World Resource Institute / University of Illinois at Chicago / Building Green / /
IndustryTerm
energy demand / cumulative energy / transportation / i.e. natural gas / Operational energy data / commuter transportation survey / reduced energy consumption / Wood products / overall life-cycle energy / renewable energy sources / higher electricity energy demand / yr natural gas consumption / theoretical energy modeling / agricultural production systems / energy life-cycle stage / energy carriers / natural gas / energy data / gas plant / building materials / software package / life-cycle simulation tool / energy / commuter transportation impacts / greenhouse gas emissions / energy efficient buildings / by-products / i.e. building product / energy consumption / petroleum products / redeveloped site / thermal simulation tool / Electricity consumption / geothermal and photovoltaic systems / high-energy consumption / median energy consumption / coke oven gas / energy use intensity / recommended remediation technology / renewable energy systems / energy efficiency / manufacturing / natural gas-fired furnace / energy consumption impacts / low-energy / pure chemicals / predicted energy consumption / waste treatment services / chemicals / Life-cycle energy distribution / steel / embodied energy equivalent / long-term energy consumption / actual building operational energy data / redeveloped brownfield site / low-energy building / brownfield site / yr commuter transportation energy consumption / embodied energy / energy intensive building products / low energy / actual energy consumption data / yr electricity consumption / operational energy efficiency / electric and electronic equipment / cumulative energy demand / actual measured energy performances / heating oil / overall energy consumption / commuter transportation data / life-cycle energy / transportation operational energy / renewable energy / paint / emulsified tar oil pitch / natural gas consumption / required energy / long-term operational energy / i.e. energy / proposed remediation technology / transportation services / heavy-end petroleum products / energy consumption records / electricity / energy intensive life-cycle stage / energy performance / long-term operational energy consumption / life-cycle energy use / annual energy consumption / long-term building operational energy consumption / metal siding / energy systems / operational energy life-cycle stage / commuter transportation / operational energy / sustainable building products / avoided energy impacts / steel framing / energy consumption data / conventional electricity / predicted using a thermal simulation tool / provided thus enabling the transportation / using actual building operational energy data / /
Organization
US Department of Energy / US Department of Commerce / US Environmental Protection Agency / Society of Environmental Toxicology and Chemistry / University of Illinois at Chicago / National Center for Food and Agricultural Policy / World Resource Institute / Chicago Department of General Services / and Kunal Dasai / project∗ Thomas Brecheisen1 and Thomas Theis Department of Civil / Chicago Center for Green Technology / Illinois Department of Regulation / Brecheisen1 and Thomas Theis Department of Civil and Materials Engineering / Illinois Emergency Management Agency / United States Environmental Protection Agency / Chicago Department of Environment / Bureau of Economic Analysis / Energy Information Administration / Institute for Environmental Science and Policy / United States Green Building Council / Illinois Environmental Protection Agency / /
Person
Stacey Munroe / Thomas Theis / Steve Pincuspy / Feist / Emma Peng / Kelly Reiss / Jenny Babcock / Bryan Glosik / /
The Chicago Center for Green Technology: life-cycle assessment of a brownfield redevelopment project=*titlefn.* * 00