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PhD position in Human-Centric Optimization for Supply Chain Excellence
Position PhD-studentIrène Curie Fellowship NoDepartment(s) Industrial Engineering and Innovation SciencesFTE 1,0Date off 08/09/2024Reference number V39.7650Job descriptionThe labor shortage in the Netherlands has become a critical issue, affecting...
PhD scholarship in “Quantitative Analysis of Impact Investing and Social Entrepreneurship Scaling”
Job descriptionThe PhD project is part of a network of 15 doctoral theses that all contribute to the overall goal of understanding social entrepreneurship (SE) scaling. This particular PhD thesis i...
PhD position “Simulation of oxygen blowing in electric arc furnace (EAF) steel manufacturing”
Practical informationResearch group: Multiphysics and Turbulent Flow Computation (MTFC), University of Liège, BelgiumSupervisor: Prof. Vincent Terrapon (www.mtfc.uliege.be)Duration: 4 years, starting on September 2024Project: Walloon Region projec...
PhD on Innovation pathways for off-shore wind energy integration
TU/e is seeking an enthusiastic candidate for a PhD project that aims to develop pathways for the integration of offshore wind energy in the energy system.Position PhD-studentIrène Curie Fellowship NoDepartment(s) Industrial Engineering and Innova...
EngD position on Supply Chain Security
Job descriptionPolicy makers around the world, especially in Europe, are increasingly focused on enhancing the resilience and security of their critical infrastructures, given the increasing cyber ...
PhD position in Reality Capture for Real Estate Valuation
PhD position in Reality Capture for Real Estate ValuationDo you want to be part of the circular revolution to rethink the way we value the built environment? Join us as a fully-funded doctoral cand...
PhD in geomatics: damage detection in historic masonry using computer vision and AI
There is a vacancy for a PhD researcher in the Geomatics research group of the Department of Civil Engineering of KU Leuven. The candidate will be active in the CHAI project (Cracking Built Heritag...
Project Manager/PHD Position in Production Management
We specialize in facilitating the digital evolution of businesses towards Industry 4.0 and fostering data-driven circular economies. Our expertise lies in crafting IT ecosystems that streamline and enhance sustainability across all facets of opera...
Doctoral scholarship holder or postdoctoral researcher safe and sustainable industrial processes and value chain management
Let’s shape the future - University of AntwerpThe University of Antwerp is a dynamic, forward-thinking, European university. We offer an innovative academic education to more than 20000 students, c...
Doctoral researcher (PhD) in Operations Research
The Centre for Logistics and Supply Chain Management (LCL), which is a part of the Department of Economics and Management of the Faculty of Law, Economics and Finance of the University of Luxembour...
PhD Position in Algorithmic Energy Trading
Job descriptionKey takeawaysThe PhD research will be performed as part of an industry funded project on algorithmic energy trading. The goal of this project is to conceive, develop, and evaluate se...
Next generation digital twins for smart manufacturing systems
The KU Leuven research group within the Department of Mechanical Engineering has significant experience in digital twins for manufacturing systems. The main industrial applications are discrete man...
PhD: sustainability & circularity-based decision support systems (industrial digital twins)
The Faculty of Science, Institute of Environmental Sciences (CML) and the Faculty of Governance and Global Affairs, Leiden University College, are looking for a:PhD Researcher on sustainability and circularity-based decision support systems for in...
PhD Student - Department of Structural Engineering and Building Materials
Type vacature OAPJob title PhD StudentDepartment Department of Structural Engineering and Building MaterialsOccupancy rate 100%Type of contract Limited durationClosing date 6/30/24Diploma MSc in Structural or Mechanical Engineering (or another MSc...
PhD position Water Circularity in Cities
Job descriptionMany cities around the world struggle with water-related problems such as scarcity, drought, pollution, ageing infrastructure and inequitable access. Cities also face broader social,...
Intelligent robotic human extender
The research group of the Department of Mechanical Engineering at the Ghent Technology Campus focuses on improving logistic processes. Therefore, new types of devices and machines are designed and ...
PhD Position on Modeling of smart additive-manufacturing processes for high-performance concrete
Job descriptionProject OverviewThe goal of this project is to create a system capable of autonomously selecting in real time the optimal concrete composition and process parameters to produce the i...
Postdoc Position on Modeling of smart additive-manufacturing processes for high-performance concrete
Job descriptionProject OverviewThe goal of this project is to create a system capable of autonomously selecting the optimal concrete composition and process parameters to produce the ideal concrete...
EngD Large language models to predict and affect clean energy choices in homes
Are you an exact science graduate willing to contribute to a cleaner world and interested in computational linguistics and behavioural modelling? This 2 year project makes use of LLM’s to increase citizen participation in energy transition. Part o...
Doctoral scholarship holder water electrolysis
Let’s shape the future - University of AntwerpThe University of Antwerp is a dynamic, forward-thinking, European university. We offer an innovative academic education to more than 20 000 students, ...
Doctoral student in Production Systems
Are you passionate about sustainability and eager to make a real impact? Join our team as doctoral student in the research project ReShare (Shared Understanding and Requirements Management for Gree...
PhD Student - Department of Data Analysis and Mathematical Modelling
Last application date Aug 30, 2024 00:00Department LA26 - Department of Data Analysis and Mathematical ModellingContract Limited durationDegree master’s degree in bioscience, chemical, or process engineering with strong track record in modelling a...
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Industrial Engineering, PhD
- Program description
- At a glance
- Degree requirements
- Admission requirements
- Tuition information
- Application deadlines
- Program learning outcomes
- Career opportunities
- Contact information
Analytics, Health Care, Industrial Engineering, Information Management, Logistics, Mathematical modeling, Operations Research, Quality Assurance, Six Sigma, Statistician, approved for STEM-OPT extension, design, engineeringgrad, optimization, production, systems
The industrial engineering program at ASU is consistently ranked among the top 20 graduate programs in the United States. Faculty members in the program are internationally recognized for their innovative research projects funded by both government and industry.
The PhD program in industrial engineering engages students in fundamental and applied research. The overall educational objective of graduate study in industrial engineering is to improve each student's ability to identify, define and solve problems and perform original research in order to address the underlying causes of these problems. Industrial engineers develop qualitative and quantitative abilities to guide the design and operation of sustainable organizations and systems.
This doctoral program provides students with a rigorous education and with research and educational experiences. A large number of students are involved in applied research projects that are carried out in the context of government or privately funded research. Students have many opportunities to participate in highly impactful research projects and interact with the leaders in the subfield in which they choose to specialize. Many students graduate with significant accomplishments resulting from the work they performed during the course of their doctoral study.
This program may be eligible for an Optional Practical Training extension for up to 24 months. This OPT work authorization period may help international students gain skills and experience in the U.S. Those interested in an OPT extension should review ASU degrees that qualify for the STEM-OPT extension at ASU's International Students and Scholars Center website.
The OPT extension only applies to students on an F-1 visa and does not apply to students completing a degree through ASU Online.
- College/school: Ira A. Fulton Schools of Engineering
- Location: Tempe
- STEM-OPT extension eligible: Yes
85 credit hours, a written comprehensive exam, an oral comprehensive exam, a prospectus and a dissertation
Required Core (15 credit hours) IEE 605 Foundations of Information Systems Engineering (3) IEE 620 Optimization I (3) IEE 622 Optimization II (3) IEE 640 Probability and Stochastic Processes (3) IEE 670 Mathematical Statistics (3)
Electives (42 credit hours)
Research and Internship Required Coursework (16 credit hours) IEE 594 Conference and Workshop (1) IEE 700 Research Methods (1) IEE 784 Teaching Internship (1) IEE 790 Reading and Conference (1) or IEE 584 Internship (1) IEE 792 Research (12)
Culminating Experience (12 credit hours) IEE 799 Dissertation (12)
Additional Curriculum Information Students are required to complete five core courses within the first year of full-time enrollment in the doctoral program. To be allowed to continue in the program after completion of the core courses, each student must successfully pass a qualifying exam on three of the five core courses.
Eligible students can request a master's in passing after successfully completing the qualifying exam and completing 30 credit hours in the doctoral program.
A written and an oral comprehensive examination are required no later than the semester following completion of 57 credit hours of coursework in the plan of study. The student must also successfully defend the dissertation prospectus and the dissertation research.
Applicants must fulfill the requirements of both the Graduate College and the Ira A. Fulton Schools of Engineering.
Applicants are eligible to apply to the program if they have earned a bachelor's or master's degree in any field from a regionally accredited institution.
Applicants must have a minimum cumulative GPA of 3.50 (scale is 4.00 = "A") in the last 60 hours of their first bachelor's degree program, or applicants must have a minimum cumulative GPA of 3.50 (scale is 4.00 = "A") in an applicable master's degree program.
All applicants must submit:
- graduate admission application and application fee
- official transcripts
- a statement of purpose
- GRE scores (optional)
- three letters of recommendation
- proof of English proficiency
Additional Application Information An applicant whose native language is not English must provide proof of English proficiency regardless of their current residency.
ASU does not accept the GRE® General Test at home edition.
At the time of application, all applicants must have successfully completed a minimum of nine credit hours of calculus (Calculus I, II, III) with a grade of "C" or higher (scale is 4.00 = "A").
A student with any deficiency coursework must complete each deficiency with a grade of "B" (3.00) or better within two semesters of admission to the program.
Deficiency courses include: CSE 110 Principles of Programming CSE 205 Object-oriented Programming and Data Structures IEE 376 Operations Research Deterministic Techniques/Applications IEE 380 Probability and Statistics for Engineering Problem Solving IEE 470 Stochastic Operations Research MAT 242 Elementary Linear Algebra
Students should see the program website for application deadlines.
Session | Modality | Deadline | Type |
---|---|---|---|
Session A/C | In Person | 01/15 | Final |
Session | Modality | Deadline | Type |
---|---|---|---|
Session A/C | In Person | 09/15 | Final |
Program learning outcomes identify what a student will learn or be able to do upon completion of their program. This program has the following program outcomes:
- Develop advanced modeling to solve problems/issues in the field of Industrial Engineering.
- Produce novel scholarly research that makes a unique contribution to the field of industrial engineering.
- Develop innovative methodology, algorithms, and tools to solve a complex systems problem.
Graduates of the program are prepared for careers in academia, government and industry. In these fields, graduates are qualified to teach, conduct advanced research, and develop and make use of advanced techniques for the operation of their businesses.
Industrial, Systems & Operations Engineering Prgm | CTRPT 105 [email protected] 480-965-3199
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PhD in Industrial Engineering
The Doctor of Philosophy (PhD) in Industrial Engineering is awarded to students who demonstrate high academic achievement and research competence in the field of industrial engineering. To earn a PhD, a student must complete approved and advanced course work and submit and defend an original dissertation of independent research. The Department of Mechanical and Industrial Engineering expects all successful doctoral candidates to show depth of knowledge and research innovation in their chosen field of specialization.
The MIE department admits applicants to the PhD program either directly after earning a suitable bachelor’s degree (i.e., bachelor’s entry) or after earning a master’s degree (i.e., advanced entry).
- Program Details
- Degree Requirements
- Degree Requirements - Advanced Entry
- Admissions Information
- Tuition & Financial Aid
Innovative Curriculum
This advanced degree combines research with industry leaders and real world experience to prepare for a career in research, academic or business professions.
- An ability to identify, formulate, and solve complex engineering/scientific/quantitative problems
- An ability to explain and apply engineering design principles, as appropriate to the program’s educational objectives
- An ability to produce solutions that meet specified end-user needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors
- An ability to recognize and advance industrial engineering tools/principles needed for in many areas, including healthcare systems, supply chains, logistics and transportation engineering, manufacturing, sustainability, resilient systems, energy systems, and human-in-the loop systems
- Located in downtown Boston, which facilitates tremendous collaborations with other nearby academic institutions, hospital facilities, and tech firms.
- Conduct research alongside faculty in labs, research centers, and research institutes. Many faculty hold young investigator awards, other national recognitions, and are elected fellows of professional societies for contributions to the engineering profession.
- The department has 12 collaborative research themes, including robotics, energy systems, sustainability & environmental protection, resilient & sustainable service systems, mechanics, human-technology integration and systems, materials for the future, intelligent manufacturing, networks and complex systems, and more.
- Can be combined with a Gordon Engineering Leadership certificate.
- Learn more.
- Scholarship Report
- Burcu Ozek, PhD'24
- Razan Al Lawati, PhD'23
- MD Mahmudul Hasan, PhD'22
Experiential Learning
Northeastern combines rigorous academics with experiential learning and research to prepare students for real world engineering challenges. The Cooperative Education Program , also known as a “co-op,” is one of the largest and most innovative in the world, and Northeastern is one of only a few that offers a Co-op Program for Graduate Students. Through this program students gain industry experience in a wide variety of organizations, from large companies to entrepreneurial start-ups, while helping to finance their education. Students can also participate in an internship or the university’s Experiential PhD program.
Academic Advising
The Academic Advisors in the Graduate Student Services office can help answer many of your questions and assist with various concerns regarding your program and student record. Use the link below to also determine which questions can be answered by your Faculty Program Advisors and OGS Advisors.
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Admissions & Aid
Ready to take the next step? Review degree requirements to see courses needed to complete this degree. Then, explore ways to fund your education. Finally, review admissions information to see our deadlines and gather the materials you need to Apply.
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Student Experiences
PhD Spotlight: Burcu Ozek, PhD’24, Industrial Engineering
Burcu Ozek, PhD’24, industrial engineering, focused research on developing objective pain assessment methods through machine learning, aiming to accurately quantify uncertainty and preexisting pain conditions. She co-authored six peer-reviewed journal articles, with four as lead author.
PhD LEADERs Program Helps Alum Secure Multiple Job Offers and Shape Career Path
Burcu Özek, PhD’24, industrial engineering, credits Northeastern’s LEADERs program with helping her effectively communicate the value of her machine learning research in healthcare, leading to multiple job offers and ultimately guiding her career path.
2024 Lux. Veritas. Virtus. Inductees
Twenty-three engineering graduate students were inducted into the newly established Lux. Veritas. Virtus. society, a prestigious honor that recognizes exceptional graduate students who exemplify the university’s mission, ideals, and values.
COE Research Expo Displays Promising Work of PhD Students
The College of Engineering held a research expo to highlight the work of PhD students. Participants presented their research to a panel of judges and gained critical presentation and communication skills. They also displayed their research during the poster showcase and students were recognized with awards.
Ph.D. Degree Program
Doctor of philosophy (ph.d.) in industrial engineering — program requirements.
There are three paths to the PhD Degree in IE:
- BS to PhD — Directly from BS to PhD,
- MS in IE to PhD — For someone with a master’s degree in IE, or
- MS in non-IE to PhD — For someone with a master’s degree in a different discipline
Both BS and MS degrees must have been obtained from an accredited institution in Industrial Engineering or a relevant engineering or scientific discipline.
The chart below demonstrates course requirements for each path to PhD, in addition to a required one-credit seminar course:
| | | |
Required Courses | |||
Research | |||
Dissertation | |||
|
- Students transferring from other institutions may petition up to 6 semester hours with a minimum grade of "B" to be transferred upon approval of the Graduate Program Director, IE Chair, and the Associate Dean of the Cullen College of Engineering.
- The course selection must be approved by the student’s dissertation advisor.
- Students whose primary language is not English are required to complete an engineering communications course (INDE 6359) if the GRE verbal score is below 150.
- Full time students are required to complete one year residency with full time enrollment.
- Full-time students must enroll a minimum of 9 credit hours per semester, and the enrollment requirement for part-time students is 3 credit hours per semester.
- Satisfactory performance on the Ph.D. screening examination and oral defense of proposal is required prior to the final defense of the Ph.D. dissertation.
- The Ph.D. degree will be awarded upon the successful defense of the dissertation followed by the submission of the approved copy of the dissertation to the UH Graduate School.
Screening Exam
The following rules apply to any graduate students who wish to pursue the Ph.D. degree in Industrial Engineering.
- Two mandatory subjects: Probability and Statistics for Engineers, Advanced Linear Optimization. (Students who scored B+ or lower in INDE 6333: Probability and Statistics and/or INDE 6372: Advanced Linear Optimization are encouraged to contact IE graduate program director for more information before taking the screening exam.)
- One subject of choice based on the research area.
- The in-depth exam is a week-long take-home exam to test the student’s ability to conduct research in the student’s research field.
- Students must receive a grade of "Pass" in each subject before he/she can be formally considered as a Ph.D. candidate.
- The exam must be taken on or before the completion of 18 graduate semester hours after entering the Ph.D. program.
- This exam is administered by the department twice annually: in early January and August.
- Students must register for the test no later than two weeks prior to the exam.
- The registration form can be obtained from the department or download here .
- The students will be notified of the exam results approximately two weeks after the completion of the exam. The results will also be sent to the Graduate Program Director and the IE Department Chair.
- Students shall not be given more than two opportunities to take the exam. For the second trial, students may take only the subject areas they failed in the first trial. The second trial must be taken as soon as the next exam is offered again after the first trial.
Dissertation Advisory Committee
The candidate must select a dissertation advisory committee, whose composition is subject to the approval of the IE Graduate Program Director and the IE Department Chair.
- The advisory committee must be composed of at least five faculty members, including at least three members from the IE department and two faculty members outside the department.
- The IE Graduate Program Director and the IE Department Chair must approve any subsequent changes to the composition of this committee.
- Students are not allowed to change committee members without the permission of the Ph.D. Program Director and the department chair. A formal petition must be submitted to the department for changing Ph.D. committee members.
Formal Dissertation Proposal
A formal written dissertation proposal must be submitted to the dissertation advisory committee in a timely manner after completing the Ph.D. screening examination. The student should provide committee members with a copy of the proposal approximately two weeks before the scheduled presentation.
List of the IE Graduate Courses and Research Areas
Research Areas | Courses Offered |
---|---|
Operations Research | INDE 6333 - Probability and Statistics for Engineers |
Manufacturing and Production Systems | INDE 6333 - Probability and Statistics for Engineers |
Engineering Management | INDE 6323 - Economics of Disasters |
Distribution & Logistics | INDE 6333 - Probability and Statistics for Engineers |
Ergonomics/Occupational Safety/Human Factors Engineering | INDE 6321 - System Safety Engineering |
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Industrial Engineering PhD
School of engineering and applied sciences, program description.
The Industrial Engineering PhD program develops research leaders who can excel in academic settings and applied laboratory or industry environments. Through close collaboration with esteemed faculty members specializing in operations research, production systems, manufacturing, and human factors, our students gain invaluable insights and expertise. The program integrates rigorous coursework with supervised research experiences, culminating in a substantial and independent research project. Students become independent scholars, showcasing their work through presentations at conferences and publications in peer-reviewed journals.
School of Engineering and Applied Sciences Office of Graduate Education 415 Bonner Hall Buffalo, NY 14260 Email: [email protected]
Instruction Method
- In Person (100 percent of courses offered in person)
Full/Part Time Options
Credits required, time-to-degree.
- 3 to 5 Years
Application Fee
This program is officially registered with the New York State Education Department (SED).
- Grenoble INP - Institute of Engineering
- Posted on: 28 June 2024
PhD in industrial engineering
Job information, offer description.
G-SCOP is a multidisciplinary research laboratory addressing the challenges of designing, optimizing, and managing products and production systems. The research conducted covers the entire lifecycle of a product or product/service, from its creation to its end-of-life, including design, production, distribution, usage, and then recycling, reuse, or disposal phases.
The production system can address both manufacturing industries and health systems, energy management and usage systems, and more. In this field, the major scientific challenges in the coming years are divided into two main areas:
- Achieving the digital transition of production and product/service design systems.
- Developing a human- and society-centered production and product/service design system. G-SCOP tackles these challenges through research conducted in Flow Management and Integrated Product Design, supported by cross-disciplinary expertise in Industrial Information Systems and Optimization Methods, both in their applied and fundamental forms. The recruited individual will be integrated into the GROG team, whose work focuses on decision support to optimize the performance of production systems, whether in the design or operational phase.
These production systems for goods and services can be a single machine on a production line, a complete workshop, a logistics platform, or a supply chain consisting of multiple companies. For this purpose, operational research tools and techniques are used. The work addresses both theoretical models and industrial applications. PhD thesis offer description: The increasing market share of electric vehicles will lead to a growing demand for batteries [5,13]. These batteries are primarily composed of "cells," which themselves made of materials (Lithium, Cobalt, Graphite, etc.) considered strategic by the European Commission. These materials are costly to extract and are subject to multiple risk factors (geopolitical, environmental, social, etc.) [3]. These risks are further amplified by the reaching of planetary limits [12]. One of the industry's challenges is to establish a supply chain that is resilient and aims to reduce environmental impact [9]. The concept of circularity, derived from the circular economy, aims to address these goals [1,6,7]. Applied to a supply chain [2,4], its primary principle is to reuse products at the end of their life cycle (production waste, end-of- life products, or those no longer in use) by moving as little backward in the chain as possible. This is referred to as "reuse" if the product is reused as is, "remanufacturing" if assemblies are reused, and so forth [11]. The second principle is to use a product that no longer meets its original specifications for a different purpose, known as "repurposing" [8,10]. From a supply chain perspective, this involves sending products, with or without transformation activities, to other supply chains. This PhD thesis aims to characterize the activities necessary to increase the circularity of a supply chain. To achieve this goal, it is necessary to formalize and simulate various potential scenarios for such circular supply chains. In the first phase, for each scenario, it will be required to implement means to measure circular performance at different decision levels (Strategic, Tactical, and Operational). The next phase will involve comparing this performance regarding sustainable issues (economic, environmental, and social) to propose a method for scenario selection. Finally, a deployment methodology can be proposed as support for operational activities.
Expected Outcomes
• A state-of-the-art review of circularity indicators, circular supply chains and production systems for electric vehicle batteries.
• Definition of scenarios for developing circular activities.
• Modeling and quantification through simulation and/or testing of circular activity deployment scenarios
. • Implementation of a methodology and digital decision support tools to support the deployment of scenarios.
Where to apply
Requirements.
The candidate should hold a Master's degree or equivalent and have prior research experience in industrial engineering (internship in a laboratory, research thesis, etc.).
Skills in modeling, simulation, optimization, and life cycle analysis will be necessary Proficiency in English is required.
Specifics of the position The research will be lead on Grenoble location.
Position assigned to a restricted area: NO (Device for the protection of the scientific and technical potential of the nation, conditioning the appointment of the researcher to the authorization of the Defense Security Officer). How
Additional Information
How to apply
Applications must be sent to: [email protected]
Application deadline : 14/07/2024
Work Location(s)
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What Can I Do With a Master’s Degree in Explosion Protection Engineering?
- Publication date August 16, 2024
- Categories: Fields of Study , Grad School , Hot Topics
- Categories: careers in engineering , explosion protection engineering , fire protection engineering , fpe , master's programs , risk management , salary data , wpi , xpe
Why Get a Master’s Degree in Explosion Protection Engineering?
As the world embraces electric vehicles, hydrogen fuel cells, and modern space exploration, the demand for advanced explosion prevention and protection has never been greater. With increasing investments in renewable energy, alternative fuels, and human spaceflight, the need for experts in explosion protection engineering is set to grow. The world requires leaders equipped with specialized knowledge and skills to drive change in infrastructure, process safety, regulations, and public awareness.
WPI is dedicated to cultivating these future leaders. The university recently launched a first-of-its-kind master’s program for just that purpose. The Master of Science in Explosion Protection Engineering (XPE) program prepares professionals to tackle the critical challenges posed by explosion hazards. Graduates of this comprehensive, interdisciplinary program will leave with a strong skillset in explosion protection systems and risk mitigation strategies. You’ll be ready to advance the field and create innovative solutions across diverse applications, contributing to a safer world for everyone.
This unprecedented program is sure to bring up some questions. This blog will answer them. Gain insights into this program, including eligibility requirements, what to expect, and what kinds of careers are possible with a degree like this!
What’s the Difference Between Explosion and Fire Protection Engineering?
Fire protection engineering programs have been in the United States for some time now. These programs focus on the prevention and control of fires. Courses typically explore a range of topics, from designing fire detection and suppression systems (like sprinklers and alarms) to ensuring buildings and structures are designed with fire safety in mind. Fire protection engineers work to ensure that fires are contained and extinguished quickly to minimize damage to property and loss of life.
Fire protection applies to many industries, including residential, commercial, and industrial sectors, and often involves compliance with building codes and fire safety regulations. Fire Protection Engineering covers a broad scope, dealing with the prevention and control of fires in a variety of environments, and it often involves more extensive work with building design and fire safety systems.
Explosion protection engineering focuses mostly on preventing and reducing explosions in industrial and commercial settings. This field involves understanding the causes of explosions, such as combustible materials, high-pressure systems, and confined spaces where gases or dust can accumulate. Engineers in this field design systems and protocols to prevent explosions from happening, such as proper ventilation, explosion-proof equipment, and control systems that can detect and suppress explosions before they escalate. They also conduct risk assessments to identify potential explosion hazards and protocols for handling dangerous materials. This field often involves working with highly volatile materials in industries like oil and gas, chemical processing, and manufacturing.
While both fields aim to protect people and property from severe hazards, explosion protection engineering is more focused on the specific risks associated with explosions, which can occur rapidly and with devastating force, often in industrial settings.
Are you ready to make a difference with your Master’s degree? Learn more about WPI Graduate Studies!
Who Can Get a Master’s in Explosion Protection Engineering?
WPI’s Master of Science in Explosion Protection Engineering will be pursued by individuals who have a background in engineering, science, or a related field, and who are interested in specializing in the safety and risk management aspects of industries prone to explosions. Here’s a breakdown of who might pursue this advanced degree:
- Engineering graduates. A foundational knowledge of engineering principles is crucial to understanding the technical aspects of explosion protection. WPI welcomes applicants with backgrounds in chemical, aerospace, mechanical, materials, civil, environmental, architectural, and fire protection engineering.
- Military or government personnel. Individuals from the military, law enforcement, or government agencies involved in homeland security, emergency response, or hazardous materials management may seek to pursue this degree.
- Experienced engineers seeking specialization. Working engineering professionals who want to transition into a specialized role or industry may seek to earn this degree.
What Does a Master’s in Explosion Protection Engineering Entail?
- Foundational courses. Most programs begin with courses that provide a basic understanding of explosion protection principles and engineering fundamentals. These courses offer an overview of the key topics you will explore in greater depth later in the program.
- Forensics courses. These courses focus on the methods and tools used in investigating the causes and aftermath of explosions. Students learn about accident investigation techniques, data collection, and analysis to determine the origin, cause, and impact of an explosion.
- Engineering courses. These courses revisit the principles of engineering that are critical to explosion protection. Topics may include mechanical engineering, materials science, and structural engineering, all essential for designing systems that can withstand explosive forces.
- Explosion dynamics and modeling. Students will study the science behind explosions, including the behavior of gases, dusts, and other materials under explosive conditions. This often involves learning computational modeling techniques to simulate explosions and predict their effects.
- Capstone or thesis project. Many programs require a capstone project or thesis, where students conduct research to tackle a real-world problem related to explosion protection. Projects allow students to demonstrate their understanding and apply their skills to solve complex issues in the field.
What Jobs Are Available to Those with a Master’s in Explosion Protection Engineering?
With such a specialized degree, you may be curious about the career opportunities available to graduates. While this is not an exhaustive list, here are some of the potential careers that a graduate with a degree in explosion protection engineering might pursue, according to Glassdoor:
- Safety engineer, $131,000 – $230,000
- Fire protection engineer, $99,000–$173,000
- Risk assessment consultant, $92,000 –$160,000
- Compliance regulatory specialist, $102,000 –$159,000
- Research and development engineer, $115,000 –$194,000
- Industrial hygiene engineer, $89,000 –$145,000
- Hazardous materials specialist, $75,000 –$131,000
- Energy storage safety engineer, $171,000 –$290,000
- Chemical process safety engineer, $105,000 –$158,000
- Combustible dust hazard engineer, $89,000 –$107,000
Whether you’re looking to advance your career or specialize in a critical area, a master’s in explosion protection engineering offers valuable opportunities. With an undergraduate degree in engineering or a related field, you can qualify for this program and start making an impact.
Graduate programs at WPI are available both on campus and online to fit your schedule. For more details about the Master of Science in Explosion Protection Engineering at WPI and how it can open doors to diverse career paths, explore the program highlights .
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University Statements
Update on cornell-uaw negotiations.
Dear Ithaca campus community,
As you may know, the university and the United Automobile Workers (UAW) have been working on a new collective bargaining agreement since April 2024. The UAW represents about 1,300 of our employees across campus, including in Dining, Building Care, Facilities, CALS, CVM and the Statler Hotel. The university and the UAW have had a productive labor-management relationship for more than 40 years, and we are committed to the continued success of this relationship and to reaching our next agreement.
Despite the best efforts of the university, the parties have not yet reached a new agreement. The parties have been successful on a number of key issues concerning the bargaining unit, such as health and personal leave (“HAP”), vacation consistent with university policy, and health and safety. We have proposed to the UAW that we use the federal mediator assigned to the negotiations or a mediator of the UAW’s choice to assist the parties in reaching a complete agreement. The UAW has rejected this suggestion.
The University’s latest offer to the UAW includes the following:
- 6% wage increase in the first year, with additional increases in each of the additional proposed years.
- Changes to wage rates based on years of service which, with the 6% increase, result in wage increases of at least 10% for more than half of the unit.
- A reduction of the time for new employees to reach the job rate for their positions, from three years to one year.
- An increased wage for our most senior employees, recognizing them at 10 years and 25 years of service.
- Bonuses recognizing the longevity of employees at 5 and 15 years of service.
- Increases to clothing and shoe allowances across the unit, including provision of these allowances to additional groups of employees.
- Increased pay rates for employees providing peer-to-peer on the job training.
- Increased eligibility for shift differential.
- Support for tipped employees with retirement savings.
We are committed to continuing to bargain with the UAW to reach a new agreement.
The university is aware that the UAW has voted to authorize a strike and has scheduled a rally for today at Bailey Hall. If a strike is called, employees represented by the UAW may decide to join the strike or they may elect to report to work. We respect employees’ right to make this decision.
If the UAW calls a strike, the university has contingency plans in place to maintain essential services. Any shifts in operations, such as reduced dining hours or offerings, will be communicated on a rolling basis as these impacts may vary day to day. Employees with questions should consult with their supervisors for additional guidance on contingency plans.
The university continues to bargain in good faith. We remain hopeful we will find common ground on the remaining open issues and reach a tentative agreement acceptable to the employees represented by the UAW.
Christine Lovely Vice President and Chief Human Resources Officer
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Explore the exciting opportunities a Master's Degree in Explosion Protection Engineering can offer. This blog delves into why this specialized degree is increasingly in demand, the key differences between explosion and fire protection engineering, who is eligible to apply, and what to expect from the program. Discover the diverse career paths available for graduates, including roles in ...
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