66 Items

Discussion Paper - Energy Technology Innovation Policy Project, Belfer Center

Increasing Residential Building Energy Efficiency In China: An Evaluation of Policy Instruments

| April 2016

Various policies targeting at building energy efficiency have been promulgated by the Chinese government in the past decade. However, few studies evaluate if China is on the right path to meet its energy goals through these policies by providing an assessment of their effect in reducing energy consumption in residential buildings or the feasibility of such policies to catalyze these reductions. This paper attempts to fill this gap by systematically quantifying (1) the energy savings catalyzed by existing policy instruments; (2) the additional energy savings that could be realized by strengthening these policies; and (3) the relative advantages of each policy.

News - Energy Technology Innovation Policy Project, Belfer Center

DOE Budget Authority for Energy Research, Development, & Demonstration Database

| March 2016

This document contains March 2016 updates to our database on U.S. government investments in energy research, development, demonstration, and deployment (ERD3) through the Department of Energy. The database, in Microsoft Excel format, tracks DOE appropriations from FY 1978–2016 and the 2017 budget request and includes funding for ERD3 from the American Recovery and Reinvestment Act of 2009. It also includes several charts.

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

Study Examines Water Used for Fuel Extraction, Power Generation

January 26, 2016

A new study co-authored by researchers at Harvard Kennedy School's Belfer Center for Science and International Affairs, Duke University’s Nicholas Institute for Environmental Policy Solutions, and the University of Calgary provides the first comprehensive representation of changing water consumption patterns associated with fuel extraction and power generation.

The wind turbine outside RRB Energy factory in Chennai, India, March 9, 2013.

Creative Commons

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 - Energy Technology Innovation Policy Project, Belfer Center

The Future of Low-Carbon Road Transport: What Role for Second-Generation Biofuels?

| June 2015

The promise, prospects, and public policy trade-offs related to second-generation biofuels in road transport were addressed in an executive session convened at The Henry Ford Museum in Dearborn, Michigan, on April 7 and 8, 2015. The workshop brought together twenty-eight of the world's leading experts from the fields of policy, science, and business for an intensive two-day session. This report is a summary of the main points and issues raised over the two days. It has been reviewed by all the participants. The summary is intended to reflect the breadth of the discussion, rather than to suggest any form of overall consensus among the participants.

Journal Article - Nature

Steps to China's Carbon Peak

| June 18, 2015

China is the world's largest emitter of carbon dioxide, accounting for one-quarter of the global total in 2013. Although the country has successfully lowered the rate of emissions from industry in some cities through improved technology and energy-efficiency measures, rapid economic growth means that more emissions are being added than removed. Without mitigation, China's CO2 emissions will rise by more than 50% in the next 15 years.

A coal mine near Hailar, northeastern Inner Mongolia Autonomous Region, China, 13 August 2005.

Herry Lawford Photo

Analysis & Opinions - The South China Morning Post

China's Coal Addiction a Threat to Its Energy Security

| May 14, 2014

"...[U]ntil now, Beijing's response to unmet energy demand has focused primarily on securing resources overseas, and building infrastructure for imports. China now generates more electricity from imported coal than from nuclear, wind and solar combined. Without a strong, coordinated policy shift, the country will depend on fuel imports for most of its energy consumption by the time it becomes a developed country."

News - Energy Technology Innovation Policy Project, Belfer Center

DOE Budget Authority for Energy Research, Development, & Demonstration Database

| March 2014

This document contains March 2014 updates to our database on U.S. government investments in energy research, development, demonstration, and deployment (ERD3) through the Department of Energy. The database, in Microsoft Excel format, tracks DOE appropriations from FY 1978–2014 and the 2015 budget request and includes funding for ERD3 from the American Recovery and Reinvestment Act of 2009. It also includes several charts.

Looking south at the New York City Housing Authority Amsterdam Houses at West End Avenue and 63d Street in NYC, Nov. 28, 2008. The Amsterdam Houses superblock energy model is validated by both total energy consumption and end use breakdown metrics.

Jim.henderson Photo

Journal Article - Applied Energy

Energy Saving Alignment Strategy: Achieving Energy Efficiency in Urban Buildings by Matching Occupant Temperature Preferences with a Building's Indoor Thermal Environment

    Authors:
  • Patricia J. Culligan
  • John E. Taylor
| June 15, 2014

Existing strategies for residential energy savings through physical renovation or motivating occupant energy conservation behavior can be costly and/or have transitory effects. Focusing on multi-family dwellings, an important subset of the urban residential sector, the authors propose an Energy Saving Alignment Strategy (ESAS) that has advantageous cost-effectiveness and a long-lasting influence. By aligning the distribution of residents' thermostat preferences with the indoor temperature, ESAS aims to maximize thermal comfort and, accordingly, energy savings in multi-family buildings where indoor temperatures vary between apartments as a function of apartment orientation and floor level.