Jack Brouwer
Professor: Mechanical & Aerospace Engineering, Civil & Environmental Engineering; Director: National Fuel Cell Research Center, Advanced Power and Energy Program UC Irvine
- Irvine CA
Jack Brouwer's research focuses on high-temperature electrochemical dynamics and integrated renewable energy systems.
Media
Social
Biography
Brouwer received his Ph.D. in mechanical engineering from the Massachusetts Institute of Technology in 1993. From 1993 to 1997, he served as a research assistant professor at the University of Utah and was a member of the technical staff at Reaction Engineering International. He came to UC Irvine in 1997 as associate director of the National Fuel Cell Research Center (NFCRC), concurrently holding appointments as lecturer, assistant and then associate adjunct professor. He was named assistant professor in the summer of 2011 and became full professor in the summer of 2017.
Areas of Expertise
Education
Massachusetts Institute of Technology
PhD
Mechanical Engineering
1993
Links
Media Appearances
In controversial move, LADWP says it will shift its largest gas power plant to hydrogen
Los Angeles Times online
2025-10-29
“It’s a good plan,” Jack Brouwer, director of the Clean Energy Institute at UC Irvine who served on the advisory board for the L.A. 100 study, said in a phone call ahead of Tuesday’s vote. “The Scattergood facility and some of the other coastal plants are part of the required infrastructure to enable L.A. 100 to become completely decarbonized and depolluted. It’s not even possible to do this without something there.”
A fifth of U.S. green hydrogen projects eyed for water-stressed areas
Louisiana Illuminator online
2024-08-07
The total water use of hydrogen “is not the big deal,” said Jack Brouwer, an engineering professor at University of California-Irvine. “The water challenge is that where we have good primary energy from wind and solar, we do not have good water (supply) necessarily.”... Companies and governments in arid places like California will eventually need to invest more in power lines or water pipelines to connect sunny areas to water resources for green hydrogen production, said UC-Irvine’s Brouwer, who is also part of the ARCHES leadership team. “We run a wire from the good solar to where the water is,” he said.
How the Bay Area will contribute to California’s new ‘hydrogen hub’
Silicon Valley.com - The Mercury News online
2024-07-29
To reduce reliance on fossil fuels in industries where electricity is impractical, unreliable or too expensive, California is building a massive “hydrogen hub” to generate a steady supply of an alternative fuel with no carbon emissions — bringing us closer, say advocates, to a completely green future. “It’s the beginning of the investment that must be made if we are to meet our zero-emission policy goals,” said UC Irvine engineering professor Jack Brouwer, director of the university’s Clean Energy Institute and an interim director for business development on the hub’s leadership team.
California’s Dream of a Green Hydrogen Future Could Backfire
Capital & Main online
2024-05-09
California’s current energy mix would result in 11 kilograms of carbon emissions for every kilogram of hydrogen produced ... The Treasury Department’s solution to such problems is to offer tax credits to hydrogen producers who ensure that their electricity comes from clean sources that adds to existing clean electricity already on the grid. That would prevent producers from monopolizing the grid’s renewable power. They would also have to confirm that the clean power goes to electrolyzers as it is generated. Such requirements could “delay the advancement of clean renewable hydrogen production in California,” said Jack Brouwer, director of the Clean Energy Institute at UC Irvine, at the hearing in Sacramento. He was heavily involved in preparing California’s hydrogen hub application.
With the state mandating zero emissions, Bay Area agencies are split on hydrogen vs. electric
The Mercury News online
2024-02-12
According to Jack Brouwer, director of the National Fuel Cell Research Center and the Advanced Power and Energy Program at UC Irvine, deciding the right number and type of zero-emission buses depends on many factors, including the electrical grid infrastructure, the bus routes, and the road type. Battery electric buses, for example, consume more power on hilly roads.
Articles
Experimental dynamic dispatch of a 60 kW proton exchange membrane electrolyzer in power-to-gas application
International Journal of Hydrogen EnergyJohn M. Stansberry, Jacob Brouwer
2020
A 60 kW PEM electrolyzer was modified to have dynamic dispatch capabilities through the use of an external mass flow controller and was subsequently operated and studied in detail as a part of the UC Irvine power-to-gas (P2G) demonstration project. The system operated in load following for both rooftop solar PV output and aggregated wind farm power.
Hydrogen leaks at the same rate as natural gas in typical low-pressure gas infrastructure
International Journal of Hydrogen EnergyAlejandra Hormaza Mejia, Jacob Brouwer, Michael Mac Kinnon
2020
A global interest to increase the use of renewable resources has spurred an interest in hydrogen (H2) gas as an energy carrier. Natural gas (NG) infrastructure has been proposed as a potential storage, transmission and distributions system for renewably produced gaseous H2 fuel. Introducing H2 to the NG system has raised concerns about H2 leakage from the system.
Dynamic dispatch of solid oxide electrolysis system for high renewable energy penetration in a microgrid
Energy Conversion and ManagementPaolo Colombo, Alireza Saeedmanesh, Massimo Santarelli, Jack Brouwer
2020
The impacts of increasing deployment of Renewable Energy Sources (RES) on existing energy infrastructure has been investigated in a microgrid, an energy system that, with its constraints, foreshadows the challenges of the evolving electricity network. The campus microgrid of the University of California, Irvine (UCI) is modeled, including an existing natural gas-fueled combined cycle power plant, electric chilling and thermal energy storage, and analyzing the microgrid response to additional Photovoltaic (PV) installations.
Net-zero emissions energy systems
Science2018
Models show that to avert dangerous levels of climate change, global carbon dioxide emissions must fall to zero later this century. Most of these emissions arise from energy use. Davis et al. review what it would take to achieve decarbonization of the energy system. Some parts of the energy system are particularly difficult to decarbonize, including aviation, long-distance transport, steel and cement production, and provision of a reliable electricity supply.
Hydrogen is essential for sustainability
Current Opinion in Electrochemistry2018
Sustainable energy conversion requires zero emissions of greenhouse gases and criteria pollutants using primary energy sources that the earth naturally replenishes quickly, like renewable resources. Solar and wind power conversion technologies have become cost effective recently, but challenges remain to manage electrical grid dynamics and to meet end-use requirements for energy dense fuels and chemicals.
The role of natural gas and its infrastructure in mitigating greenhouse gas emissions, improving regional air quality, and renewable resource integration
Progress in Energy and Combustion Science2018
The pursuit of future energy systems that can meet electricity demands while supporting the attainment of societal environment goals, including mitigating climate change and reducing pollution in the air, has led to questions regarding the viability of continued use of natural gas. Natural gas use, particularly for electricity generation, has increased in recent years due to enhanced resource availability from non-traditional reserves and pressure to reduce greenhouse gases (GHG) from higher-emitting sources, including coal generation.
Dynamic performance of an in-rack proton exchange membrane fuel cell battery system to power servers
International Journal of Hydrogen Energy2017
To improve the reliability and the energy efficiency of data centers, as well as to reduce infrastructure costs and environmental impacts, we experimentally evaluated in-rack powering of servers with a hybrid 12 kW Proton Exchange Membrane Fuel Cell (PEMFC) and battery system. The steady state and the transient performance of the PEMFC and battery in response to dynamic AC loads and real server loads have been evaluated and characterized.
Dynamic modeling of compressed gas energy storage to complement renewable wind power intermittency
International Journal of Hydrogen Energy2013
To evaluate the impacts and capabilities of large-scale compressed gas energy storage for mitigating wind intermittency, dynamic system models for compressed air energy storage and compressed hydrogen energy storage inside salt caverns have been developed. With the experimental data from air storage in a salt cavern in Huntorf, Germany, the cavern model has been verified.
