Comparative Assessment of Energy and Emission Costs for Geothermal Heat Pumps and Fossil-Fuel Heating Systems Across U.S. Climatic Zones

Authors

• Md Shahin Alam, Illinois State University
• Shima Afshar, University of Michigan-Flint
• Seyed Ali Arefifar, University of Michigan-Flint
• Mohammad Haq, Old Dominion UniversityFollow

Document Type

Article

Publication Date

2026

DOI

10.3390/pr14050876

Publication Title

Processes

Volume

14

Issue

5

Pages

876

Abstract

In response to growing concerns over global warming and energy sustainability, transitioning from fossil-fuel-based heating systems to renewable alternatives is essential. This study evaluates the economic and environmental performance of geothermal heat pumps for building heating and compares it with conventional coal-fired boilers, natural-gas boilers, and diesel furnaces. Using the heating degree-day (HDD) method, heating energy demand was analyzed for four U.S. cities—Anchorage (AK), San Francisco (CA), Salt Lake City (UT), and Las Vegas (NV)—representing diverse climatic zones. The analysis integrates thermodynamic and economic parameters, including the coefficient of performance (COP = 2–5) and annual fuel-utilization efficiency (AFUE = 80–97%), to evaluate heating-system performance and operational cost across different climatic regions. Sensitivity analysis with ±10% variations in fuel and electricity prices and system efficiencies demonstrates that geothermal heating remains the most stable and emission-efficient option under all scenarios. Results indicate that geothermal systems, despite higher reported initial investment, achieve lower operational and emissions-related costs and offer a robust and sustainable solution for decarbonizing building-heating systems. For example, the estimated seasonal geothermal heating cost is $370.59 in Anchorage compared with $646.48 for coal heating and $3375.65 for diesel systems. Furthermore, policy evaluation indicates that federal and state incentives, such as investment tax credit under the Inflation Reduction Act and rebate programs, can reduce installation costs by 25–40%, improving economic feasibility, particularly in colder regions. The analysis focuses exclusively on energy and emissions-related costs and does not explicitly model capital investment or levelized cost metrics.

Rights

© 2026 by the authors.

This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution 4.0 International (CC BY 4.0) License.

Data Availability

Article states: "The original contributions presented in this study are included in the article. Further inquiries can be directed to the corresponding author."

Original Publication Citation

Alam, M. S., Afshar, S., Arefifar, S. A., & Haq, M. (2026). Comparative assessment of energy and emission costs for geothermal heat pumps and fossil-fuel heating systems across U.S. climatic zones. Processes,14(5), Article 876. https://doi.org/10.3390/pr14050876

Repository Citation

Alam, Md Shahin; Afshar, Shima; Arefifar, Seyed Ali; and Haq, Mohammad, "Comparative Assessment of Energy and Emission Costs for Geothermal Heat Pumps and Fossil-Fuel Heating Systems Across U.S. Climatic Zones" (2026). Electrical & Computer Engineering Faculty Publications. 589.
https://digitalcommons.odu.edu/ece_fac_pubs/589

ORCID

0009-0001-3341-626X (Haq)