Seyed Ehsan Hosseini Source Confirmed

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

High Impact

Researcher

Arkansas Tech University

faculty

39 h-index 129 pubs 8,931 cited

Research Areas

Hydrogen Fuel Technologies Waste-to-Energy Technologies Renewable Energy Transition Fossil Fuel Crisis Solid Oxide Fuel Cells Centrifugal Blood Pumps Energy Systems Analysis

Links

ORCID Google Scholar Lab Website Research Group

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OverviewAI-generated summary

Seyed Ehsan Hosseini's research focuses on energy systems, renewable energy transitions, and fuel technologies. His work has investigated the application of gasification and combustion technologies for waste-to-energy conversion, particularly in sewage sludge treatment. He has also examined the critical transition from fossil fuels to renewable energy sources, drawing lessons from global events like the Russia-Ukraine crisis and analyzing the challenges of fossil fuel crises and global warming.

Hosseini's research extends to hydrogen as a future fuel, exploring its potential and role in the global energy scenario. He has also reviewed the hybridization of solid oxide fuel cells with internal combustion engines for various power and propulsion systems. Beyond energy, his publications include an investigation into the experimental and numerical aspects of geometrical parameters in centrifugal blood pumps, indicating an interest in biomedical engineering applications.

With 129 publications and 8,931 citations, Seyed Ehsan Hosseini holds an h-index of 39, designating him as a highly cited researcher. He maintains an active research group and collaborates with other researchers, including Thomas Dodds at Arkansas Tech University.

Metrics

  • h-index: 39
  • Publications: 129
  • Citations: 8,931

Selected Publications

  • The Performance of a Hybrid Photovoltaic-Thermoelectric Generator (PV-TEG) Compared to a Solar PV Panel (2025) DOI
  • Hydrogen fuel, a game changer for the world’s energy scenario (2023) DOI
  • Fundamentals of hydrogen fuel cell systems (2023) DOI
  • Hydrogen, a green energy carrier (2023) DOI
  • Electrochemical hydrogen production (2023) DOI
  • Hydrogen economy and transition to hydrogen energy (2023) DOI
  • Hydrogen utilization in transportation systems (2023) DOI
  • Hydrogen fuel production methods (2023) DOI
  • Hydrogen storage and delivery challenges (2023) DOI
  • Hydrogen production methods based on the primary energy sources (2023) DOI
  • Green hydrogen supply chain risk analysis: A european hard-to-abate sectors perspective (2023) DOI
  • The US hydrogen fuel industry today and future (2022) DOI
  • Fossil fuel crisis and global warming (2022) DOI
  • Retrieving nuclear power plants by producing hydrogen (2022) DOI
  • Review of the application of gasification and combustion technology and waste-to-energy technologies in sewage sludge treatment (2022) DOI

Collaborators

Researchers in the database who share publications

Thomas Dodds Arkansas Tech University 1 shared publication