Environmental Engineers develop solutions to environmental problems, like erosion or flooding, using engineering, soil science, biology, and chemistry.
Environmental engineering technicians carry out the plans that
environmental engineers develop.
Not exact matches
Hall - Kimbrell
Environmental Services Inc. (# 9) inspects buildings for asbestos and
develops detailed
engineering plans for its removal.
The curriculum outline,
developed with a two - year National Science Foundation planning grant to explore the transformation of STEM learning, brings together all elements of STEM — science, technology,
engineering, and mathematics — around a theme of
environmental stewardship.
For example, researchers are
developing «smart» biomaterials such as temperature - sensing hydrogels that can respond biologically to
environmental conditions by changing their biomechanical or drug - releasing properties, says Seeram Ramakrishna, a professor of mechanical
engineering and director of the Center for Nanofibers & Nanotechnology at the National University of Singapore.
«The problem is that there is not really any good, objective water quality test» that can easily be performed in remote areas of
developing countries, says Stephen Gundry, professor of
environmental engineering at the University of Bristol who co-authored the WHO Bulletin paper.
Many of these projects involved working closely with
engineers, and so we had the idea that we could combine both sciences and
develop automated solutions for chemical and
environmental processes in the lab.
Stephen H. Levine, a professor of civil and
environmental engineering at Tufts University School of
Engineering,
developed the computer model to rapidly compare the predicted efficacy of vasectomy (vs. castration) and hysterectomy (vs. ovariohysterectomy).
We aimed to
develop an analytical method that would be as broad as possible,» said Damian Helbling, assistant professor of civil and
environmental engineering.
Called the Flame Refluxer, the technology,
developed by fire protection
engineering researchers at Worcester Polytechnic Institute (WPI) with funding from the Bureau of Safety and
Environmental Enforcement (BSEE), could make it possible to burn off spilled oil quickly while producing relatively low levels of air pollutants.
A Columbia
Engineering team led by Pierre Gentine, professor of earth and
environmental engineering, and Adam Sobel, professor of applied physics and applied mathematics and of earth and
environmental sciences, has
developed a new approach, opposite to climate models, to correct climate model inaccuracies using a high - resolution atmospheric model that more precisely resolves clouds and convection (precipitation) and parameterizes the feedback between convection and atmospheric circulation.
[Box 9] OIS - China - Chinese Science and Technology Policy Delegation Visit, 1978 Zhongshan University Delegation Visit, 1979 AAAS Popularization of Science Delegation to China, 1980 CAST Science Writers Delegation to US, 1981 AAAS
Environmental Planning Delegation to China, 1981 US - China Conference on Energy Resources and Environment, 1982 Interferon Study (Proposed), 1982 CAST Delegation to US, 1982 CAST Quality Control Delegation to US, 1982 Rumenant Productivity Symposium - US Papers, 1983 Rumenant Productivity Symposium - Chinese Papers, 1983 Photo Album of Address by Song Jian, 1985 AAAS Board of Directors Delegation to China, 1985 Chinese Delegation Visit (IIE), 1986 US Fish and Wildlife Service Delegation to China, 1986 FASAS International Climate Change Symposium (Proposal), 1986 CAST Delegation to US, 1986 Background Political Information, 1987 Law / Science Short Course (Proposal), 1987 Collected Information and Papers on Chinese Water Management, 1987 CAST Water Management Delegation to US, 1987 AAAS Water Management Delegation to China, 1987 AAAS Water Management Delegation to China - Follow - up, 1988 CAST Petrochemical
Engineer Delegation to US (Proposal), 1987 Pacific Rim Symposium (Proposal), 1987 Science and Technology Advising Seminar (Proposal), 1988 - 1989 AAAS / ABA Lawyers and Scientists Delegation to China, 1988 China Symposium at 1989 AAAS Annual Meeting, 1988 - 1989 Medical Instrument Maintenance and Repair, 1989 Fang Li Zhi, 1988 - 1989 Amnesty International Reports on Chinese Arrests, 1989 Correspondence re: June 1989 Events in China, 1989 Consortium of Affiliates for International Programs, 1989 China - FASAS Symposium on
Environmental Protection in
Developing Countries, 1989 FASAS Symposium Chinese Papers, 1989 PRC Joint Commission Visit, 1989 Tibet, 1987 Liz Levey Misc Correspondence, 1982 - 1990 Chinese Code of Ethics, 1986 China Tech Company Information, (undated) AAAS / CAST Exchange Programs, 1978 - 1987 Correspondence with CAST International Director Wang Zheng, 1981 - 1982 Correspondence with CAST, 1981 - 1989 James Hartnett Complaint to CAST, 1988 - 1989 Chinese Academy of Sciences, 1987 Hong Kong Association for the Advancement of Science and Technology, 1987 - 1988 Correspondence with Chinese Embassy, 1982 - 1987 NAS China Committee, 1982 - 1986 Financial Aid for Chinese Students, 1987 Misc Articles and General Background Information, 1978 - 1989 Misc., 1982 - 1989 Presentation Transparencies, 1988 Elzinga, Aant.
Engineers and scientists at NMSU, ASU, Georgia Tech and the University of California, Davis are collaborating to
develop methods to use or mimic biological processes for
engineering the ground in ways that reduce construction costs while mitigating natural hazards and
environmental degradation.
The School of Engineering's mission is to educate
engineers committed to the innovative and ethical application of science and technology in addressing the most pressing societal needs, to
develop and nurture twenty - first century leadership qualities in its students, faculty, and alumni, and to create and disseminate transformational new knowledge and technologies that further the well - being and sustainability of society in such cross-cutting areas as human health,
environmental sustainability, alternative energy, and the human - technology interface.
Topics: Research, School of
Engineering, Civil and
environmental engineering, Climate change, Environment, Climate, Poverty, Global Warming, India, Asia,
Developing countries, Singapore - MIT Alliance for Research and Technology (SMART)
Environmental and Sustainability Education: Schools emphasize interdisciplinary learning about the relationships between environmental, energy, and human systems; use the environment and sustainability to develop students» knowledge and skills in science, technology, engineering, and math; and develop students» civic - engagement knowledge and skills, providing students with opportunities to apply these skills to address sustainability and environmental issues in their
Environmental and Sustainability Education: Schools emphasize interdisciplinary learning about the relationships between
environmental, energy, and human systems; use the environment and sustainability to develop students» knowledge and skills in science, technology, engineering, and math; and develop students» civic - engagement knowledge and skills, providing students with opportunities to apply these skills to address sustainability and environmental issues in their
environmental, energy, and human systems; use the environment and sustainability to
develop students» knowledge and skills in science, technology,
engineering, and math; and
develop students» civic - engagement knowledge and skills, providing students with opportunities to apply these skills to address sustainability and
environmental issues in their
environmental issues in their communities.
Our programming is
developed in collaboration with other academic areas including:
engineering, sociology, anthropology, history, education,
environmental studies, social justice, performing arts, and women's gender studies programs.
«It's kind of stating that the
developing countries weren't asked,» observes Robert Socolow, a professor of mechanical and aerospace
engineering at the Energy Group of the Princeton
Environmental Institute.
Marie - Odile Fortier, an
environmental engineer at the University of Kansas, is part of a team of researchers who are
developing an innovative pathway to create biofuels made from algae grown in municipal wastewater.
Additionally, the recent launch of the Wendy Schmidt Oil Cleanup X Prize Challenge is inspiring entrepreneurs,
engineers and scientists all over the world to
develop innovative, rapidly deployable and highly efficient methods of cleaning up the worst
environmental disaster in US history.
For the past 24 years, Mark Z. Jacobson, a professor of civil and
environmental engineering at Stanford, has been
developing a complex computer model to study air pollution, energy, weather and climate.
«The software tool
developed by the Bren students, combining
engineering and
environmental analysis with economic and policy analysis, showed that cities and communities are where climate change can be addressed with the greatest beneficial impact.
Maynard et al. say nanotechnology needs to:
develop instruments to assess exposure to
engineered nanomaterials in air and water within next 3 - 10 years; create and test ways of evaluating the toxicity of nanomaterials in 5 - 15 years; generate models to predict their possible impact on the environment and human health over the next 10 years;
develop ways to assess the health and
environmental impact of nanomaterials over their entire lifetime, within 5 years; and, enable risk - focused research into nanomaterials, within the next 12 months.
The building will be one of the first to implement a new Verification Protocol for Engineered Natural Ventilation Systems in Equatorial Climates,
developed by Bogotá - based
environmental engineering consultants (and design team members) for the Colombia Green Building Council to standardize the use of natural ventilation as a LEED energy effectiveness strategy.
Prior to attending law school, Bick worked in the aerospace industry as an
environmental engineer,
developing and implementing facility compliance programs for air, water and hazardous waste, and serving on the Operating Industries, Inc..
Environmental engineers use the principles of engineering, soil science, biology, and chemistry to develop solutions to environmen
Environmental engineers use the principles of
engineering, soil science, biology, and chemistry to
develop solutions to
environmentalenvironmental problems.
Hard - working
environmental engineer with the ability to combine biology and chemistry in order to
develop solutions to resolve
environmental problems; with twelve years experience in water and air pollution control, waste disposal and waste management issues
Assists
environmental engineers in carrying out the plans they
develop to solve
environmental problems
Other tasks of materials
engineers refer to designing and
developing prototypes, analyzing the waste and
environmental pollution issues of products or resolving various problems and issues, which appeared during manufacturing processes.
The resume format of Production
Engineer includes his major job responsibilities like conceptualizing and
developing operational strategies for attaining production and financial objectives; identifying unsafe operations and practices and reporting the same to Manager; establishing safety procedures and
environmental regulations for the employees.
Proficient at completing
environmental investigations on upcoming
engineering projects,
developing and implementing
environmental improvement programs, and collecting and analyzing field data.
Specializes at
developing goals and
environmental parameters for
engineering projects.
In conjunction with city staff,
develops and explores new concepts and ideas related to meeting new green building,
environmental and civil
engineering standards and requirements
Environmental engineers in government
develop regulations to prevent mishaps.
An
environmental engineer is someone who uses the principles of
engineering, soil science, biology, and chemistry to
develop solutions to
environmental problems.
Environmental Engineers Environmental engineers use the principles of engineering, soil science, biology, and chemistry to develop solutions to environmen
Environmental Engineers Environmental engineers use the principles of engineering, soil science, biology, and chemistry to develop solutions to environmental
Engineers Environmental engineers use the principles of engineering, soil science, biology, and chemistry to develop solutions to environmen
Environmental engineers use the principles of engineering, soil science, biology, and chemistry to develop solutions to environmental
engineers use the principles of
engineering, soil science, biology, and chemistry to
develop solutions to
environmentalenvironmental problems.
Environmental engineers design and
develop systems or procedures that aim to lessen the burden on the environment.
Lead Civil
Engineer — Land Development Solutions — Denver, Colorado — September 2011 — March 2015 • Supervised the civil
engineering development team in the implementation of new projects • Used specialized tools such as AutoCAD, Trimble Terramodel, and Primavera P6 Professional • Calculated requirements used in the plan and design of civil work according to specifications • Ensured safety and compliance standards were met by monitoring and assessing risk factors • Forecasted the quantity, budget, and cost of
engineering equipment, labor, and manpowerCivil
Engineer — UWV Foundation — Cheyenne, Wyoming — July 2000 — April 2006 • Completed site surveys and analyzed data • Researched, assessed, and studied patterns of elements and
environmental conditions to determine adequacy of relevant factors • Ensured compliance with safety standards and managed risk factors • Tested strength of various foundation materials, introducing 25 - percent stronger materials •
Developed solutions to safely address challenges involving extreme weather patterns
If you're an independent business professional — an
environmental scientist, lawyer, consultant,
engineer or some other field — you've likely worked hard to
develop your technical skills.
Professional Summary Proven, creative, detail - oriented Senior
Engineer,
Developing Environmental Projects Lead, International Business Development Director, and NASA environmental contract Pro
Environmental Projects Lead, International Business Development Director, and NASA
environmental contract Pro
environmental contract Program Manager.
Toyota
Engineering and Manufacturing North America (Princeton, IN) 10/2001 — 5/2010 Technician / Skilled Maintenance Team Leader • Provided support and technical expertise on Allen Bradley PLC - 5 and Control Logic, as well as designed new screens for HMI using RSView and mapped all data and alarms needed for monitoring production equipment • Programmed PLC's using Rockwell software as required by production, utilizing PLC as a troubleshooting tool to locate and repair process problems • Repaired and maintained all three phase medium and low voltage motors, programming medium voltage control relays to meet manufacturer specifications and monitor applicable data from motors as well as
engineering data and motor manufacturing parameters into VFD's • Established PM schedules for maintaining floor conveyors, robots, RFID, air handling, sludge, paint mix room, and lifters, assisting T / M's with performing preventative maintenance on equipment • Ensured calibration of
environmental equipment to maintain state and federal guidelines, performing the calibration procedures and repair of micrometers, calipers, and profilometers as required by ISO standards • Identified and
developed countermeasures to manufacturing - related problems with equipment, monitoring corrective actions and resolution implementation to ensure problems were below 2 % of operational availability • Review associated work instructions for changes as needed to maintain quality, safety, and
environmental standards, while planning and coordinating weekly safety meetings and training for team members
Environmental Engineer — Duties & Responsibilities Trained environmental engineer with experience in industrial and academic settings Oversee development and feasibility study of a new low level chlorine detection method by nanotechnology Direct identification and quantification of sulfate - reducing bacteria (SRB) and sulfur - oxidizing bacteria (SOB) by Real Time Polymerase Chain Reaction (RT - PCR) Lead research for «Control of distribution system water quality in a changing water quality environment» funded by Tampa Bay Water Authority, Water Research Foundation Responsible for analyzing biological parameters and interpreting data from distribution system samples Manage QA / QC and sampling protocol for all biological project samples Compose and organize the entire biological sections for final project reports Develop and verify empirical models relating biofilm density and HPC measurements to water quality Responsible for designing water, sewer, fire, and storm drainage systems for a 3 story building Composed an Operations & Maintenance Manual for drainage systems Drafted full - size CAD blue prints of drainage systems and other structures Proficient in water / waste water treatment, experimental design, and laboratory studies Provide research for a project studying the effects of ultra-filtration on oily waste water Create a full 40 MGD water treatment plant process and design for a fictional city in North China Oversee site and source water selection, water pump stations design, treatment plant planning and pipeline layout Drafted full - size CAD blue prints and composed an Operations & Maintenance Manual Experience with hydraulic modeling and waste water plant design Consistently recognized for excellence in team leadership, project management, and a
Environmental Engineer — Duties & Responsibilities Trained environmental engineer with experience in industrial and academic settings Oversee development and feasibility study of a new low level chlorine detection method by nanotechnology Direct identification and quantification of sulfate - reducing bacteria (SRB) and sulfur - oxidizing bacteria (SOB) by Real Time Polymerase Chain Reaction (RT - PCR) Lead research for «Control of distribution system water quality in a changing water quality environment» funded by Tampa Bay Water Authority, Water Research Foundation Responsible for analyzing biological parameters and interpreting data from distribution system samples Manage QA / QC and sampling protocol for all biological project samples Compose and organize the entire biological sections for final project reports Develop and verify empirical models relating biofilm density and HPC measurements to water quality Responsible for designing water, sewer, fire, and storm drainage systems for a 3 story building Composed an Operations & Maintenance Manual for drainage systems Drafted full - size CAD blue prints of drainage systems and other structures Proficient in water / waste water treatment, experimental design, and laboratory studies Provide research for a project studying the effects of ultra-filtration on oily waste water Create a full 40 MGD water treatment plant process and design for a fictional city in North China Oversee site and source water selection, water pump stations design, treatment plant planning and pipeline layout Drafted full - size CAD blue prints and composed an Operations & Maintenance Manual Experience with hydraulic modeling and waste water plant design Consistently recognized for excellence in team leadership, project management, and academ
Engineer — Duties & Responsibilities Trained
environmental engineer with experience in industrial and academic settings Oversee development and feasibility study of a new low level chlorine detection method by nanotechnology Direct identification and quantification of sulfate - reducing bacteria (SRB) and sulfur - oxidizing bacteria (SOB) by Real Time Polymerase Chain Reaction (RT - PCR) Lead research for «Control of distribution system water quality in a changing water quality environment» funded by Tampa Bay Water Authority, Water Research Foundation Responsible for analyzing biological parameters and interpreting data from distribution system samples Manage QA / QC and sampling protocol for all biological project samples Compose and organize the entire biological sections for final project reports Develop and verify empirical models relating biofilm density and HPC measurements to water quality Responsible for designing water, sewer, fire, and storm drainage systems for a 3 story building Composed an Operations & Maintenance Manual for drainage systems Drafted full - size CAD blue prints of drainage systems and other structures Proficient in water / waste water treatment, experimental design, and laboratory studies Provide research for a project studying the effects of ultra-filtration on oily waste water Create a full 40 MGD water treatment plant process and design for a fictional city in North China Oversee site and source water selection, water pump stations design, treatment plant planning and pipeline layout Drafted full - size CAD blue prints and composed an Operations & Maintenance Manual Experience with hydraulic modeling and waste water plant design Consistently recognized for excellence in team leadership, project management, and a
environmental engineer with experience in industrial and academic settings Oversee development and feasibility study of a new low level chlorine detection method by nanotechnology Direct identification and quantification of sulfate - reducing bacteria (SRB) and sulfur - oxidizing bacteria (SOB) by Real Time Polymerase Chain Reaction (RT - PCR) Lead research for «Control of distribution system water quality in a changing water quality environment» funded by Tampa Bay Water Authority, Water Research Foundation Responsible for analyzing biological parameters and interpreting data from distribution system samples Manage QA / QC and sampling protocol for all biological project samples Compose and organize the entire biological sections for final project reports Develop and verify empirical models relating biofilm density and HPC measurements to water quality Responsible for designing water, sewer, fire, and storm drainage systems for a 3 story building Composed an Operations & Maintenance Manual for drainage systems Drafted full - size CAD blue prints of drainage systems and other structures Proficient in water / waste water treatment, experimental design, and laboratory studies Provide research for a project studying the effects of ultra-filtration on oily waste water Create a full 40 MGD water treatment plant process and design for a fictional city in North China Oversee site and source water selection, water pump stations design, treatment plant planning and pipeline layout Drafted full - size CAD blue prints and composed an Operations & Maintenance Manual Experience with hydraulic modeling and waste water plant design Consistently recognized for excellence in team leadership, project management, and academ
engineer with experience in industrial and academic settings Oversee development and feasibility study of a new low level chlorine detection method by nanotechnology Direct identification and quantification of sulfate - reducing bacteria (SRB) and sulfur - oxidizing bacteria (SOB) by Real Time Polymerase Chain Reaction (RT - PCR) Lead research for «Control of distribution system water quality in a changing water quality environment» funded by Tampa Bay Water Authority, Water Research Foundation Responsible for analyzing biological parameters and interpreting data from distribution system samples Manage QA / QC and sampling protocol for all biological project samples Compose and organize the entire biological sections for final project reports
Develop and verify empirical models relating biofilm density and HPC measurements to water quality Responsible for designing water, sewer, fire, and storm drainage systems for a 3 story building Composed an Operations & Maintenance Manual for drainage systems Drafted full - size CAD blue prints of drainage systems and other structures Proficient in water / waste water treatment, experimental design, and laboratory studies Provide research for a project studying the effects of ultra-filtration on oily waste water Create a full 40 MGD water treatment plant process and design for a fictional city in North China Oversee site and source water selection, water pump stations design, treatment plant planning and pipeline layout Drafted full - size CAD blue prints and composed an Operations & Maintenance Manual Experience with hydraulic modeling and waste water plant design Consistently recognized for excellence in team leadership, project management, and academic study
Civil
Engineer — Duties & Responsibilities Responsible for civil
engineering and construction projects valued in excess of $ 60 million
Develop exposure to varied construction projects with both military and civilian applications Maintain, update, and create GIS and CADD data for use in Public Works civil
engineering projects Coordinate data collection and project management with partner agencies and subcontractors Map utilities,
environmental features, cultural resources, infrastructure, communication lines, and other features Utilize GPS and conventional surveying techniques to collect thousands of data points for detailed mapping Create and access spatial datasets in ArcSpatial Data Engine
Develop and implement new mapping techniques using GIS software decreasing project turnover by 30 % Design and print large scale maps, drawings, and other items for use in
engineering projects Set and strictly adhere to project timelines and budgets Manage construction contract negotiations, implementation, and funding Oversee finances identifying and resolving any errors or deviations of project budgets Direct office operations and support staff ensuring efficient, effective, and professional operations Serve as Civil
Engineering instructor at the US Air Force Academy Lead classes in advanced GPS equipment operations, mapping, GIS software, and Terrasync data collection
Develop new GIS, GPS, CADD curriculum for more than 1,200 cadets Implement instruction in Airfield Damage Assessment, MOS plotting, and combat skills Build and strengthen professional relationships with commanding officers, support staff, and business partners Perform all tasks with poise, integrity, and positivity
Chuck first
developed an
environmental division at a New York City based
engineering firm in 1993.