Asia & the Pacific

29 Items

In 2011, science advisors to the presidents of China and the United States, Wan Gang and John P. Holdren, hold a photo of the historic 1979 U.S.-China agreement on science and engineering.

USDA

- Belfer Center for Science and International Affairs, Harvard Kennedy School Belfer Center Newsletter

Center's Energy Work Wields Impact and Influence Around the World

| Fall/Winter 2016-2017

The Belfer Center began researching energy technology issues in the late 1990s. Its mission was “to determine and promote the adoption of effective strategies for developing and deploying cleaner and more efficient energy technologies that can reduce greenhouse gas emissions, reduce dependence on fossil fuels and stress on water resources, and improve economic development.”

In this issue, we look at the history and influence of the Center’s energy innovation efforts in the past two decades by focusing primarily on ETIP’s work in the U.S. and China.

- Belfer Center for Science and International Affairs, Harvard Kennedy School Belfer Center Newsletter

Collaborative Workshop Will Inform Plans for U.S.-China Emissions Deal

Summer 2015

The Belfer Center’s Energy Technology Innovation Policy group is co-organizing a major workshop with China’s Tsinghua University on “Energy Technology Innovation on the “Backdrop of the U.S./China Emissions Deal.” Belfer Center’s Professors Laura Diaz Anadon, Henry Lee and Venky Narayanamurti are planning the June event with Tsinghua University Professor Su Jun, a former Science, Technology, and Public Policy fellow.

Journal Article - Renewable and Sustainable Energy Reviews

International Support for Feed-in Tariffs in Developing Countries—A Review and Analysis of Proposed Mechanisms

| November 2014

"Government support in the form of so-called feed-in tariff policies (FITs), which combine long-term, fixed-price electricity purchase agreements and guaranteed grid-access, has attracted large private-sector investments in sustainable electricity generation in the industrialized world. In an effort to replicate these experiences globally, a number of international organizations, NGOs, banks and donor countries are proposing mechanisms to cover part of the cost of FITs in developing countries. This paper reviews these proposals for supported FITs and then uses a case study of Thailand's Alternative Energy Development Plan 2013–2021 to investigate the opportunities and challenges of supporting FITs at a global scale."

Wind turbine visible above Nai Harn Beach, Phuket, Thailand, March 16, 2010.

ADwarf Photo

Journal Article - Journal of Cleaner Production

The Effect of Local and Global Learning on the Cost of Renewable Energy in Developing Countries

| In Press

High upfront costs are a critical barrier for investments in clean infrastructure technologies in developing countries. This paper uses a case study of Thailand's electricity sector to create realistic estimates for the relative contributions of local and global technological learning to reducing these cost in the future and discusses implications of such learnings for international climate policy.

Book - MIT Press

The Globalization of Clean Energy Technology: Lessons from China

| April 2014

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.

Smokestack emitting pollution in Zhengzhou, China, 28 January 2012.

Flora-Victoria Photo

Journal Article - Environmental Science and Technology

Decoupling Analysis and Socioeconomic Drivers of Environmental Pressure in China

    Authors:
  • Sai Liang
  • Douglas Crawford-Brown
  • Yafei Wang
  • Ming Xu
| 2014

China's unprecedented change offers a unique opportunity for uncovering relationships between economic growth and environmental pressure. Here the authors show the trajectories of China's environmental pressure and reveal underlying socioeconomic drivers during 1992−2010. Mining and manufacturing industries are the main contributors to increasing environmental pressure from the producer perspective. Changes in urban household consumption, fixed capital formation, and exports are the main drivers from the consumer perspective....Environmental sustainability can only be achieved by timely technology innovation and changes of production structure and consumption pattern.

A woman looks at the Chinese made bullet train CRH380 series miniature models on display at an exhibition featuring the science and technology achievement in China at the National Convention Center in Beijing, March 7, 2011.

AP Photo

Journal Article - Energy Policy

The Evolution of China's National Energy RD&D Programs: The Role of Scientists in Science and Technology Decision Making

| October 2013

Since 1978, when China launched its "opening up" reform, a range of large-scale national science and technology programs have been implemented to spur economic development. Energy has received significant attention and has become a growing priority in the past years. This article analyzes the goals, management, and impact over time of China's three largest national programs: Gong Guan, 863, and 973 Programs. Using quantitative metrics to describe the input and output, by conducting semi-structured interviews with officials, scientists, and other decision makers, and by reviewing available documents as well as a case study on the coal sector, the authors examined the changes in the decision making process, particularly in regard to the role of scientists.

The construction site of Shahe Aqueduct Project, part of the South-North Water Transfer Project, in China's Henan province, May 10, 2012. It is the world's largest aqueduct project.

AP Photo

Analysis & Opinions - International Herald Tribune

China's Massive Water Problem

| March 28, 2013

"Beijing needs to stop relying on technology to avoid making hard choices about scarce resources. The United States and the rest of the world need to push the Chinese government to make its development more sustainable through political reform, lest China's economy and social stability be endangered."

A model wind turbine at the 2011 China International Industry Fair in Shanghai, Nov. 1, 2011. Shanghai Electric Group and Siemens have announced a joint venture, which includes a wind turbine manufacturing company targeting Chinese and global markets.

AP Photo

Journal Article - Energy Policy

Behind the Development of Technology: The Transition of Innovation Modes in China's Wind Turbine Manufacturing Industry

| April 2012

The market scale of China's wind turbine manufacturing industry has grown immensely. Despite China still having a limited capacity in terms of technology innovation, the institutional support has promoted the technology capability development of the wind turbine manufacturing industry. This paper explores the driving forces underlying this development by reviewing the transition of the innovation modes and the dynamic interactions among the technology capability, innovation modes, market formation, and wind energy policy. The innovation mode in China began with imitative innovation, then transitioned to cooperative innovation, and has more recently set its sights on attaining truly indigenous innovation. Public policy serves as a key driving force for the evolution of innovation modes, as well as the development of the market.