Asia & the Pacific

104 Items

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.

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.

Shanghai, China

Li Yang / Unsplash

Report

Is China's Hydrogen Economy Coming?

| July 28, 2020

This paper focuses on China and the potential role of renewable hydrogen in accelerating its transition to a low-carbon economy. Our research goal is to provide policymakers and other stakeholders the means to make informed decisions on technology innovation, policy instruments, and long-term investments in enabling infrastructure.

U.S. Energy Secretary Rick Perry is silhouetted near the words "Clean Energy"

AP/Ng Han Guan

Analysis & Opinions - Berkeley Blog

How to Globalize Clean Energy

| June 20, 2020

The authors argue that more determined efforts to globalize renewable energy transmission can confer significantly higher economic and environmental benefits from renewables on billions of people. This can be done by exploiting spatial differences between electricity loads and net renewable generation across time zones (temporal arbitrage) and latitude (seasonal arbitrage). Using very long distance, ultra-high voltage (UHV) transmission infrastructure, temporal and spatial arbitrage can move low-cost clean electricity from areas with excess capacity to high demand zones in other countries and even continents.

Kinnaur Kailash, Kalpa, Himachal Pradesh, India

Saurav Kundu/Unsplash

Policy Brief

Should Regulators Make Electric Utilities Pay Customers for Poor Reliability?

| June 09, 2020

This policy brief describes the persistent challenge of poor electricity reliability in India and how it interacts with key regulatory policies, analyzes Delhi’s experience with outage compensation since 2017, and highlights areas for additional economic and policy research on this topic.

The Minister of State (I/C) for Power and New and Renewable Energy, Shri Raj Kumar Singh

Ministry of New and Renewable Energy (GODL-India)

Journal Article - World Development

Urban Waste to Energy Recovery Assessment Simulations for Developing Countries

In this paper, a quantitative Waste to Energy Recovery Assessment (WERA) framework is used to stochastically analyze the feasibility of waste-to-energy systems in selected cities in Asia.

Discussion Paper - Harvard Project on Climate Agreements

Creating Subnational Climate Institutions in China

| December 2019

This discussion paper (available in English and Chinese) describes the evolution of decentralization over the reform period that began in China in 1978, different theories of institutional change in China, and how the empirical and theoretical literatures help scholars and policymakers understand the development of institutions for governing GHG-emitting activities.

A prototype Tesla Semi truck at Tesla HQ in California, April 22, 2019.

Flickr/Steve Jurveston

Paper - Environment and Natural Resources Program, Belfer Center

Environmental Implications and Policy Challenges for Bringing Long-Haul Electric Trucks into China: The Case of the Tesla Semi

| July 2019

The Tesla Semi is a battery powered electric long haul truck currently in the prototype phase. Since cost and technological barriers have prevented electric vehicles from making significant inroads into the market for long haul trucks, the announcement of the Tesla Semi marks one of the first major attempts to bring electrification to on-road long haul freight transport. China, as the world’s largest carbon emitter, is an important market for truck electrification. China has a bourgeoning passenger electric vehicle market but, like the rest of the world, is reliant on heavily polluting diesel trucks for on-road freight transport. 

This paper addresses two main questions:

  1. What are the potential impacts on carbon emissions of electric long haul trucks in China? 
  2. What are the barriers to the adoption of electric long haul trucks in China?