2023
Deep Eutectic Solvents Reduce the Life Cycle Environmental Impacts and Energy Demands of Carbon Dioxide Capture
Zaib Q, Jeong D, Eckelman M, Kyung D. Deep Eutectic Solvents Reduce the Life Cycle Environmental Impacts and Energy Demands of Carbon Dioxide Capture. ACS Sustainable Chemistry & Engineering 2023, 11: 16567-16574. DOI: 10.1021/acssuschemeng.3c04718.Peer-Reviewed Original ResearchCO2 capture systemEnergy demandLow adverse environmental impactsDeep eutectic solventsEnvironmental impactsConceptual process designLife cycle environmental impactsCapture systemCarbon dioxide captureLow energy requirementsSelexol processFlue gasEnergy resourcesProcess designEutectic solventsAdverse environmental impactsLess energyEnergy requirementsCarbon dioxideDES systemsSelexolSustainable solvents
2010
Applying Industrial Ecology Tools to Increase Understanding of Demand-side Water Management in Bangalore, India
Eckelman M, Shenoy M, Ramaswamy R, Chertow M. Applying Industrial Ecology Tools to Increase Understanding of Demand-side Water Management in Bangalore, India. Asian Journal Of Water Environment And Pollution 2010, 7: 71-79. DOI: 10.3233/ajw-2010-7_4_09.Peer-Reviewed Original ResearchMaterial flow analysisSupply-side dataMunicipal water servicesUse of waterWater balanceInstitutional sectorsWater utility servicesWater servicesIndustrial ecology toolsReducing unaccounted‐for waterElectricity demandIndustrial ecologyUrban water systemsSurface water sourcesWater managementCity of BangaloreEcological toolWater supplyUrban landscapeDemandWater sourcesEnergy demandUtility servicesUnaccounted‐for waterDistribute water