Energy

811 Items

How Saudi Arabia and China Could Partner on Solar Energy

AP/Andy Wong

Analysis & Opinions - Axios

How Saudi Arabia and China Could Partner on Solar Energy

| Jan. 24, 2019

Last May, Chinese solar panel manufacturer LONGi signed an agreement with Saudi trading company El Seif Group to establish large-scale solar manufacturing infrastructure in Saudi Arabia. The deal came several months after the Trump administration's imposition of global tariffs on imports of Chinese solar panels and cells.

Belfer Center Director Ash Carter speaks on technological change for good during a HUBweek 2018 "We the Future" event at Harvard Innovation Lab in October.

Benn Craig/Belfer Center

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

Managing Technology's Risks to Society

| Fall/Winter 2018-2019

Making technological change positive for all is the critical challenge of our time. We ourselves—not only the logic of discovery and market forces—must manage it. To create a future where technology serves humanity as a whole, we need a new approach. Therefore, the Belfer Center has launched a new endeavor, the Technology and Public Purpose (TAPP) Project.

Russia's Energy Foray into Asia: Implications for U.S. Interests

kees torn/Flickr

Paper - National Bureau of Asian Research

Russia's Energy Foray into Asia: Implications for U.S. Interests

This essay examines Russia’s growing role in Asia’s energy markets, assesses the implications for the U.S., and examines the claim that closer Sino-Russian energy ties are adding new incentives for a broader strategic alignment.

View of the crescent moon through the top of the earth's atmosphere. Photographed above 21.5°N, 113.3°E by International Space Station crew Expedition 13 over the South China Sea, just south of Macau (NASA image ID: ISS013-E-54329).

NASA

Discussion Paper

Governance of Highly Decentralized Nonstate Actors: the Case of Solar Geoengineering

| November 2018

We here introduce the idea of highly decentralized solar geoengineering, plausibly done in form of small high-altitude balloons. While solar geoengineering has the potential to greatly reduce climate change, it has generally been conceived as centralized and state deployed. Potential highly decentralized deployment moves the activity from the already contested arena of state action to that of environmentally motivated nongovernmental organizations and individuals, which could disrupt international relations and pose novel challenges for technology and environmental policy. We explore its feasibility, political implications, and governance.

Sovereign Venture Capitalism: At a Crossroad

StockSnap/Pixabay

Analysis & Opinions - The Economist

Sovereign Venture Capitalism: At a Crossroad

| Oct. 03, 2018

What the Iron Man-like character is claiming for his futuristic automotive company is not unheard of. On a systemic basis, mammoth institutional investment—especially from sovereign wealth funds (SWFs)—is flowing into start-ups and technology-oriented publicly traded companies. In this case, Saudi billions would help Mr Musk escape the pressures of being publicly listed. SWFs have invested large sums into high-growth start-ups promising innovation and financial returns. In fact, just this month, Saudi’s Public Investment Fund (PIF) announced a US$1bn investment in Tesla’s rival, Lucid, and a US$2bn stake in Tesla. The rise in SWF balance sheets and activity is having ramifications on global efforts to be more Silicon Valley-like, and on Silicon Valley itself.

Venkatesh "Venky" Narayanamurti

Eliza Grinnell/Harvard SEAS

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

"Venky" Narayanamurti Honored with Bueche Award

    Author:
  • Leah Burrows
| Oct. 03, 2018

Professor Venkatesh "Venky" Narayanamurti is the Benjamin Peirce Research Professor of Technology and Public Policy at Harvard University, former dean of the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS), and former director of the Belfer Center's Science, Technology, and Public Policy Program. The award is one of the highest honors given by the National Academy of Engineering, and recognizes an engineer who has shown dedication in science and technology as well as active involvement in determining U.S. science and technology policy.

Solar panels at the National Renewable Energy Laboratory gather sunlight at the test facility

AP/Jack Dempsey

Journal Article - MRS Energy & Sustainability

Nurturing Transformative U.S. Energy Research: Two Guiding Principles

The authors raise for debate and discussion what in their opinion is a growing mis-control and mis-protection of U.S. energy research. They outline the origin of this mis-control and mis-protection, and propose two guiding principles to mitigate them and instead nurture research: (1) focus on people, not projects; and (2) culturally insulate research from development, but not science from technology.

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.

newer design of a nuclear reactor

DOE/Advanced Reactor Technology

Journal Article - Nature Energy

A Tortoise Approach for US Nuclear Research and Development

| July 30, 2018

In Aesop's fable, a swift hare races with a deliberate tortoise. In the end, the tortoise wins by taking a slow and steady approach. The authors argue that, given the economic constraints on US deployment of nuclear power, a "tortoise strategy" is more prudent for US government nuclear R&D efforts.

rendering of Carbon Engineering’s air capture design

Courtesy of Carbon Engineering

Journal Article - Joule

A Process for Capturing CO2 from the Atmosphere

    Authors:
  • Geoffrey Holmes
  • David St. Angelo
  • Kenton Heidel
| 2018

The authors describe a process for capturing CO2 from the atmosphere in an industrial plant. The design captures ∼1 Mt-CO2/year in a continuous process using an aqueous KOH sorbent coupled to a calcium caustic recovery loop. They describe the design rationale, summarize performance of the major unit operations, and provide a capital cost breakdown developed with an independent consulting engineering firm. They report results from a pilot plant that provides data on performance of the major unit operations.