Precourt Institute for Energy


Showing 11-14 of 14 Results

  • Jennifer Milne

    Jennifer Milne

    Associate Director for Advanced Research Projects, Precourt Institute for Energy

    BioJennifer is a scientist with more than a decade's experience in identifying research needs in energy and shaping the energy research landscape at Stanford. Jennifer leads the Advanced Research Projects at the Precourt Institute for Energy, working with the Director of Precourt and other stakeholders to foster energy research to reduce greenhouse gases and enable the energy transition. In 2023, she joined the technology team of the Sustainability Accelerator, as a key team member tasked with identifying solutions with potential for real-world impact across broad sustainability challenges.

    Jennifer is a technical resource for energy related and carbon removal projects across the University and an advisor in the bioenergy area - this foundational experience she gained during her time as an energy analyst with the Global Climate and Energy Project. Here, from 2007 onwards, she learned about energy supply, conversion, and exergy destruction. She led the bioenergy area of the portfolio and contributed more broadly to the development of a fundamental energy research portfolio across all energy areas. Prior to joining Global Climate and Energy Project she was a post-doctoral scholar at the Carnegie Institution for Science, Department of Plant Biology, at Stanford University. Jennifer comes from a biochemistry and plant science background, where she contributed to the discovery of the role of polysaccharides in guard cell wall function and holds a Ph.D. in Biology from the University of York, U.K. and a Bachelor of Science in Biochemistry (First Class Honors) from the University of Stirling, U.K.

  • Liang Min

    Liang Min

    Managing Director Bits & Watts Initiative, Precourt Institute for Energy

    Current Role at StanfordManaging Director for the Bits and Watts Initiative, Precourt Institute for Energy
    Managing Director for the Net-Zero Alliance, Stanford Doerr School of Sustainability

  • Reginald Mitchell

    Reginald Mitchell

    Professor of Mechanical Engineering, Emeritus

    BioProfessor Mitchell's primary area of research is concerned with characterizing the physical and chemical processes that occur during the combustion and gasification of pulverized coal and biomass. Coals of interest range in rank from lignite to bituminous and biomass materials include yard waste, field and seed crop residues, lumber mill waste, fruit and nut crop residues, and municipal solid waste. Experimental and modeling studies are concerned with char reactivity to oxygen, carbon dioxide and steam, carbon deactivation during conversion, and char particle surface area evolution and mode of conversion during mass loss.

    Mitchell’s most recent research has been focused on topics that will enable the development of coal and biomass conversion technologies that facilitate CO2 capture. Recent studies have involved characterizing coal and biomass conversion rates in supercritical water environments, acquiring the understanding needed to develop chemical looping combustion technology for applications to coals and biomass materials, and developing fuel cells that use coal or biomass as the fuel source. Studies concerned with characterizing coal/biomass blends during combustion and gasification processes are also underway.

    Professor Mitchell retired from Stanford University in July 2020, after having served over 29 years as a professor in the Mechanical Engineering Department.