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As the greatest coal-producing and consuming nation in the world, China would seem an unlikely haven for wind power. Yet the country now boasts a world-class industry that promises to make low-carbon technology more affordable and available to all. Conducting an empirical study of China's remarkable transition and the possibility of replicating their model elsewhere, Joanna I. Lewis adds greater depth to a theoretical understanding of China's technological innovation systems and its current and future role in a globalized economy. Lewis focuses on China's specific methods of international technology transfer, its forms of international cooperation and competition, and its implementation of effective policies promoting the development of a home-grown industry. Just a decade ago, China maintained only a handful of operating wind turbines—all imported from Europe and the United States. Today, the country is the largest wind power market in the world, with turbines made almost exclusively in its own factories. Following this shift reveals how China's political leaders have responded to domestic energy challenges and how they may confront encroaching climate change. The nation's escalation of its wind power use also demonstrates China's ability to leapfrog to cleaner energy technologies—an option equally viable for other developing countries hoping to bypass gradual industrialization and the "technological lock-in" of hydrocarbon-intensive energy infrastructure. Though setbacks are possible, China could one day come to dominate global wind turbine sales, becoming a hub of technological innovation and a major instigator of low-carbon economic change.
An examination of barriers that impede and incentives that motivate the global development and deployment of cleaner energy technologies, with case studies from China. The development and deployment of cleaner energy technologies have become globalized phenomena. Yet despite the fact that energy-related goods account for more than ten percent of international trade, policy makers, academics, and the business community perceive barriers to the global diffusion of these emerging technologies. Experts point to problems including intellectual property concerns, trade barriers, and developing countries' limited access to technology and funding. In this book, Kelly Gallagher uses analysis and case studies from China's solar photovoltaic, gas turbine, advanced battery, and coal gasification industries to examine both barriers and incentives in clean energy technology transfer. Gallagher finds that the barriers are not as daunting as many assume; these technologies already cross borders through foreign direct investment, licensing, joint R&D, and other channels. She shows that intellectual property infringement is not as widespread as business leaders fear and can be managed, and that firms in developing countries show considerable resourcefulness in acquiring technology legally. She finds that financing does present an obstacle, especially when new cleaner technologies compete with entrenched, polluting, and often government-subsidized traditional technologies. But the biggest single barrier, she finds, is the failure of government to provide sensible policy incentives. The case studies show how government, through market-formation policy, can unleash global market forces. Gallagher's findings have theoretical significance as well; she proposes a new model of global technology diffusion that casts doubt on aspects of technology transfer theory.
Analyzes how the transfer of advanced automobile technology from U.S. firms affects the environment and economic development in China; with detailed case studies of Chinese joint ventures with Jeep, GM, and Ford.
Low carbon technology transfer to developing countries has been both a lynchpin of, and a key stumbling block to a global deal on climate change. This book brings together for the first time in one place the work of some of the world's leading contemporary researchers in this field. It provides a practical, empirically grounded guide for policy makers and practitioners, while at the same time making new theoretical advances in combining insights from the literature on technology transfer and the literature on low carbon innovation. The book begins by summarizing the nature of low carbon technology transfer and its contemporary relevance in the context of climate change, before introducing a new theoretical framework through which effective policy mechanisms can be analyzed. The north-south, developed-developing country differences and synergies are then introduced together with the relevant international policy context. Uniquely, the book also introduces questions around the extent to which current approaches to technology transfer under the international policy regime might be considered to be 'pro-poor'. Throughout, the book draws on cutting edge empirical work to illustrate the insights it affords. The book concludes by setting out constructive ways forward towards delivering on existing international commitments in this area, including practical tools for decision makers.
The United States and China are the world's top two energy consumers and, as of 2010, the two largest economies. Consequently, they have a decisive role to play in the world's clean energy future. Both countries are also motivated by related goals, namely diversified energy portfolios, job creation, energy security, and pollution reduction, making renewable energy development an important strategy with wide-ranging implications. Given the size of their energy markets, any substantial progress the two countries make in advancing use of renewable energy will provide global benefits, in terms of enhanced technological understanding, reduced costs through expanded deployment, and reduced greenhouse gas (GHG) emissions relative to conventional generation from fossil fuels. Within this context, the U.S. National Academies, in collaboration with the Chinese Academy of Sciences (CAS) and Chinese Academy of Engineering (CAE), reviewed renewable energy development and deployment in the two countries, to highlight prospects for collaboration across the research to deployment chain and to suggest strategies which would promote more rapid and economical attainment of renewable energy goals. Main findings and concerning renewable resource assessments, technology development, environmental impacts, market infrastructure, among others, are presented. Specific recommendations have been limited to those judged to be most likely to accelerate the pace of deployment, increase cost-competitiveness, or shape the future market for renewable energy. The recommendations presented here are also pragmatic and achievable.
Technological revolutions have increased the world’s wealth unevenly and in ways that have accelerated climate change. This report argues that achieving The Paris Agreement’s objectives would require a massive transfer of existing and commercially proven low-carbon technologies (LCT) from high-income to developing countries where the bulk of future emissions is expected to occur. This mass deployment is not only a necessity but also an opportunity: Policies to deploy LCT can help countries achieve economic and other development objectives, like improving human health, in addition to reducing greenhouse gases (GHGs). Additionally, LCT deployment offers an opportunity for countries with sufficient capabilities to benefit from participation in global value chains and produce and export LCTs. Finally, the report calls for a greater international involvement in supporting the poorest countries, which have the least access to LCT and finance and the most underdeveloped physical, technological, and institutional capabilities that are essential to benefit from technology.
Openness and competition sparked major advances in Chinese industry. Recent policy reversals emphasizing indigenous innovation seem likely to disappoint.
An increase in global access to goods and knowledge is transforming world-class science and technology (S&T) by bringing it within the capability of an unprecedented number of global parties who must compete for resources, markets, and talent. In particular, globalization has facilitated the success of formal S&T plans in many developing countries, where traditional limitations can now be overcome through the accumulation and global trade of a wide variety of goods, skills, and knowledge. As a result, centers for technological research and development (R&D) are now globally dispersed, setting the stage for greater uncertainty in the political, economic, and security arenas. These changes will have a potentially enormous impact for the U.S. national security policy, which for the past half century was premised on U.S. economic and technological dominance. As the U.S. monopoly on talent and innovation wanes, arms export regulations and restrictions on visas for foreign S&T workers are becoming less useful as security strategies. The acute level of S&T competition among leading countries in the world today suggests that countries that fail to exploit new technologies or that lose the capability for proprietary use of their own new technologies will find their existing industries uncompetitive or obsolete. The increased access to information has transformed the 1950s' paradigm of "control and isolation" of information for innovation control into the current one of "engagement and partnerships" between innovators for innovation creation. Current and future strategies for S&T development need to be considered in light of these new realities. This book analyzes the S&T strategies of Japan, Brazil, Russia, India, China, and Singapore (JBRICS), six countries that have either undergone or are undergoing remarkable growth in their S&T capabilities for the purpose of identifying unique national features and how they are utilized in the evolving global S&T environment.
The global implications of China's rise as a global actor In 2005, a senior official in the George W. Bush administration expressed the hope that China would emerge as a “responsible stakeholder” on the world stage. A dozen years later, the Trump administration dramatically shifted course, instead calling China a “strategic competitor” whose actions routinely threaten U.S. interests. Both assessments reflected an underlying truth: China is no longer just a “rising” power. It has emerged as a truly global actor, both economically and militarily. Every day its actions affect nearly every region and every major issue, from climate change to trade, from conflict in troubled lands to competition over rules that will govern the uses of emerging technologies. To better address the implications of China's new status, both for American policy and for the broader international order, Brookings scholars conducted research over the past two years, culminating in a project: Global China: Assessing China's Growing Role in the World. The project is intended to furnish policy makers and the public with hard facts and deep insights for understanding China's regional and global ambitions. The initiative draws not only on Brookings's deep bench of China and East Asia experts, but also on the tremendous breadth of the institution's security, strategy, regional studies, technological, and economic development experts. Areas of focus include the evolution of China's domestic institutions; great power relations; the emergence of critical technologies; Asian security; China's influence in key regions beyond Asia; and China's impact on global governance and norms. Global China: Assessing China's Growing Role in the World provides the most current, broad-scope, and fact-based assessment of the implications of China's rise for the United States and the rest of the world.