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1 |
ID:
116747
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Publication |
2012.
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Summary/Abstract |
Carbon capture and sequestration (CCS) can be an important technology option for China in addressing global climate change and developing clean energy technologies. Promoted by international climate conventions and supported by government research and development programs, an increasing number of CCS pilot and demonstration projects have been launched in China. In this study, we analyze the structure of China's CCS effort from a technological innovation system (TIS) perspective. Within this system, key socio-political components, including institutions, actor-networks, and technology development, are examined to evaluate the state of the innovation system. The study assessed the perceived capacity of seven functional areas of the CCS innovation system through a survey of key CCS actors and stakeholders. The findings suggest that China's CCS innovation system has a strong functional capacity for knowledge and technology development. It is significantly weaker in the innovative functions of knowledge diffusion, market formation, facilitating entrepreneurs and new entrants into the CCS market. Based on the evaluation of China's technological innovation system to develop CCS, the article articulates specific public policies to formulate a more robust innovation system to traverse the "valley of death" from research and development to commercial deployment and accelerate energy innovation in China.
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2 |
ID:
103326
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Publication |
2011.
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Summary/Abstract |
The development and diffusion of novel technologies, e.g. for decentralized energy generation, crucially depends on supportive institutional structures such as R&D programs, specific regulations, technical standards, or positive expectations. Such structures are not given but emerge through the interplay of different kinds of actors. In this paper, we study the role of formal networks in creating supportive structures in the technological innovation system for stationary fuel cells in Germany. Our findings are based on an in-depth study of five selected innovation networks. The analysis shows that the networks were strategically set up to support the creation of a variety of elements including public R&D programs, modules for vocational training, technical guidelines, standardized components, or a positive image of the technology. These elements have been reported to generate positive externalities in the field, e.g. as they help to establish user-supplier linkages in the emerging value chain. We conclude that, from a firm perspective such elements may represent strategically relevant resources made available at the innovation system level. This view opens up a link to the literature of strategic management, thus highlighting the importance of strategic action and cooperation in emerging technological fields.
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3 |
ID:
126536
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Publication |
2013.
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Summary/Abstract |
Countries face many problems for the development of renewable energy technologies. However these problems are not the same for different countries. This paper provides insight into the development of Hydrogen and Fuel Cell Technology (HFCT) in Iran (1993-2010), as an alternative for increasing sustainability of energy system in long-term. This is done by applying the Technological Innovation System (TIS) approach and studying the structure and dynamics of seven key processes that affect the formation of HFCT TIS. Thereafter, the pattern of HFCT development in Iran is compared with the Netherlands, using a multi-level perspective. Then, it is shown that under-development and oil-dependency, which are two macro-economic factors at landscape level, can explain the main differences between these countries at regime and niche levels. This means that macro-economic factors cause Iran and the Netherlands to experience different ways for the development of HFCT.
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4 |
ID:
124228
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Publication |
2013.
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Summary/Abstract |
There is increasing attention for the contribution of emerging economies to global innovation, including innovation of renewable energy technologies. The Technological Innovation Systems (TIS) framework presents a list of system functions for the analysis of the development of a technology. It has often been applied to renewable energy technologies, but with a strong focus on advanced economies. In this paper, we elaborate on emerging economy innovation system formation, structured according to TIS functions. Rather than analysing development of the technology, we analyse the development of the Chinese TIS vis-à-vis the global forefront. Key to this notion is that TIS, especially for clean-tech, are transnational phenomena. Lagging TIS depend on the global TIS, whereas leading TIS contribute to its formation. It is concluded that China has reduced its dependence on foreign knowledge and investment, but the outward contribution remains limited. The main challenge to foreign market expansion lies in reforming the domestic TIS to focus on turbine quality rather than cost reduction. Demonstration projects are needed, especially for large capacity and offshore turbine models, in order to build up operational history and get quality certification.
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5 |
ID:
126617
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Publication |
2013.
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Summary/Abstract |
Decarbonizing electricity production in the EU may necessitate building new "low-carbon" capacity (excluding nuclear investments) to deliver 3500 TWh by 2050. Offshore wind power has the potential to contribute substantially to fill this gap. Realizing this potential is, however, difficult since deployment offshore does not constitute a simple diversification by the onshore wind turbine industry to a new segment. This paper identifies factors obstructing the development of the northern European innovation system centered on offshore wind power, specifies a set of associated policy challenges and discusses various policy responses.
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6 |
ID:
128360
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Publication |
2014.
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Summary/Abstract |
Emerging economies are increasingly contributing to global innovation, including clean-tech innovation. The development of China's wind power sector has often been used to illustrate this point. China's domestic wind power market is the largest in the world and is largely supplied by domestic manufacturers. Competition for market share in the domestic market may pressure firms to innovate, which consecutively improves prospects for global expansion. This paper reviews developments in China's domestic wind turbine market using the Technological Innovation System framework. We analyze the pressure to innovate arising from market competition and assess the prospects for global expansion of Chinese wind turbine manufacturers. We conclude that domestic customers are not pressured or incentivized to perform with respect to power output, such that turbine manufacturers are not pressured to perform with respect to turbine efficiency or maintenance needs. Pressure to innovate is further reduced by formalizing connections between wind farm developers and turbine manufacturers. Chinese turbine manufacturers cannot yet compete with leading global brands in technological leadership. The prospects for exports are improved, however, by the preferential supply of project financing from institutional investors, such as the China Development Bank, from Chinese utilities that seek global expansion and from the manufacturers themselves.
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