Environmental Engineering
Last verified by NonDilute: 2026-04-29. Official notice and agency instructions control.
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What this is
The Environmental Engineering program is part of the Environmental Engineering and Sustainability cluster, which also includes 1) the Nanoscale Interactions program; and 2) the Environmental Sustainability program. Environmental engineering is an interdisciplinary field that applies chemical, biological, and physical scientific principles to protect human and ecological health. The goal of the Environmental Engineering program is tosupport potentially transformative fundamental research that applies scientific and engineering principles to 1) prevent, minimize, or re-use solid, liquid, and gaseous discharges of pollution to soil, water, and air by closing resource loops or through other measures; 2) mitigate the ecological and human-health impacts of such releases by smart/adaptive/reactive amendments or manipulation of the environment, and 3) remediate polluted environments through engineered chemical, biological, and/or geo-physical processes. Integral to achieving these goals is a fundamental understanding of the transport and biogeochemical reactivity of pollutants in the environment. Therefore, research on environmental micro/biology, environmental chemistry, and environmen
Eligible applicant types
- Unrestricted (i.e., open to any type of entity above), subject to any clarification in text field entitled "Additional Information on Eligibility"
Full description — from the agency
The Environmental Engineering program is part of the Environmental Engineering and Sustainability cluster, which also includes 1) the Nanoscale Interactions program; and 2) the Environmental Sustainability program. Environmental engineering is an interdisciplinary field that applies chemical, biological, and physical scientific principles to protect human and ecological health. The goal of the Environmental Engineering program is tosupport potentially transformative fundamental research that applies scientific and engineering principles to 1) prevent, minimize, or re-use solid, liquid, and gaseous discharges of pollution to soil, water, and air by closing resource loops or through other measures; 2) mitigate the ecological and human-health impacts of such releases by smart/adaptive/reactive amendments or manipulation of the environment, and 3) remediate polluted environments through engineered chemical, biological, and/or geo-physical processes. Integral to achieving these goals is a fundamental understanding of the transport and biogeochemical reactivity of pollutants in the environment. Therefore, research on environmental micro/biology, environmental chemistry, and environmental geophysics may be relevant providing the research has a clear objective of protecting human and ecological health. Major areas of interest include (but are not limited to): Building afuture without pollution or waste: Investigation of innovative biogeochemical processes that prevent or minimize the production of waste; waste valorization and other research that will lead to new technologies toextract resources from waste streams to close the resource loop. Sustainable supply and protection ofwater: Investigation of innovative biogeochemical processesthat remove, biologically or chemically transform, and/or prevent therelease of contaminants in surface and groundwater; innovative processesfor recovery of water, nutrients, and other resources from wastewater,saline water, or brines; innovative approaches to smart and adaptive management of surface water, groundwater, and urban watersheds and storm water to maintain/improve quality and prevent downstream impacts from nutrients and other water constituents. Environmentalchemistry, fate, and transport of nutrients and contaminants of emergingconcern in air, water, soils, and sediments:Investigation of transport and biogeochemical reactivity in theenvironment; environmental forensics to identify sources and reaction pathways; field- and laboratory scale experimental research that bridgesgaps between data and predictions from molecular, continuum, and field-scale modeling. Environmentalengineering of the built environment: Research to understand the biogeochemical reactivity of the builtenvironment with the goal of enhancing and improving human and ecological health; research that will lead to new technologies to improve outdoor and indoor air quality; research to understand how drinking water and wastewater chemical characteristics and microbial community structure impact or are affected by water quality and human health. NOTE: Proposals with a scientific focus on chemical or physical separation processes (for example, materials or processes for reverse osmosis, membrane distillation, and hypo-filtration) should be submitted to the Interfacial Engineering program (CBET 1417). Proposals that seek to advance fundamental and quantitative understanding of the behaviors of nanomaterials and nanosystems should be submitted to the Nanoscale Interactions program (CBET 1179). Proposals focused on in vitro molecular-level environmental chemistry research should be submitted to Environmental Chemical Sciences program (CHE-ECS 6882). Proposals focusing on industrial ecology, green engineering, and ecological/earth systems engineering should be submitted to the Environmental Sustainability program (CBET 7643). Proposals whose main research focus is on materials development, sensors, or environmental monitori…
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