Energy

114 Items

Visitors tour past military vehicles carrying the Dong Feng 41 and DF-17 ballistic missiles at an exhibition highlighting President Xi Jining and his China's achievements under his leadership, at the Beijing Exhibition Hall in Beijing on Oct. 12, 2022.

AP Photo/Andy Wong

Analysis & Opinions - Foreign Affairs

China’s Misunderstood Nuclear Expansion: How U.S. Strategy Is Fueling Beijing’s Growing Arsenal

    Authors:
  • M. Taylor Fravel
  • Henrik Stålhane Hiim
  • Magnus Langset Trøan
| Nov. 10, 2023

Among the many issues surrounding China’s ongoing military modernization, perhaps none has been more dramatic than its nuclear weapons program. For decades, the Chinese government was content to maintain a comparatively small nuclear force. As recently as 2020, China’s arsenal was little changed from previous decades and amounted to some 220 weapons, around five to six percent of either the U.S. or Russian stockpiles of deployed and reserve warheads.

President Joe Biden meets virtually with Chinese President Xi Jinping from the Roosevelt Room of the White House in Washington, Monday, Nov. 15, 2021.

AP Photo/Susan Walsh

- Belfer Center for Science and International Affairs, Harvard Kennedy School

The U.S.-China Future: Competition and Collaboration With a Rising China

| Fall 2021

Whether they regard it as competitive, cooperative, or confrontational, virtually all observers agree that the U.S.-China relationship is consequential. From cyber norms and AI to military tensions in the Taiwan Strait and the global struggle to turn the tide on climate change, how Washington and Beijing manage their shared future will shape the globe for decades to come. Through research and relationship-building, the Center is dedicated to helping the U.S. and China collaborate and compete without conflict.

Taishan Nuclear Power Plant in Guangdong, China, in 2019.

EDF Energy via Wikimedia Commons

Book Chapter - Cambridge University Press

Enabling a Significant Nuclear Role in China’s Decarbonization

| Dec. 02, 2021

While China is building nuclear reactors faster than any other country in the world, major constraints may limit nuclear energy’s ability to grow to the scale of hundreds of gigawatts that would be required for it to play a major part in decarbonizing China’s energy system. This chapter explores the major constraints on, and risks of, large-scale nuclear energy growth in China, and how both new policies and new technologies might address them. It focuses particularly on the two biggest constraints – economics and siting. Substantial government policies to support nuclear power and advanced reactor systems designed to address some of the key constraints are both likely to be needed for nuclear to have a chance of playing a major role in decarbonizing China’s energy system; nuclear energy’s role may be bigger in the second half of this century than in the first half.

A car parked next to a hydrogen fuel pump in Japan with the text "hydrogen 35" vertically on the side.

Shizuo Kambayashi/AP

Report - Belfer Center for Science and International Affairs, Harvard Kennedy School

Mission Hydrogen: Accelerating the Transition to a Low Carbon Economy

To accelerate the global transition to a low-carbon economy, all energy systems must be actively decarbonized. While hydrogen has been a staple in the energy and chemical industries for decades, clean hydrogen – defined as hydrogen produced from water electrolysis with zero-carbon electricity – has captured increasing political and business momentum as a versatile and sustainable energy carrier in the future carbon-free energy puzzle.

A sign indicates a hydrogen fuel option at a newly opened refueling station in Munich, Monday, March 26, 2007.

AP Photo/Diether Endlicher

Policy Brief

Hydrogen Deployment at Scale: The Infrastructure Challenge

Clean hydrogen is experiencing unprecedented momentum as confidence in its ability to accelerate decarbonization efforts across multiple sectors is rising. New projects are announced almost every week. For example, an international developer, Intercontinental Energy, plans to build a plant in Oman that will produce almost 2 million tons of clean hydrogen and 10 million tons of clean ammonia. Dozens of other large-scale projects and several hundred smaller ones are already in the planning stage. Similarly, on the demand side, hydrogen is gaining support from customers. Prominent off-takers such as oil majors like Shell and bp, steelmakers like ThyssenKrupp, and world-leading ammonia producers like Yara are working on making a clean hydrogen economy a reality.

The Dave Johnston coal-fired power plant is silhouetted against the morning sun in Glenrock, Wyoming, July 27, 2018.

AP Photo/J. David Ake

Paper

Enabling U.S. Technological Leadership for the 2050 Net-zero Market

    Author:
  • Jake Taylor
| February 2021

By investing in the public and private sector research and development in this space, and by fostering a community of researchers, entrepreneurs, and investors literate in CO2 capture opportunities, the United States can be the leader of this new economic sector. It is essential for the Nation to build a vibrant and sustained research and development community spanning the public sector, academic and research domains, and for-profit companies, ensuring world leadership in this new technological domain.

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.