257 Items

Video - Harvard University Center for the Environment

Video: Foundations for a Low-Carbon Energy System in China

Daniel Schrag and Henry Lee discuss the policies China could enact in the near-term to ease its transition to a low-carbon economy, the subject of their book Foundations for a Low-Carbon Energy System in China (Cambridge University Press, 2021). 

A field of manganese nodules off the coast of Hawaii

NOAA Office of Ocean Exploration and Research, 2015 Hohonu Moana

Analysis & Opinions - The Wire China

The Ocean Edge

| Nov. 06, 2022

The energy transition has made deep-sea mining for critical minerals cost-competitive for the first time, and Chinese companies are champing at the bit to start mining at a commercial scale. The United States and its partners, by contrast, have been caught on the back foot when it comes to China’s stranglehold on the critical mineral supply chain. With the geopolitical rivalry between China and the United States intensifying, many Western observers say the United States can’t afford to lose the scramble for the seabed. 

Book - Cambridge University Press

Foundations for a Low-Carbon Energy System in China

How can China make good on its pledge to reach carbon neutrality by 2060? In Foundations for a Low-Carbon Energy System in China, a team of experts from China and the United States explains how China's near-term climate and energy policies can affect long-term decarbonization pathways beyond 2030, building the foundations for a smoother and less costly national energy transformation.

solar power plant

Wikimedia CC/Thomas Lloyd Group

Journal Article - Energy Research & Social Science

Lessons for Renewable Integration in Developing Countries: The Importance of Cost Recovery and Distributional Justice

| July 2021

This article examines both the premise and prescription of the argument to integrate renewable electricity in developing countries through elements of the standard model (such as a wholesale spot market, or an independent system operator for dispatch). This is done by highlighting the differences between power sector reform experiences in the developing and developed worlds, and the causal mechanisms underlying these differences.

A hydrogen fuel cell in a workshop

Adobe Stock

Policy Brief

China: The Renewable Hydrogen Superpower?

| May 2021

Renewable hydrogen offers significant advantages for China. It can help Beijing meet its climate and pollution goals—at a time when coal continues to dominate—while avoiding increased reliance on imported fuels. As a readily dispatchable means of storing energy, hydrogen can help to address intermittency and curtailment issues as renewable energy increases its share of China’s energy mix. As a sustainable mobility energy carrier, it can power fuel-cell electric vehicles or be the base for synthetic fuels. Finally, renewable hydrogen can open new avenues for developing clean technology manufactured goods for both internal and export markets.

Truck transporting coal on a smoggy day in Beijing

Hans-Peter Hein/Flickr

Analysis & Opinions - Wiley Interdisciplinary Reviews: Climate Change

Key Challenges for China's Carbon Emissions Trading Program

| May 2019

China's national carbon emissions trading program is expected to become the world's largest carbon market and is critical for achieving China's domestic mitigation goals. But China's trading program is likely to face significant challenges, due to its large scale and high complexity. To address these challenges, we provide a series of policy recommendations, including capacity building from central to local levels, wise selection of allowance allocation methods to cope with changing economic realities, and deepening market-oriented reforms in energy sectors and SOEs.

Charging electric Vehicle

Flickr/Sino-German Urbanization Partnership

Journal Article - Elsevier Inc.

Electric Vehicle Recycling in China: Economic and Environmental Benefits

    Authors:
  • Fuquan Zhao
  • Zongwei Liu
  • Han Hao
| January 2019

With the rapid growth of electric vehicles in China, their benefits should be scientifically identified to support the industry development. Although the life cycle benefits of electric vehicles have been analyzed worldwide, the recycling phase has not been fully studied yet, especially in China. Therefore, this study focuses on the economic and environmental benefits of electric vehicle recycling in China. Based on the technology adopted by leading enterprises, the gross income and reduction of energy consumption and greenhouse gas emissions are calculated to reveal the benefits.

coal-fired power plant in Shuozhou, Shanxi, China

Wikimedia CC/Kleineolive

Journal Article - Nature Sustainability

Managing China's Coal Power Plants to Address Multiple Environmental Objectives

    Authors:
  • Fabian Wagner
  • M.V. Ramana
  • Haibo Zhai
  • Mitchell J. Small
  • Carole Dalin
  • Xin Zhang
  • Denise L. Mauzerall
| November 2018

China needs to manage its coal-dominated power system to curb carbon emissions, as well as to address local environmental priorities such as air pollution and water stress. In this article, the authors examine three province-level scenarios for 2030 that represent various electricity demand and low-carbon infrastructure development pathways.

a man looks up near smoke spewing from a chimney near the Jiujiang steel and rolling mills in Qianan

AP/Ng Han Guan, File

Journal Article - Nature Sustainability

Air Quality–Carbon–Water Synergies and Trade-offs in China's Natural Gas Industry

    Authors:
  • Yue Qin
  • Lena Höglund-Isaksson
  • Edward Byers
  • Kuishuang Feng
  • Fabian Wagner
  • Denise L. Mauzerall
| Sep. 14, 2018

Both energy production and consumption can simultaneously affect regional air quality, local water stress and the global climate. Identifying the air quality–carbon–water interactions due to both energy sources and end-uses is important for capturing potential co-benefits while avoiding unintended consequences when designing sustainable energy transition pathways. The authors examine the air quality–carbon–water interdependencies of China's six major natural gas sources and three end-use gas-for-coal substitution strategies in 2020.