Asia & the Pacific

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.

Scientists from three universities demonstrate that buying a product made in China causes significantly higher carbon dioxide emissions than purchasing the same product made elsewhere.

The Energy Technology Innovation Policy research group at the Harvard Kennedy School and the Tsinghua School of Public Policy and Management convened a workshop at Tsinghua University in Beijing on June 18–19, 2015 to build on the momentum created by the U.S.-China joint emissions agreement and the upcoming Paris negotiations. The objective of the Workshop was to discuss the current state of affairs in China, in the United States, and in selected other countries as well as academic research on: (1) the funding and allocation of government investments in R&D, with a particular focus in energy; (2) the impact of policy on private sector innovation in energy; and (3) the management of publicly funded R&D organizations.

The authors findings suggest that overestimation of China's emissions in 2000–2013 may be larger than China's estimated total forest sink in 1990–2007 or China's land carbon sink in 2000–2009.The revisions of the Chinese emissions are substantial enough that they may lead to adjustments in the Global Carbon Cycle.

China is the world's largest emitter of carbon dioxide, accounting for one-quarter of the global total in 2013. Although the country has successfully lowered the rate of emissions from industry in some cities through improved technology and energy-efficiency measures, rapid economic growth means that more emissions are being added than removed. Without mitigation, China's CO2 emissions will rise by more than 50% in the next 15 years.

The magnitude and growing annual rate of growth of China's carbon emissions make this country the major driver of global carbon emissions and thus a key focus for efforts in emissions mitigations. This report presents independent data on China's carbon emissions from 1950–2012, and provides a basis to support mitigation efforts and China's low-carbon development plan.

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.

The Science, Technology, and Public Policy (STPP) Programis seeking a new colleague to manage, coordinate, and conduct research for a major research project. The project examines a wide range of issues focusing on innovations, climate mitigation, and sustainable energy alternatives in China, the United States, and the European Union.

"Getting individuals to take responsibility for their energy consumption is not just an issue of building short-term awareness of a cause. Rather, these campaigns require changes to long-standing habits, perhaps through constant reminders that emphasize individual action. Climate action therefore raises questions of both the desired intensity and frequency of messages in promoting behavioral change."

The energy sector is increasingly facing water scarcity constraints in many regions around the globe, especially in China, where the unprecedented large-scale construction of coal-fired thermal power plants is taking place in its extremely arid northwest regions. As a response to water scarcity, air-cooled coal power plants have experienced dramatic diffusion in China since middle 2000s. By the end of 2012, air-cooled coal-fired thermal power plants in China amounted to 112 GW, making up 14% of China's thermal power generation capacity. But the water conservation benefit of air-cooled units is achieved at the cost of lower thermal efficiency and consequently higher carbon emissions intensity.