This book highlights research presented during the American Solar Energy Society's 52nd National Solar Conference (ASES SOLAR 2023) held at the University of Colorado Boulder. The conference, with the theme of "Transforming the Energy Landscape for All" attracted a broad base of solar and renewable energy professionals and thought leaders, including researchers, architects, engineers, entrepreneurs, installers, manufacturers, economists, finance professionals, and policymakers - providing a platform for the exchange of ideas, information and business insights and unbiased perspectives on…mehr
This book highlights research presented during the American Solar Energy Society's 52nd National Solar Conference (ASES SOLAR 2023) held at the University of Colorado Boulder. The conference, with the theme of "Transforming the Energy Landscape for All" attracted a broad base of solar and renewable energy professionals and thought leaders, including researchers, architects, engineers, entrepreneurs, installers, manufacturers, economists, finance professionals, and policymakers - providing a platform for the exchange of ideas, information and business insights and unbiased perspectives on progress toward greater sustainability. These conference papers explore best practices and major roadblocks from a variety of perspectives in the transformation towards 100% renewable energy in the United States, focusing on the challenges to advancing renewables through principles of justice, equity, diversity, and inclusion (JEDI).
Dave Renné, Ph.D., served as President of the International Solar Energy Society from 2010 until 2019. From 1991 until his retirement in 2012, Dr. Renné managed the solar resource assessment activities at the National Renewable Energy Laboratory (NREL). In 2012 he formed the consultancy Dave Renne Renewables. He is dedicated to urgently achieving 100% renewable energy to meet our end-use energy requirements as the best solution to the climate crisis. Dr. Renne received his Masters's and Ph.D. degrees in atmospheric sciences and earth resources at Colorado State University. He holds a Liberal Arts Bachelor's Degree with a major in Physics from Kalamazoo College, Michigan. Carly Rixham is the Executive Director of the American Solar Energy Society (ASES) and Editor and Publisher of the ASES Solar Today magazine. Before working for the ASES, she was a microbiologist with BioVantage Resources, culturing algae for bio-remediation of nutrients in wastewater. She received her Master's in Ecology and Evolutionary Biology from the University of Colorado Boulder, where she researched microalgae for biofuel production. While studying in Boulder, Rixham was the Director of Arts and Sciences at CU Energy. Before her renewable energy career, she taught biology and ecology at the university and high school levels and worked in software development at Intuit. Lauren Reddington is a 2021 environmental studies and pre-law graduate of the University of Colorado Boulder. She was selected as an intern for the Zero Emissions Network (ZEN), a program of the American Solar Energy Society (ASES), in the spring of 2021. She was then promoted to Operations Manager and recruited as the ASES Programs Director. She is delighted for the opportunity to continue to learn from board members and write grant proposals, further advocate for renewable energy through ASES programs, design carbon offset projects for the Boulder community, and hone her environmental knowledge in an applied capacity. In her future law career, Lauren plans to utilize her experiences with ZEN and ASES to better advocate for nonprofits.
Inhaltsangabe
SolarDecomp: A Web App for Decomposing Solar Data for Spectrally Selective Building Simulation.- Evaluation of Six Greenhouse Covering Materials for Energy Performance.- Quantifying Solar Light-Induced Thermal Comfort E ects of Architectural Windows.- Nanoscale Photothermal E ects Driven by Solar Radiation for Building Envelope Thermal Behavior Management.- Vernacular approach to Passive Solar Design.- Assessment of the window performance from the light provision and circadian light aspects.
SolarDecomp: A Web App for Decomposing Solar Data for Spectrally Selective Building Simulation.- Evaluation of Six Greenhouse Covering Materials for Energy Performance.- Quantifying Solar Light-Induced Thermal Comfort Effects of Architectural Windows.- Nanoscale Photothermal Effects Driven by Solar Radiation for Building Envelope Thermal Behavior Management.- Vernacular approach to Passive Solar Design.- Assessment of the window performance from the light provision and circadian light aspects.
SolarDecomp: A Web App for Decomposing Solar Data for Spectrally Selective Building Simulation.- Evaluation of Six Greenhouse Covering Materials for Energy Performance.- Quantifying Solar Light-Induced Thermal Comfort E ects of Architectural Windows.- Nanoscale Photothermal E ects Driven by Solar Radiation for Building Envelope Thermal Behavior Management.- Vernacular approach to Passive Solar Design.- Assessment of the window performance from the light provision and circadian light aspects.
SolarDecomp: A Web App for Decomposing Solar Data for Spectrally Selective Building Simulation.- Evaluation of Six Greenhouse Covering Materials for Energy Performance.- Quantifying Solar Light-Induced Thermal Comfort Effects of Architectural Windows.- Nanoscale Photothermal Effects Driven by Solar Radiation for Building Envelope Thermal Behavior Management.- Vernacular approach to Passive Solar Design.- Assessment of the window performance from the light provision and circadian light aspects.
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