phd environmental engineering usa

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Doctor of Philosophy (PhD) in Geography and Environmental Engineering

Offered By: Department of Environmental Health and Engineering (Whiting school of engineering)

Onsite | Full-Time | 5 years

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About the PhD in Geography and Environmental Engineering Program

A PhD student in the Geography and Environmental Engineering program will explore the current state of knowledge in his or her field. Information and ideas developed by others are critically examined and placed in proper context.

Subject areas are identified that are important to achieving the goals of the discipline, but which have not been explored or developed. The student will propose new research to improve understanding in this key area. A research proposal should then outline, in an orderly and logical manner, how key questions are addressed. While pursuing these research hypotheses, the student must take time to consider alternative explanations for experimental observations, and devise new experiments that critically test assumptions and theories.

The student will learn to state problems clearly and solve them in a reliable and efficient manner. Whatever lines of reasoning one uses, one must be as sure as possible that the conclusions are correct, particularly since there is always some uncertainty in science and engineering. The student must think through their research plans to avoid unproductive activities. Because research involves managing time and resources, the PhD student is receiving excellent preparation for future professional work.

Students have the option to focus their study: Track in Environmental Sustainability, Resilience, and Health (ESRH) .

Doctoral students in the Geography and Environmental Engineering doctoral program have the opportunity to learn from and collaborate with faculty from a wide variety of disciplines, including:

• Air pollution and greenhouse gases
• Energy systems
• Public health
• Water quality
• Economic dimensions of environmental health
• Anthropological dimensions of environmental health

PhD in Geography and Environmental Engineering Program Highlights

Fully funded.

The minimum guaranteed 2025-2026 academic year stipend is $50,000, with a 4% increase the following year. Tuition, fees, and medical benefits are provided.

MULTIDISCIPLINARY

Opportunities to work across departments in the Schools of Public Health, Engineering, and more

WRITE AND PUBLISH

Help with academic writing and grant proposals embedded into coursework, with opportunities to learn from published faculty and peers

TEACHING TRAINING

Teaching assistantships, training, and support for learning to teach, and opportunities for paid TA positions as well

What Can You Do With a Graduate Degree in Geography and Environmental Engineering?

• Research or Teaching Faculty
• Research Scientist
• Environmental Engineer (water/wastewater engineer, hydrogeologist, ecologist)
• Data Scientist
• Postdoctoral Research

Curriculum for the PhD in Geography and Environmental Engineering

Browse an overview of the requirements for this PhD program in the JHU  Academic Catalogue and explore all course offerings in the Whiting School  Course Directory .

Admissions Requirements

For general admissions requirements, please visit the Graduate Admissions  page.

Vivien Thomas Scholars Initiative

The  Vivien Thomas Scholars Initiative (VTSI)  is an endowed fellowship program at Johns Hopkins for PhD students in STEM fields. It provides full tuition, stipend, and benefits while also providing targeted mentoring, networking, community, and professional development opportunities. Students who have attended a historically Black college and university (HBCU) or other minority serving institution (MSI) for undergraduate study are eligible to apply .  Vivien Thomas Scholars Initiative  applicants for the  PhD in Geography and Environmental Engineering  are automatically vetted for eligibility for the VTSI fee waiver during the application process.

Faculty Advisers

The following faculty may be willing to advise PhD students. If you identify a faculty member that you want to work with who is not on this list, we encourage you to ask them about their availability.

Peter DeCarlo

Peter studies the chemical composition of gas particles in the air to improve our understanding of climate, air quality, and health impacts of pollutants.

Paul Ferraro

Paul ­ is a Bloomberg Distinguished Professor with joint appointments in the Department of Environmental Health and Engineering and the Carey Business School. He is known for his research on behavioral economics and the design and estimation of impacts of environmental programs.

Ciaran Harman

Ciaran, an associate professor of landscape hydrology and Russell Croft Faculty Scholar, studies how the structure of landscapes controls the movement of water from rainfall to streams, and how that structure evolves over time.

Thomas Hartung

Thomas Hartung, MD, PhD, steers the revolution in toxicology to move away from 50+ year-old animal tests to organoid cultures and the use of artificial intelligence.

Scot Miller

Scot Miller combines satellite data and statistics to understand greenhouse gas emissions across the globe.

Roni A. Neff

Roni Neff, PhD '06, ScM, researches ways to cut food waste and address climate change through more resilient, equitable, and healthy food systems.

Carsten Prasse

Carsten's research focuses on the occurrence and fate of organic contaminants in the urban water cycle and their impact on environmental and human health.

Shilva Shrestha, PhD

Shilva's research focuses on innovative biotechnologies to produce bioenergy and biochemicals to substitute fossil fuel-based products, address environmental problems, and strengthen the bioeconomy.

Tuition and Funding

Per the Collective Bargaining Agreement (CBA) with the JHU PhD Union, the minimum guaranteed 2025-2026 academic year stipend is $50,000 for all PhD students with a 4% increase the following year. Tuition, fees, and medical benefits are provided, including health insurance premiums for PhD student’s children and spouses of international students, depending on visa type. The minimum stipend and tuition coverage is guaranteed for at least the first four years of a BSPH PhD program; specific amounts and the number of years supported, as well as work expectations related to that stipend will vary across departments and funding source. Please refer to the  CBA to review specific benefits, compensation, and other terms.

Need-Based Relocation Grants Students who  are admitted to PhD programs at JHU starting in Fall 2023 or beyond can apply to receive a need-based grant to offset the costs of relocating to be able to attend JHU.   These grants provide funding to a portion of incoming students who, without this money, may otherwise not be able to afford to relocate to JHU for their PhD program. This is not a merit-based grant. Applications will be evaluated solely based on financial need.  View more information about the need-based relocation grants for PhD students .

Questions about the program? We're happy to help. [email protected]

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Ph.D. Program

The doctor of philosophy (Ph.D.) program is an intensive research where each student plans an individualized course of study with the assistance of a special committee made up of faculty members representing major and minor areas of study.

Candidates for the Ph.D. degree are expected to demonstrate mastery of knowledge in a specific subject area in Civil and Environmental engineering and to synthesize and create new knowledge, making original and substantial contributions to their discipline in a timely fashion. Please see the  Assessment page  for further details. Program standards are set by the Graduate School and can be found within the Code of Legislation.

The application requirements, tuition rates, and deadline for the Ph.D. programs are listed on the  Graduate School's website .

Research Areas

Research in Civil & Environmental Engineering covers an extremely broad range of topics.

Environmental Fluid Mechanics and Hydrology M.S. & Ph.D.

Environmental processes m.s. & ph.d., environmental and water resource engineering m.s. & ph.d..

• Complex Systems Engineering M.S. & Ph.D.

Structural Engineering (Ph.D. only)

• Transportation Systems Engineering M.S. & Ph.D
• Financial Aid

All Ph.D. students are fully funded (tuition, stipend, and health insurance). The funding comes from a variety of sources including graduate research assistantships, teaching assistantships, and external and internal fellowships. All students are encouraged to apply for external fellowships where eligible . For policy and tax information, please visit the Graduate School financial aid page.

Frequently Asked Questions (FAQ)

CEE FAQ Graduate School admissions FAQ Office of Global Learning (for international students) FAQ  

• Civil and Environmental Graduate Field Handbook

This handbook is intended as a guide for current and prospective CEE graduate students to map the procedures and forms necessary for successful completion of graduate research degree requirements. 

• Cornell Engineering Ph.D. Resources

Testimonial by

Engineers solve the world's most pressing problems and make an impact on people's life. It was my dream to contribute to the solution of the environmental problems all over the world, so I opted to become an environmental engineer as I entered college

Transportation Systems Engineering M.S. & Ph.D.

Overview of the PhD Program

For specific information on the Environmental Science and Engineering PhD program, see the navigation links to the right. 

What follows on this page is an overview of all Ph.D. programs at the School; additional information and guidance can be found on the  Graduate Policies  pages. 

General Ph.D. Requirements

• 10 semester-long graduate courses, including at least 8 disciplinary.   At least 5 of the 10 should be graduate-level SEAS "technical" courses (or FAS graduate-level technical courses taught by SEAS faculty), not including seminar/reading/project courses.  Undergraduate-level courses cannot be used.  For details on course requirements, see the school's overall PhD course requirements  and the individual program pages linked therein.
• Program Plan (i.e., the set of courses to be used towards the degree) approval by the  Committee on Higher Degrees  (CHD).
• Minimum full-time academic residency of two years .
• Serve as a Teaching Fellow (TF) in one semester of the second year.
• Oral Qualifying Examination Preparation in the major field is evaluated in an oral examination by a qualifying committee. The examination has the dual purpose of verifying the adequacy of the student's preparation for undertaking research in a chosen field and of assessing the student's ability to synthesize knowledge already acquired. For details on arranging your Qualifying Exam, see the exam policies and the individual program pages linked therein.
• Committee Meetings : PhD students' research committees meet according to the guidelines in each area's "Committee Meetings" listing.  For details see the "G3+ Committee Meetings" section of the Policies of the CHD  and the individual program pages linked therein.
• Final Oral Examination (Defense) This public examination devoted to the field of the dissertation is conducted by the student's research committee. It includes, but is not restricted to, a defense of the dissertation itself.  For details of arranging your final oral exam see the  Ph.D. Timeline  page.
• Dissertation Upon successful completion of the qualifying examination, a committee chaired by the research supervisor is constituted to oversee the dissertation research. The dissertation must, in the judgment of the research committee, meet the standards of significant and original research.

Optional additions to the Ph.D. program

Harvard PhD students may choose to pursue these additional aspects:

• a Secondary Field (which is similar to a "minor" subject area).  SEAS offers PhD Secondary Field programs in  Data Science and in  Computational Science and Engineering .   GSAS  lists  secondary fields offered by other programs.
• a Master of Science (S.M.) degree conferred  en route to the Ph.D in one of several of SEAS's subject areas.  For details see here .
• a Teaching Certificate awarded by the Derek Bok Center for Teaching and Learning .

SEAS PhD students may apply to participate in the  Health Sciences and Technology graduate program  with Harvard Medical School and MIT.  Please check with the HST program for details on eligibility (e.g., only students in their G1 year may apply) and the application process.

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Civil & Environmental Engineering PhD

The Department of Civil and Environmental Engineering (CEE) at Berkeley is a place of intellectual vitality. This vitality is evident in its creative and forward-looking curricula and classroom teaching, its attentive academic mentoring, and the innovative research conducted by students and faculty.

CEE focuses on developing future leaders for the engineering profession, for academia, and for applying engineering methods in the broader societal context. CEE conducts cutting-edge research, defining what constitutes the evolving domain of civil and environmental engineering.

We offer both Master's (the Master of Science and the Master of Engineering ) and Doctoral degree programs. We support seven programs of study for the MS and the PhD, each of which has its own prerequisites for admission and degree requirements. CEE offers two programs of study for the MEng. CEE also offers three concurrent degree programs and two certificate programs.

Master of Engineering (MEng)

This professional degree emphasizes solving technical, sociological, environmental, and economic problems involved in the design, construction, and operation of engineering structures, processes, and equipment. Studies include courses in the engineering sciences necessary to the engineering interpretation of the latest scientific developments. Courses in design, operation, humanities, and economics provide a basis for the analysis and solution of problems in professional engineering.

Students in this degree program select either a concentration in Systems (Civil Systems) or Transportation Engineering (see above descriptions). There are options for either full-time or part-time enrollment.

CEEs MEng program is offered in conjunction with the Fung Institute for Engineering Leadership .

Master of Science (MS) and Doctor of Philosophy (PhD)

These degrees emphasize the application of the natural sciences to the analysis and solution of engineering problems. Advanced courses in mathematics, chemistry, physics, and the life sciences are normally included in a program that incorporates the engineering systems approach for analysis of problems.

Students in these degree programs select one of the following seven concentrations:

1. Construction Systems: Construction is a large, vital, and exciting field now disrupted by deep technology like AI, robotics, embedded sensors and nano-materials. The industry is reshaping itself for example by increased use of modular and off-site production with radically new supply chains, virtualization and development of digital twins, and innovative management thinking such as Lean Construction.This program will educate you to lead tomorrows automation of the construction industry.

You will learn to leverage these disruptions to realize the next generation of adaptable, resilient, sustainable smart buildings and infrastructure. We teach construction systems as a computational and management science, integrating technology with applications for example to realize state-of-the-art structural and geotechnical designs, to launch you as a technologist, entrepreneur, researcher, academic, or management professional geared to drive construction industry transformation.

Our curriculum includes:

Construction viewed as a socio-technical system including its data science, optimization, and simulation aspects,

Construction viewed as a project-based production system including its organizational, financial, planning, control, legal, and contractual aspects,

Integration with structural and geotechnical design,

Technology including the use of robots, cloud computing, machine learning, sensing, scanning, and information modeling such as BIM and VDC,

Large-scale systems thinking including societal-scale mobility, energy flows, and urban forms,

The freedom to take courses in other disciplines.

Our graduates find a wide range of employment opportunities in private industry and in the public sector, for example in tech companies, consulting, design, building, transportation, and industrial construction firms, as well as in public- and private owner organizations, both domestically as well as internationally.

As we are located in the San Francisco Bay Area the center of major local, national, and international construction activity our Program is strongly interlinked with industry. Our class projects and research leverage the ability to go observe as well as study specific local and international projects. We draw on examples from residential-, commercial building-, industrial-, and heavy/civil construction throughout our curriculum. We also invite industry practitioners to present guest lectures describing industry challenges and solutions.

2. Energy, Civil Infrastructure and Climate: Energy, climate, and infrastructure systems are closely tied together, and these connections manifest in many forms. Our society cannot function without energy and infrastructure systems. Energy systems with the lowest possible greenhouse gas footprint are a key to mitigating climate change. Civil infrastructure systems are a backbone of society, and they are also major users of energy that needs to be reduced for a more sustainable development.

The objective of the Energy, Civil Infrastructure and Climate (ECIC) Program is to educate a cadre of professionals who will be able to analyze from engineering, environmental, economic, and management perspectives complex problems such as energy efficiency of buildings, environmentally informed design of transportation systems, embodied energy of construction materials, electricity from renewable sources, and biofuels, and address such overarching societal problems as mitigation of greenhouse gas emissions and adaptation of infrastructure to a changing climate. ECIC also promotes research at the intersection of energy, infrastructure and climate science.

3. Engineering and Project Management: The Engineering and Project Management (E&PM) Program educates professionals to become leaders in managing projects and companies in Architecture-Engineering-Construction (AEC) and in other industries. E&PM graduates find a wide range of employment opportunities in private industry and in the public sector, for example in engineering consulting-, building-, transportation-, and industrial construction firms, as well as in public- and private owner organizations, both domestically as well as internationally.

As infrastructure systems become more complex, tomorrow's industry leaders must add innovative management thinking to a solid foundation in design and construction. The E&PM Program is uniquely specialized in teaching and researching such new management concepts as Lean Construction, Cost and Schedule Forensics, and Sustainability Engineering. Our teaching and research emphasizes new concepts, technologies, developments, and techniques applicable to both domestic and international project and corporate management. The Program emphasizes the interrelationships of all life-cycle components: planning, design,manufacturing, construction, operation, maintenance, and re-purposing/decommissioning.

As we are located in the San Francisco Bay Area-the center of major local, national, and international project management and construction activity-our Program is strongly interlinked with industry. Our class projects and research leverage the ability to go observe as well as study specific local and international projects. We draw on examples from commercial building-, industrial-, and heavy/civil construction throughout our curriculum. We also invite industry practitioners to present guest lectures describing industry challenges and solutions.

4. Environmental Engineering: Management of environmental resources to protect human health and the systems that support life is one of the biggest challenges facing modern society. In recognition of the interdisciplinary nature of these challenges, Berkeley's Environmental Engineering Program provides you with the education needed to address current and future environmental issues. Graduate coursework and research is focused in three Areas of Emphasis :

• Air Quality Engineering (AQE)
• Environmental Fluid Mechanics and Hydrology (EFMH)
• Water Quality Engineering (WQE)

You are encouraged to develop a broad set of problem-solving skills through courses and research in related fields such as:

• Berkeley Atmospheric Sciences Center
• Earth and Planetary Sciences
• Energy & Resources Group
• Environmental Science, Policy & Management
• Integrative Biology
• Mechanical Engineering
• Plant & Microbial Biology
• School of Public Health

5. GeoSystems : The GeoSystems Program encompasses a broad area of teaching and research in geotechnical and geological engineering, environmental geotechnics, and applied geophysics. The focus is on the evaluation of engineering properties of geologic materials and on providing engineering solutions for dealing with geologic environment and processes, and natural hazards.

To this end we pursue studies of the mechanical behavior of soil and rock masses, laboratory and field characterization of material properties, development and application of geophysical techniques for site and subsurface characterization, development of advanced analysis methods, and evaluation of static and dynamic (seismic) performance of soil deposits, earth structures, and underground space.

The GeoSystems graduate program has a long tradition of excellence and its graduates are leaders in the industry and academia. The strength and breadth of Berkeley's GeoSystems is enhanced by close ties with faculty in other areas of Civil and Environmental Engineering and Earth Sciences. Close interaction of the faculty with consulting companies and practitioners also provides opportunity for exposure to the state-of-the-art practice through invited lectures and site visits to ongoing engineering projects in the San Francisco Bay Area.

Due to the broad interdisciplinary nature of the field we welcome students with a wide range of backgrounds in Engineering and Earth Sciences.

6. Structural Engineering, Mechanics, and Materials: CEE's Structural Engineering, Mechanics, and Materials (SEMM) Program has an international reputation for excellence. Many of the fundamental developments underlying the state-of-the-art in structural engineering, mechanics, and materials were pioneered by SEMM faculty and students. This tradition of excellence continues today through vigorous programs of basic and applied research, and careful attention to instruction.

The active involvement of SEMM faculty in the forefront of research projects and in the solution of challenging real world engineering problems results in an instructional program that is up-to-date and relevant. SEMM offers excellent opportunities for study and research leading to advanced degrees in the areas of structural analysis and design, mechanics of structures and solids, and materials in structures and construction.

The curriculum provides a strong basis for advanced professional practice, research, or teaching. Programs of study can be tailored easily to fit individual needs and interests, whether broad-based and multidisciplinary, or narrowly focused and highly technical. Graduates from the SEMM Program have gone on to become world leaders in private practice, government service, education, and research.

7. Systems (Civil Systems): The focus of the Systems Engineering Program (Systems) is understanding complex large-scale systems and developing tools for their design and operation. Such systems encompass built elements in the broad sense (infrastructures transportation, structures, etc.), societal systems (social networks, populations enterprises), and natural systems (land water, air). These systems are at the core of Civil and Environmental Engineering of the 21st Century.

The understanding of how such systems work requires knowledge about the constitutive laws that govern them, such as traffic flow, fluid mechanics, structural mechanics, and smart networks. It also requires an understanding of the theoretical paradigms that are used to model, control and optimize such systems. These include the theories of computation, control theory, optimization, behavioral economics, sensor networks, statistics, and signal processing.

In response to these challenges, the Systems Program provides courses that cover both field knowledge and technical/theoretical tools. This is reflected in the curriculum. We offer masters and doctoral degree programs providing the key skills, e.g., technological, mathematical, or social scientific, as well as the knowledge for a broad range of engineering domains. Our graduates lead the next generation of research, start-ups, industrial corporations, and public-sector organizations.

8. Transportation Engineering: Graduate study in transportation at the University of California, Berkeley prepares you for a professional, teaching, and research career. Emphasis is on the acquisition of advanced knowledge concerning planning, design, operations, maintenance, rehabilitation, performance, and evaluation of transportation systems, including their economic and public policy aspects. The program stresses development of analytic, problem-solving, design, and management skills suitable for public and private sector professional work.

Transportation Engineering faculty with diverse backgrounds and research interests, including emeriti professors, teach transportation courses. In addition, faculty from City and Regional Planning , Economics , Industrial Engineering and Operations Research , Business Administration , Political Science , and other departments offer courses related to transportation.

Students also have the opportunity to work and interact with research staff at the Institute of Transportation Studies .

Students in the PhD program have the option of pursuing a designated emphasis (DE) to supplement their study.

Concurrent Degrees

The concurrent degree program is a formal arrangement of two existing, but separate, master's degree programs, which result in the students earning two masters degrees. CEE offers the following concurrent degree programs:

• Program in Structural Engineering and Architecture (MArch/MS)
• Program in Transportation Engineering and City and Regional Planning (MCP/MS)
• Any CEE graduate program and Public Policy (MPP/MS)

For further information regarding these programs, please see the department's website .

Certificates

Certificate in Engineering and Business for Sustainability: The Engineering and Business for Sustainability (EBS) Certificate Program trains UC Berkeley graduate students to understand the complexity and urgency of their role in engineering, business, and environmental management, and to work across boundaries to achieve sustainable solutions to pressing societal problems. This program allows students to tap into multidisciplinary educational resources from the College of Engineering , Haas School of Business , Energy and Resources Group , Goldman School of Public Policy , College of Natural Resources , and the School of Public Health , to learn how to have a lasting beneficial impact on the global environment. This program is open to all Berkeley graduate students who meet the EBS Certificate course requirements. For further information regarding this program, see the department's website .

Certificate in Intelligent Transportation Systems: Jointly sponsored by CEE, the Department of Electrical Engineering & Computer Science and Mechanical Engineering, this program is designed to assist students in studying ITS in a systematic and focused way. Faculty advisers help students design a personalized study program to meet their goals. For more information regarding this program, see the department's website .

Designated Emphasis

Berkeley Ph.D. students are eligible to pursue a Designated Emphasis as part of their doctoral studies. Common Designated Emphases for CEE doctoral students include:

• Computational and Data Science and Engineering
• Global Metropolitan Studies
• Development Engineering

A designated emphasis is a specialization, such as a new method of inquiry or an important field of application, which is relevant to two or more existing doctoral degree programs. You are required to complete the academic work in the area of specialization and all the requirements of the doctoral program. You must be admitted to the DE before taking the qualifying examination. A complete list of Designated Emphases is here .

Contact Info

[email protected]

760 Davis Hall

Berkeley, CA 94720

At a Glance

Department(s)

Civil & Environmental Engineering

Admit Term(s)

Application Deadline

December 17, 2024

Degree Type(s)

Doctoral / PhD

Degree Awarded

GRE Requirements