Articles

37 Items

Silhouetted against the sky at dusk, emissions spew from the smokestacks at Westar Energy's Jeffrey Energy Center coal-fired power plant near St. Mary's, Kansas, Sept. 25, 2010.

AP Photo

Journal Article - Democracy: A Journal of Ideas

What Next on Climate?

| Summer 2011

The effort to address climate change stumbled with the failure to pass cap-and-trade. What should happen now? Five experts, including the Harvard Project's Joe Aldy, discuss the future of U.S. climate and energy policy.

Sept. 1, 2010: A coal-fired power plant's emissions are seen during the night in Changchun, China. China spent $34.6 billion on clean energy in 2009.

AP Photo

Journal Article - International Journal of Greenhouse Gas Control

Preparing to Ramp up Large-scale CCS Demonstrations: An Engineering-economic Assessment of CO2 Pipeline Transportation in China

| July 2011

An integrated carbon dioxide (CO2) capture and storage (CCS) system requires safe and cost-efficient solutions for transportation of the CO2 from the capturing facility to the location of storage. While growing efforts in China are underway to understand CO2 capture and storage, comparatively less attention has been paid to CO2 transportation issues. Also, to the best of our knowledge, there are no publicly available China-specific cost models for CO2 pipeline transportation that have been published in peer-reviewed journals. This paper has been developed to determine a first-order estimate of China's cost of onshore CO2 pipeline transportation.

A man stands beside his house as smoke is seen billowing from a thermoelectric power plant in Changchun, China on April 12, 2010. China still faces challenges in the transition to a low-carbon economy and needs integrated solution systems.

AP Photo

Journal Article - China Environment Series

Advancing Carbon Capture and Sequestration in China: A Global Learning Laboratory

| 2010/2011

China's dependency on coal fuels the country's phenomenal economic growth but at a major cost to the country's air and water quality, ultimately threatening human health and the country's continued economic growth. The Chinese government's efforts to put China onto a cleaner, low carbon development path have been substantial; however China's pollution and greenhouse gas emissions continue to grow. In an attempt to develop its own advanced coal generation technologies to improve the country's air quality and energy efficiency, the Chinese government is investing heavily in gasification and other technologies that can be employed in carbon capture and sequestration (CCS) applications. This investment has turned China into a global laboratory for CCS pilot projects, attracting foreign governments, multilateral institutions, nongovernmental organizations, and business partners.

A passerby looks at a coal power plant chimney between two office buildings at the Central Business District in Beijing, Feb. 6, 2009. China, which is heavily dependent on coal to fuel its growing economy, rivals the U.S. in GHG emissions.

AP Photo

Journal Article - Energy Policy

Catalyzing Strategic Transformation to a Low-carbon Economy: A CCS Roadmap for China

| January 2010

China now faces the three hard truths of thirsting for more oil, relying heavily on coal, and ranking first in global carbon dioxide (CO2) emissions. Given these truths, two key questions must be addressed to develop a low-carbon economy: how to use coal in a carbon-constrained future? How to increase domestic oil supply to enhance energy security? Carbon Capture and Storage (CCS) may be a technological solution that can deal with today's energy and environmental needs while enabling China to move closer to a low-carbon energy future. This paper has been developed to propose a possible CCS roadmap for China.

Jerusalem Mayor Nir Barkat, left, and Israeli-U.S. entrepreneur, Shai Agassi, founder a project developing electric cars and a network of charging points, next to an electric car and its charging station in Jerusalem, Oct. 22, 2009.

AP Photo

Journal Article - Innovations

Energy for Change: Introduction to the Special Issue on Energy & Climate Change

| Fall 2009

"Without energy, there is no economy. Without climate, there is no environment. Without economy and environment, there is no material well-being, no civil society, no personal or national security. The overriding problem associated with these realities, of course, is that the world has long been getting most of the energy its economies need from fossil fuels whose emissions are imperiling the climate that its environment needs."

A CO2 injection well in the SACROC oil field in West Texas.

Photo by Jeffrey Bielicki

Journal Article - International Regional Science Review

Optimal Spatial Deployment of Carbon Dioxide Capture and Storage Given a Price on Carbon Dioxide

| Forthcoming

Carbon dioxide capture and storage (CCS) links together technologies that separate carbon dioxide (CO2) from fixed point source emissions and transport it by pipeline to geologic reservoirs into which it is injected underground for long-term containment. Previously, models have been developed to minimize the cost of a CCS infrastructure network that captures a given amount of CO2. The CCS process can be costly, however, and large-scale implementation by industry will require government regulations and economic incentives. The incentives can price CO2 emissions, through a tax or a cap-and-trade system, or involve the purchase of CO2 by oil companies for enhanced oil recovery from depleted oil fields.

Trucks are seen transporting coal at the Shaer Lake coal field in Shanshan county, Turpan, northwest China's Xinjiang Uygur Autonomous Region, 13 Feb. 2009.

AP Photo

Journal Article - Energy Procedia

Driving Carbon Capture and Storage Forward in China

| February 2009

Carbon Capture and Storage (CCS), as an option in the portfolio of mitigation actions to combat climate change, is expected to have far-reaching implications for China. This paper (1) explores the strategic significance of CCS for China by making an extreme scenario analysis of Chinese power sector in 2030; (2) provides an overview of the recent CCS activities in China; and (3) identifies the major challenges with respect to CCS development in China and put forwards immediate strategies.

Laborers loud coal onto trucks on the outskirts of Jammu, India, Aug. 2, 2007. Coal from different Indian states is distributed in Jammu and Kashmir for industrial and domestic purposes.

AP Photo

Journal Article - Energy

Sustainable Development of the Indian Coal Sector

| In Press

Increased availability of energy, especially electricity, is important for India to help advance economic and human development. Coal, which currently accounts for more than 50% of total primary commercial energy supply in the country and for about 70% of total electricity generation, is likely to remain a key energy source for India for at least the next 30–40 years. Thus, sustainable development of the Indian coal sector is necessary to ensure the ability to sustain the increased production of coal in the country and to do so in an environmentally and socially sustainable manner.

Journal Article - Energy Policy

Global Learning on Carbon Capture and Storage: A Call for Strong International Cooperation on CCS Demonstration

| June 2009

In this Viewpoint, the authors argue that global coordination, transparency, cost-sharing and communication are key principles in facilitating efficient and cost-effective collaborative global learning on CCS.