Asia & the Pacific

32 Items

A satellite view of the Baihetan Dam, under construction on the Jinsha River in Yunnan province, February 4, 2020.

CNES/Airbus, used with permission

Paper

China Trading Power: Improving Environmental and Economic Efficiency of Yunnan’s Electricity Market

| March 2021

In this report, we propose a market reform pathway for Yunnan that is both feasible and applicable to address some of these challenges immediately, while aiming for a standard design based on well-documented international experience. Our proposal includes at its heart a pay-for-performance monthly capacity auction that can help cover revenue deficiencies in the energy market. Building on international experience with capacity markets, this approach provides incentives for availability when generation is needed most and is compatible with the adoption of a single energy market for all electricity resources. Out-of-market payments to cover stranded costs of certain firms can thus be minimized. Finally, engaging consumers in both these energy and capacity markets can create high-powered incentives to shift consumption to low-cost months and hours, benefitting the entire province.

Discussion Paper - Energy Technology Innovation Policy Project, Belfer Center

Increasing Residential Building Energy Efficiency In China: An Evaluation of Policy Instruments

| April 2016

Various policies targeting at building energy efficiency have been promulgated by the Chinese government in the past decade. However, few studies evaluate if China is on the right path to meet its energy goals through these policies by providing an assessment of their effect in reducing energy consumption in residential buildings or the feasibility of such policies to catalyze these reductions. This paper attempts to fill this gap by systematically quantifying (1) the energy savings catalyzed by existing policy instruments; (2) the additional energy savings that could be realized by strengthening these policies; and (3) the relative advantages of each policy.

The wind turbine outside RRB Energy factory in Chennai, India, March 9, 2013.

Creative Commons

Report - Energy Technology Innovation Policy Project, Belfer Center

Energy Technology Innovation Policy in the Backdrop of the U.S.-China Emissions Agreement

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.

Journal Article - Nature

Steps to China's Carbon Peak

| June 18, 2015

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.

Report

Low Carbon Shanghai

August 2014

Reducing carbon emissions in Shanghai is a huge undertaking and involves every facet of both energy supply options and energy consumption patterns. The report focuses on three areas: 1. The integration of land use, transportation, and housing planning; 2. Improving building efficiency; and 3. Improving electricity use in building operations. As public concern over conventional air pollutants grows and the demand for air conditioning in the increasingly hot summers and heating in the winter rises, the potential of "locking-in" inefficient and costly energy use patterns increases. This report addresses these challenges.

A coal mine near Hailar, northeastern Inner Mongolia Autonomous Region, China, 13 August 2005.

Herry Lawford Photo

Analysis & Opinions - The South China Morning Post

China's Coal Addiction a Threat to Its Energy Security

| May 14, 2014

"...[U]ntil now, Beijing's response to unmet energy demand has focused primarily on securing resources overseas, and building infrastructure for imports. China now generates more electricity from imported coal than from nuclear, wind and solar combined. Without a strong, coordinated policy shift, the country will depend on fuel imports for most of its energy consumption by the time it becomes a developed country."

Steel mills, Benxi, China, Feb.12, 2013. Steel mills and other heavy industries amplify carbon emissions where they are located while the products are consumed in more affluent parts of China.

Photo by Andreas

Analysis & Opinions - Nature

A Low-carbon Road Map for China

    Authors:
  • Dabo Guan
  • Douglas Crawford-Brown
  • Qiang Zhang
  • Kebin He
  • Jianguo Liu
| August 8, 2013

"First, China must move away from coal and boost recycling and renewable energies. Second, emissions-mitigation indicators, such as energy-efficiency targets, should be set relative to physical output (such as tonnes of steel production) rather than to economic growth. Third, regional energy supply and demand must be balanced. Fourth, energy prices should be linked to market mechanisms rather than set centrally by authorities. And fifth, China must reduce air pollutants alongside CO2 emissions."

Volkswagens Golf electric cars and Touareg hybrid cars pass by Tiananmen Square in Beijing, China, 6 April 2011. Volkswagen China announced that the first demonstrative electric car motorcade of Volkswagen worldwide will be in Beijing.

AP Photo

Journal Article - Energy Policy

Oil Development in China: Current Status and Future Trends

    Authors:
  • Linwei Ma
  • Zheng Li
  • Pei Liu
| June 2012

This paper attempts to present a full picture of the current status and future trends of China's oil development through system analysis. The authors design three scenarios of China's oil demand in 2030 and analyze policy implications for oil conservation, automotive energy development, and energy security. From their analysis, they draw some conclusions for policy decisions, such as controlling total oil consumption to avoid energy security risks, enhancing oil conservation in all sectors with the emphasis on road transportation, and increasing investment in oil production and refining to secure oil supply and reduce emissions.