Howard Hendrix Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
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Biography and Research Information
OverviewAI-generated summary
Howard Hendrix's research focuses on the modeling and optimization of carbon-negative power generation systems, particularly those incorporating direct air capture (DAC) technology. His work investigates the integration of DAC modules into natural gas combined cycle (NGCC) plants to achieve negative emissions. This includes exploring the potential for positive power generation alongside carbon removal, as detailed in his reports and publications.
Hendrix has also examined the environmental impact of producing algal bio-crude, assessing the greenhouse gas implications under various carbon dioxide supply scenarios. His research contributes to understanding pathways for reducing industrial carbon footprints and developing more sustainable energy solutions. He is affiliated with Hendrix College.
Metrics
- h-index: 7
- Publications: 18
- Citations: 132
Selected Publications
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Modeling and optimization of carbon-negative NGCC plant enabled by modular direct air capture (2023)
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Positive Power with Negative Emission Flexible NGCC Enable by Modular Direct Air Capture (Final Report) (2022)
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Greenhouse Gas Impact of Algal Bio-Crude Production for a Range of CO2 Supply Scenarios (2021)
Federal Grants 1 $2,499,998 total
Collaboration Network
Top Collaborators
- Modeling and optimization of carbon-negative NGCC plant enabled by modular direct air capture
- Greenhouse Gas Impact of Algal Bio-Crude Production for a Range of CO2 Supply Scenarios
- Positive Power with Negative Emission Flexible NGCC Enable by Modular Direct Air Capture (Final Report)
- Modeling and optimization of carbon-negative NGCC plant enabled by modular direct air capture
- Positive Power with Negative Emission Flexible NGCC Enable by Modular Direct Air Capture (Final Report)
- Modeling and optimization of carbon-negative NGCC plant enabled by modular direct air capture
- Positive Power with Negative Emission Flexible NGCC Enable by Modular Direct Air Capture (Final Report)
- Greenhouse Gas Impact of Algal Bio-Crude Production for a Range of CO2 Supply Scenarios
- Greenhouse Gas Impact of Algal Bio-Crude Production for a Range of CO2 Supply Scenarios
- Greenhouse Gas Impact of Algal Bio-Crude Production for a Range of CO2 Supply Scenarios
- Greenhouse Gas Impact of Algal Bio-Crude Production for a Range of CO2 Supply Scenarios
- Modeling and optimization of carbon-negative NGCC plant enabled by modular direct air capture
- Modeling and optimization of carbon-negative NGCC plant enabled by modular direct air capture
- Modeling and optimization of carbon-negative NGCC plant enabled by modular direct air capture
- Positive Power with Negative Emission Flexible NGCC Enable by Modular Direct Air Capture (Final Report)
- Positive Power with Negative Emission Flexible NGCC Enable by Modular Direct Air Capture (Final Report)
- Positive Power with Negative Emission Flexible NGCC Enable by Modular Direct Air Capture (Final Report)
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