Asia & the Pacific

25 Items

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.

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? 

A man prepares to charge his electric-powered vehicle parked at a shopping mall in Beijing, Monday, Sept. 11, 2017.

AP Photo/Andy Wong

Paper - Environment and Natural Resources Program, Belfer Center

The Role of Electric Vehicles in Decarbonizing China’s Transportation Sector

| April 2019

This paper focuses on the deep decarbonization of the transportation sector. The first part of the paper provides an assessment of China’s efforts to stimulate the rapid deployment of electric vehicles. The second part analyzes the CO2 equivalent reductions from a 20% electric vehicle deployment scenario. It concludes that under most assumptions, emissions will be reduced, but the total reduction will be less than many people believe due to the carbon intensity of battery manufacturing.

A satellite view of the Gansu Dunhuang Solar Park, a photovoltaic power station under construction in Gansu Provence, as seen on June 9, 2018.

DigitalGlobe, CNES/Airbus, Google Earth, used with permission

Report - Environment and Natural Resources Program, Belfer Center

Harvard-Tsinghua Workshop on Low-Carbon Development and Public Policy

| September 2018

The Belfer Center’s Environment and Natural Resources Program and the Center for Science, Technology, and Education Policy at Tsinghua University held the fifth annual Tsinghua-Harvard Workshop on Low-Carbon Development and Public Policy. This event brought together leading experts on climate and energy from academic, business, and government communities in both the United States and China. This year’s workshop focused on electricity systems and renewable energy penetration.

Report

Foundations of Decarbonization in China: A Post-2030 Perspective

| July 2017

The Harvard-Tsinghua Workshop on Low-Carbon Development and Public Policy is the fourth annual joint workshop between the Harvard Kennedy School’s Environment and Natural Resources Program and the Center for Science, Technology, and Education Policy at Tsinghua University. The workshop convened leading experts on climate and energy from the United States and China at Tsinghua University in Beijing, China, on June 1-2, 2017.

The workshop was divided into five sessions. The first two sessions focused on the scope of the climate problem and the options for addressing it. The following three sessions explored specific options: renewable energy, nuclear power, and air pollution regulation.

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.

Report

China's Carbon Emissions Report 2015

| May 2015

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.

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.