Larry Degelman - Academia.edu (original) (raw)
Papers by Larry Degelman
Proceedings of the 7th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA)
Proceedings of the 7th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA)
Proceedings of the 12th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA)
Proceedings of the 14th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA)
The Energy Systems Laboratory (Laboratory), at the Texas A&M Engineering Experiment Station of Th... more The Energy Systems Laboratory (Laboratory), at the Texas A&M Engineering Experiment Station of The Texas A&M University System, in fulfillment of its responsibilities under Texas Health and Safety Code Ann. § 388.003 (e), submits its annual report, Energy Efficiency/Renewable Energy (EE/RE) Impact in the Texas Emissions Reduction Plan (TERP) to the Texas Commission on Environmental Quality.
and with IBPSA Past President Larry Degelman about IEA Annex 66, a model library for Modelica, ne... more and with IBPSA Past President Larry Degelman about IEA Annex 66, a model library for Modelica, new free tools for creating and editing weather files (Elements) and for calibrating EnergyPlus/DOE2.2 models (ExCalibBEM), daylighting simulation on the GPU (Accelerad), a Human Thermal Model, design tools from India, Mr Comfy, Design Builder, Ebest, IES, and Unmet Hours, a Q&A website for building energy modellers from IBPSA affiliates in Australasia,
A&M University System is pleased to provide this preliminary report, “Energy
impact of proposed local energy code amendments in the Texas non-attainment and near-non-attainme... more impact of proposed local energy code amendments in the Texas non-attainment and near-non-attainment counties as part of the Texas Emissions Reduction Plan (TERP). Please contact me at (979) 862-1280 should you or any of the TCEQ staff have any questions concerning this report or any of the work presently being done to quantify emissions reductions from energy efficiency and renewable energy measures as a result of the TERP implementation.
The Energy Systems Laboratory (Laboratory), at the Texas A&M Engineering Experiment Station of Th... more The Energy Systems Laboratory (Laboratory), at the Texas A&M Engineering Experiment Station of The Texas A&M University System, in fulfillment of its responsibilities under Texas Health and Safety Code Ann. § 388.003 (e), submits its annual report, Energy Efficiency/Renewable Energy (EE/RE) Impact in the Texas Emissions Reduction Plan (TERP) to the Texas Commission on Environmental Quality.
Architectural Graphic Standards Reference
... Sincerely, David E. Claridge, Ph.D., PE Director Enclosure cc: Commissioner Larry R. Soward C... more ... Sincerely, David E. Claridge, Ph.D., PE Director Enclosure cc: Commissioner Larry R. Soward Commissioner Bryan Shaw Executive Director Glenn Shankle Page 3. 2007 TERP Report Vol. I, p. 2 December 2008 Energy Systems Laboratory, Texas A&M University System ...
This paper describes a computer simulation model for assessing the potential energy savings in of... more This paper describes a computer simulation model for assessing the potential energy savings in office buildings through the use of daylight and occupancy sensors. Because motion sensors control the lights, special attention is placed on a Monte Carlo approach to establishing lighting schedules for the typical workday. Fixed lighting profiles were shown to generate misleading information regarding electric demand charges and life-cycle costs of the building. A case-study building containing motion sensors and individual room air conditioners was used to provide essential data for the study and corroborate the model. Illuminance data were measured in daylit and non-daylit spaces of the building in order to validate the energy savings from daylighting that were predicted by the simulation model.
This study examines the lifetime building e nergy consumption of a typical house in Bangkok, Thai... more This study examines the lifetime building e nergy consumption of a typical house in Bangkok, Thailand. The lifetime building energy consumption is composed of three major components: 1) the energy used in building construction (i.e., embodied, transportation and construction energy), 2) the energy used in building operation (annual energy), and 3) the energy used in building demolition (demolition energy). The study used measured environmental and en ergy use data from a case-study house in Thailand. For the construction energy and the energy used in building demolition analyses, reference data from reliable sources both in the U.S. and the U.K. were used. The DOE-2 energy simulation program was used to analyze changes to the annual energy use caused by changing various building materials and/or design configurations. A new energy efficient design was then iteratively chosen that contained reduced levels of embodied energy use and reduced annual energy use. The results from the anal...
Proceedings of the 7th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA)
Proceedings of the 7th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA)
Proceedings of the 12th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA)
Proceedings of the 14th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA)
The Energy Systems Laboratory (Laboratory), at the Texas A&M Engineering Experiment Station of Th... more The Energy Systems Laboratory (Laboratory), at the Texas A&M Engineering Experiment Station of The Texas A&M University System, in fulfillment of its responsibilities under Texas Health and Safety Code Ann. § 388.003 (e), submits its annual report, Energy Efficiency/Renewable Energy (EE/RE) Impact in the Texas Emissions Reduction Plan (TERP) to the Texas Commission on Environmental Quality.
and with IBPSA Past President Larry Degelman about IEA Annex 66, a model library for Modelica, ne... more and with IBPSA Past President Larry Degelman about IEA Annex 66, a model library for Modelica, new free tools for creating and editing weather files (Elements) and for calibrating EnergyPlus/DOE2.2 models (ExCalibBEM), daylighting simulation on the GPU (Accelerad), a Human Thermal Model, design tools from India, Mr Comfy, Design Builder, Ebest, IES, and Unmet Hours, a Q&A website for building energy modellers from IBPSA affiliates in Australasia,
A&M University System is pleased to provide this preliminary report, “Energy
impact of proposed local energy code amendments in the Texas non-attainment and near-non-attainme... more impact of proposed local energy code amendments in the Texas non-attainment and near-non-attainment counties as part of the Texas Emissions Reduction Plan (TERP). Please contact me at (979) 862-1280 should you or any of the TCEQ staff have any questions concerning this report or any of the work presently being done to quantify emissions reductions from energy efficiency and renewable energy measures as a result of the TERP implementation.
The Energy Systems Laboratory (Laboratory), at the Texas A&M Engineering Experiment Station of Th... more The Energy Systems Laboratory (Laboratory), at the Texas A&M Engineering Experiment Station of The Texas A&M University System, in fulfillment of its responsibilities under Texas Health and Safety Code Ann. § 388.003 (e), submits its annual report, Energy Efficiency/Renewable Energy (EE/RE) Impact in the Texas Emissions Reduction Plan (TERP) to the Texas Commission on Environmental Quality.
Architectural Graphic Standards Reference
... Sincerely, David E. Claridge, Ph.D., PE Director Enclosure cc: Commissioner Larry R. Soward C... more ... Sincerely, David E. Claridge, Ph.D., PE Director Enclosure cc: Commissioner Larry R. Soward Commissioner Bryan Shaw Executive Director Glenn Shankle Page 3. 2007 TERP Report Vol. I, p. 2 December 2008 Energy Systems Laboratory, Texas A&M University System ...
This paper describes a computer simulation model for assessing the potential energy savings in of... more This paper describes a computer simulation model for assessing the potential energy savings in office buildings through the use of daylight and occupancy sensors. Because motion sensors control the lights, special attention is placed on a Monte Carlo approach to establishing lighting schedules for the typical workday. Fixed lighting profiles were shown to generate misleading information regarding electric demand charges and life-cycle costs of the building. A case-study building containing motion sensors and individual room air conditioners was used to provide essential data for the study and corroborate the model. Illuminance data were measured in daylit and non-daylit spaces of the building in order to validate the energy savings from daylighting that were predicted by the simulation model.
This study examines the lifetime building e nergy consumption of a typical house in Bangkok, Thai... more This study examines the lifetime building e nergy consumption of a typical house in Bangkok, Thailand. The lifetime building energy consumption is composed of three major components: 1) the energy used in building construction (i.e., embodied, transportation and construction energy), 2) the energy used in building operation (annual energy), and 3) the energy used in building demolition (demolition energy). The study used measured environmental and en ergy use data from a case-study house in Thailand. For the construction energy and the energy used in building demolition analyses, reference data from reliable sources both in the U.S. and the U.K. were used. The DOE-2 energy simulation program was used to analyze changes to the annual energy use caused by changing various building materials and/or design configurations. A new energy efficient design was then iteratively chosen that contained reduced levels of embodied energy use and reduced annual energy use. The results from the anal...