EPA Science Inventory

The Potential Role of Natural Gas Power Plants with Carbon Capture and Storage as a Bridge to a Low-Carbon Future

Citation:

Babaee, S. AND Dan Loughlin. The Potential Role of Natural Gas Power Plants with Carbon Capture and Storage as a Bridge to a Low-Carbon Future. C3E Poster Session and Competition 2017, Cambridge, MA, November 15 - 16, 2017.

Description:

Natural gas combined-cycle (NGCC) turbines with carbon capture and storage (CCS) are a promising technology for reducing carbon dioxide (CO2) emissions in the electric sector. However, the high cost and efficiency penalties associated with CCS, as well as methane leakage from natural gas extraction and distribution, may limit the role of NGCC-CCS to achieve stringent greenhouse gas (GHG) reduction goals. The MARKet ALlocation (MARKAL) energy system optimization model and EPA U.S. nine-region database are used to identify optimal U.S. market penetrations of NGCC-CCS through 2055 in response to alternative GHG reduction trajectories and methane leakage rates. The results indicate that the NGCC-CCS is better suited for widespread deployment under a moderate 30% GHG reduction trajectory than under a more stringent 50% trajectory because of upstream methane leakage from gas extraction and the assumption that 15% of CO2 in exhaust gases with CCS remains uncaptured. Parametric sensitivity runs were conducted for the 50% GHG reduction trajectory, evaluating various fuel, CO2 capture, and technology parameters. Of the parameters examined, methane leakage rate, NGCC-CCS efficiency and CO2 capture rate, and natural gas price are found to be the strongest factors influencing NGCC-CCS deployment, in that order. Across all 46 sensitivity runs, NGCC serves as a mid-term solution to a low-CO2 future and is retrofitted with CCS in the long-term as the modeled GHG trajectories become more stringent. This is an important result as it indicates NGCC may play both a short- and long-term mitigation role, and that CCS retrofitability of NGCC plants and siting near CO2 storage sites are key considerations. The modeling results suggest that CCS may play a larger role in some regions of the U.S. than others. The West South Central Census Division, followed by the East North Central Census Division, have the highest electricity generation from NGCC-CCS, while New England has no NGCC-CCS adoption. NGCC-CCS market penetration is shown to have a mixed impact on air pollutant emissions and energy-related water consumption, depending on the region and which technologies are displaced.

Purpose/Objective:

This abstract is a proposal for a poster session at the Clean Energy Education & Empowerment (C3E) Awards Symposium. The specifically involves women researchers and practitioners interested in Clean Energy. The U.S. C3E program is led by the DOE in collaboration with the MIT Energy Initiative and the Stanford Precourt Institute for Energy.

URLs/Downloads:

NGCC-CCS ABSTRACT FOR C3E_POSTBCREVIEW_CLEAN (2).PDF   (PDF,NA pp, 40.491 KB,  about PDF)

Record Details:

Record Type: DOCUMENT (PRESENTATION/ABSTRACT)
Product Published Date: 11/16/2017
Record Last Revised: 11/28/2017
OMB Category: Other
Record ID: 338505

Organization:

U.S. ENVIRONMENTAL PROTECTION AGENCY

OFFICE OF RESEARCH AND DEVELOPMENT

NATIONAL RISK MANAGEMENT RESEARCH LABORATORY

AIR AND ENERGY MANAGEMENT DIVISION