Projects include examination of the need for adaptation in urban water supply and storm water management systems, and in the design and operation of buildings in particular regions. Research is focused on bioenergy, nanotechnology, environmental restoration and improving fossil energy extraction.
More information about the exciting projects being done by our world-class faculty and students can be found by visiting the websites of our faculty and their individual research groups, as well as the Research Profiles section of our website.
Professors Dave Dzombak and Mitch Small are investigating the influence of population, economic growth, and other factors on water demand. Projects focus on elucidating the fundamental biogeochemical processes controlling the fate of nanoparticles in the environment and their effects on organisms to ensure that nanotechnology is developed safely and sustainably.
All EESS faculty are engaged in research to improve the environmental sustainability of conventional and unconventional fossil energy extraction and use. Energy Extraction Impacts on Drinking Water Professor Jeanne VanBriesen is studying the role of energy extraction activities including shale gas on surface waters and drinking water systems in the Appalachian region.
Electric Vehicles Professors Chris Hendrickson and Costa Samaras, in collaboration with faculty from Engineering and Public Policy, Mechanical Engineering and the Robotics Institute, study Sustainability issues in civil engineering environmental sciences essay environmental impacts of hybrid and plug-in electric vehicles.
Offsetting the Greenhouse Effect: Special areas of interest include the organic chemistry of airborne particles and the micro-physics of particles and clouds.
Part 2 continues by focusing on how CCUS could impact the underground environment, while Part 3 looks at efforts to develop a risk assessment framework for use in CCUS operations. Environmental Performance in Electricity Production In collaboration with the Carnegie Mellon Electricity Industry Center, Professors Scott MatthewsChris Hendricksonand Costa Samaras are evaluating the environmental and economic impacts of various electricity production scenarios.
Research is focused on understanding the potential for leakage of injected, supercritical CO2 through overlying rock and cemented wellbores; on development of monitoring systems for detecting such leakage; on evaluating impacts of leakage on overlying aquifers; and on development of leakage models for inclusion in risk assessment models.
Fossil fuel, extraction and processing contributes bromide-containing wastes to source waters that increase formation of disinfection by-products in municipal drinking water.
Projects aim to enhance the understanding of environmental processes related to the protection of air, water, and land resources; to develop new technology for reduced environmental impact; and to develop energy transition strategies.
Research aims to guide the energy-related decisions of policy makers and consumers, and focuses on life cycle implications, battery technology, vehicle systems, and public policy.
The impacts of regional changes in temperature, precipitation, wind loads, snow loads and other environmental factors on built and natural infrastructure are being explored.
Projects explore variables in energy generation sources in different states, as well as the benefits and costs of renewable electricity sources, life cycle emissions, and other factors.
Professors Scott Matthews and Chris Hendrickson are assessing the overall environmental impacts and resource requirements associated with the large amount of internal migration taking place between various regions in the country, and the impacts of changes in and loads on transportation systems.
Both are the subject of research efforts concerning energy generation and use, and may become key factors in the way we think about energy. Implications for built infrastructure of response of natural systems, such as permafrost, ice, and surface waters to changes in long-term climate trends are being investigated.
Investigating Nanoparticle Absorption in Plants There might be metal in your gym socks. Environmental Implications of Shale Gas Extraction Pennsylvania has a rich history in energy resources, from the first oil well to centuries of coal mining.
Energy and the Environment The Pittsburgh region is a global hub of energy research and innovation with particular focus on fossil fuel coal, oil, natural gasnuclear, and wind.
Recently, Pennsylvania has been central to a national discussion of the potential and the challenges associated with domestic natural gas from shale reserves in the Marcellus and Utica formations.
Climate Change Adaptation for Infrastructure The CEE Department has a cross-group, interdisciplinary research initiative focused on investigation of the implications of climate change for the design, operation, and maintenance of infrastructure.Sustainability In Commercial Building Environmental Sciences Essay [Type the document subtitle] Agyemang Oppong, Doyin.
This report looks at some of the ways landlords can promote sustainability in their tenant lease agreement, some clauses in the green lease toolkit and ways for paying for these sustainable improvements. Environmental Engineering - Environmental Engineering WHAT IS IT.
ENVIRONMENTAL ENGINEERING IS A FIELD OF BROAD SCOPE THAT DRAWS ON SUCH DISCIPLINES AS CHEMISTRY, ECOLOGY, GEOLOGY, HYDRAULICS, HYDROLOGY, MICROBIOLOGY, ECONOMICS, AND MATHEMATICS. Environmental Sciences concentrates on understanding the major environmental issues facing human societies and it adopts an integrative cross-disciplinary approach to the study of these issues.
This program provides a significant background in chemistry. Read more about Smart Cities: Innovative approaches combining engineering, technology and the social sciences are boosting the urban IQ Study abroad and sustainability in the world's largest city Tokyo, the largest metropolitan area in the world, is home to almost 38 million people.
On a global level, the World Economic Forum's Global Leaders for Tomorrow, Yale University, and Columbia University have developed an Environmental Sustainability Index (ESI).
The ESI was developed for countries to measure the overall progress towards environmental sustainability/5(10). Environmental and Sustainability Engineering This track leads to a master of science (MS) degree awarded by the College of Engineering and Applied Science.
This is a technical program for students with an undergraduate degree in engineering.Download