths in driving change, it has also exposed weaknesses in the country's ability to mobilise the private sector and consumer participation. Major obstacles including partial electricity market reform and public distrust exist. A systemic perspective is needed for policy in order to accommodate the changes required for smart grid development. Regulatory reforms, particularly price-setting mechanisms, and consumer engagement are priority areas for policy change

Investigating the peculiarities of sustainable energy policies in islands communities for smart grid development: insights from complexity science and agent based models

Initiatives and projects ranging from European islands to the Falklands and the Pacific Fiji islands are implementing renewable energy sources. They not only address the unique features of islands but also to reduce the economic vulnerability of small island states and in some cases, regenerate depopulated island communities and enhance socio-economic and ecological sustainability. Islands are often regarded as laboratories for, or precursors of, wider energy transitions and the “smart grid” innovation makes no exception. The “smart grid” is an umbrella term that covers modernization of both the transmission and active distribution grids and the different competing smart grid architectures could transform the electricity industry and the relations with consumers and prosumers. This paper asks two – relatively simple – questions: are there any socio-technical energy systems and dominant designs more prone to emerge depending on the topologies and scale of islands? How far can we learn and scale up lessons from the studies of island energy communities that are useful in other Complex Adaptive Systems (CAS) with greater scale and interconnectivity? This exploratory paper is part of on-going research project (CASCADE) to model smart grids as Agent Based Systems embracing concepts and techniques from Complexity Science. There are three key objectives. The paper initially summarizes the key particuliarities of island energy systems, including the scale and boundaries to the socio-technical system that combine to determine the appropriateness of different energy responses, balancing and optimizing the various combinations of distributed renewable generation, energy storage (including plug-in cars), and loads. From this, a provisional conceptual model will be presented which identifies the range of factors that (re)configure to influence the potential dissemination of new energy technologies within island communities and the range of agents that influence that process. The paper will build on an expanding literature on modelling societal transitions with cognitive agents and agent transformation to justify our modelling choices. Central to the question is how to represent the cognitive agents and their adoption of new technologies and adaptation patterns.Validation may benefit from data from the Bornholm smartgrid case and other case studies

Smart Grid in a New Zealand Context

The following report examines the Smart Grid in the context of New Zealand. It begins by developing a definition for what the Smart Grid actually by looking at various international organisations views. Defining the Smart Grid as a modernisation of the existing system to improve efficiency and reliability and that it will be a gradual process of time that has already begun. The report then goes on to look at Smart Grid progress around the world. It examines work in North America, Europe, Asia and Australia. By examining the government policies around Smart Grids and the various pilot projects that have been implemented globally, a better understanding the progress New Zealand has made can be achieved. A major point that has been noted in this work is the shear size of the investment and resources that have already used in the Smart Grid arena. The next section of the report looks at international standards development. The focus is on work carried out by the International Electrotechnical Commission the National Institute of Standards and Technology in North America. Both these organisations have developed a Smart Grid standards roadmap outlining a number of current standards applicable to Smart Grids, identifying the gaps in the standards portfolio and developing plans to address those shortcomings. The report then goes on to examine current Smart Grid progress in the New Zealand context. The various different sectors in the New Zealand electricity industry are examined individually including government, generation, transmission, distribution and retail. The findings show there is already good progress in Smart Grid related goals such as renewable energy generation and peak load management. However, there is still some work needed for aspects such as AMI standardisation. The report then finishes with a discussion and concluding remarks

Ocean Energy in Belgium - 2019

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Reviewing the climate change adaptation readiness of the Australian national electricity market institutions

This paper aims to identify climate change adaptation issues in the Australian National Electricity Market by assessing the robustness of the institutional arrangements that support effective adaptation. The paper finds that three major factors are hindering or are required for adaptation to climate change: institutional fragmentation both economically and politically; distorted transmission and distribution investment deferment mechanisms; and lacking mechanisms to develop a diversified energy portfolio. Proposed solutions to the three factors are discussed. These proposed solutions are tested and examined in forthcoming reports