Phd student

MEPT Program

MEPT Graduate Outcomes:
 70% in Industrial Positions, 15% in Doctoral Programs, and 5% Post-docs

Program Overview

Degree

Master of Engineering from the Department of Chemical and Biomolecular Engineering at the University of Delaware. The concentration is Particle Technology.

Objective

Undergraduate engineering programs rarely address the unique issues introduced by the particle phase. While elements of powder processing may be introduced in some chemical, mechanical or materials engineering curricula, no program provides a comprehensive background in the properties of granular systems or the design and analysis of particle products and processes. The MEPT program fills this gap by providing a rigorous, fundamental and industry-agnostic education in the behavior of particulate systems and the analysis and design of particulate processes and products.

Audience

The program is intended for engineers, either newly graduated or with industrial experience, who want to develop their expertise in particle technology for industrial application. The program builds on an undergraduate-level background in engineering, including mathematics, chemical thermodynamics, physical chemistry and transport phenomena.

Impact

In addition to rigorous and comprehensive course work in rate processes, transport, characterization, separations and product engineering, the program’s capstone element is an industrial internship, enabling the student to exit the program with practical, demonstrated particle technology expertise. We expect our students to be highly marketable within the chemical process, biopharmaceutical, materials, consumer products and energy industries worldwide.

Program Design

Particles are ubiquitous in industry. The majority of products produced in the chemical, pharmaceutical, materials, consumer products and energy industries either include particles or are made through the agency of particles. Engineers who work in these industries will inevitably find themselves designing, scaling and troubleshooting processes or systems involving particles.

Particle technology spans multiple length scales and requires knowledge and skills that cut across boundaries of traditional academic disciplines. Interactions at the molecular length scale result in material properties at the particle length scale which in turn impact performance of processing units or particle-based products at the macroscopic length scale. There are few, if any, academic programs that span these topics with the depth and breadth necessary to prepare engineers to manage industrial problems involving particles. In most cases, these skills are learned on the job. The MEPT program is designed to provide a comprehensive education in particle technology, emphasizing both the underlying fundamental engineering science and application to industrial practice.

In addition to learning about the behavior of particulate systems and the analysis and design of particle products and processes, training in this program will enable students to communicate and collaborate across the engineering and scientific disciplines that collectively comprise particle technology.

Program Structure

The program is built around the fundamentals of particle behavior, particle processes, particle-based product design and engineering.  It was designed to be completed in one year.  It requires the completion of thirty credits, of which twenty-four are in courses offered at the UD campus in Newark, Delaware.  Eighteen credits are encompassed by core courses that cover the key concepts of particle technology.  Four of these courses (twelve credits) are presently taught in the fall semester and two courses (six credits) in the spring semester.  Students choose two additional courses (six credits), approved as relevant electives.  The capstone is the industrial internship (six credits) which is performed with sponsorship from one of a number of participating companies.

To facilitate the inclusion of practicing engineers in this program, the program is structured to allow part-time attendance, i.e. fewer than four courses per semester.  Lectures can be attended remotely using web conferencing technology, and class assignments and exams can be submitted electronically.

Admission Requirements

Applicants must hold a bachelor’s degree from an accredited four-year college or university with a minimum undergraduate grade-point average in engineering, science and mathematics courses of 3.0 on a 4.0 scale.

This degree may be in chemical engineering, mechanical engineering, civil engineering, environmental engineering, chemistry, materials science or physics disciplines, if the undergraduate program includes engineering thermodynamics, calculus, differential equations, linear algebra, and transport phenomena (fluid mechanics, heat and mass transport). 

Individuals holding non-U.S. degrees may request a review for determination as to equivalency of a four-year U.S. degree. The accreditation of the institution which granted the degree, courses taken, grades and work history in the field of the earned degree are all taken into account when making an equivalency decision. 

Applicants must provide a minimum of three letters and recommendations of strong support from faculty or supervisors. 

Applicants should have a minimum score of 155 (700) on the quantitative portion of the GRE. Candidates with substantive industrial experience, those holding terminal degrees (MD, JD, PhD, EdD), those with clear proficiency in undergraduate course performance, or those submitting LSAT or MCAT scores may request a waiver. 

International applicants should have a minimum score of 600 on TOEFL, 250 for CTOEFL, 100 for TOEFL iBT, or 7.5 on IELTS, unless proof is submitted of having earned a degree from an institution in a country where English is the primary language. International applicants may apply for a Conditional Admission Program (CAP) which allows an applicant to complete the University of Delaware English Language Institute’s program instead of taking the TOEFL or IELTS test. 

Candidates may apply to the Certificate in Particle Technology program (CERT-PART) while taking MEPT coursework, studying for the GRE exam, and/or making a final decision to apply for MEPT.

Note: 

  • MEPT is a competitive application process with a rolling admission.
  • Applicants who meet the minimum requirements are not guaranteed admission. The Department has limited space for new students and is unable to admit all qualified applicants.
  • No one element of the application will exclude or ensure admission.

Degree Requirements

MEPT is a professional degree program generated by industry demand. The program requires:

  • The completion of thirty credits, comprising six core courses, two relevant approved elective courses and a ten week internship
  • Students to maintain an overall grade point average of 3.0 or higher
  • A grade of B- or better in a core course requirement
  • A grade of B- or better in an elective requirement to remain eligible for Departmental funding
  • That no course used to meet degree requirements may be taken Pass/Fail

Upon successful completion of the program, the Department of Chemical and Biomolecular Engineering will confer the student with the degree: Master of Engineering in Particle Technology (EGME : PART-ME). 

The program was designed to be completed in one year, however, other options are available with Program Director approval: 

  • Part-time learning, with an anticipated program duration of two years
  • Distance learning
  • Transfer of up to 9 graduate course credits from another institution or program to fulfill MEPT relevant electives (credit transfers must also be approved by the Graduate Committee and University’s Office of Graduate Studies)

Coursework

Core Courses

CHEG670: Particle Rate Processes 
Analysis of physicochemical fundamentals and rate equations for key particle formation, growth and size reduction processes including: physical and chemical nucleation, accretional growth mechanisms, collisional growth, sintering and ripening, dispersion and comminution.

CHEG671: Particle Transport 
Analysis of the fundamentals of particle motion and their applications to transport processes involving particles, including granular and powder flows, dense and lean-phase pneumatic conveying and slurry flows. 

CHEG672: Mathematics of Particle Systems
Analysis of population balance model of particulate systems with application to the design of particle-based unit operations. The course draws on elements of linear analysis, ordinary differential equations and partial differential equations to enable the solution of mathematical models of particulate systems based on the rate kernels.

CHEG673: Particle Properties & Characterization
Analysis of the key thermodynamic, surface chemical, morphological and mechanical properties of solid particles and particle assemblies that are critical in the design and manufacture of particulate systems. Introduction to common analytical methods, including sampling and sample preparation.

CHEG674: Particle Processing Operations 
Application of particle technology fundamentals to the analysis and design of particle manufacturing processes, including classification, filtering, clarification, milling and dispersion, agglomeration, drying, coating and crystallization. Application of process flowsheet software (gSolids) to analysis of combined processes such as milling circuits.

CHEG675: Particle Product Engineering
Capstone design course synthesizing the fundamentals of particle science and engineering into the design and production of particle-based products as well as the state-gate process for product engineering and development. This development process includes the phases of product conceptualization, feasibility testing, prototyping, assessment of manufacturing needs and costs, and development of a product introduction plan. The students will also develop a business plan for attracting capital necessary to startup a business based on their product concept.

CHEG684: Particle Technology Internship 
Four hundred hours of fieldwork designed to allow a student to apply acquired knowledge in an industrial setting. Requires a company sponsorship, a minimum of one progress review by mentors, a performance evaluation, an oral presentation and a written paper to be submitted to the administrator of internships.

Relevant Electives

CHEG600: Intro to Science & Engineering of Polymer Sys

CHEG616: Chemistry & Physics of Surfaces & Interfaces

MEEG613: Nanomaterials & Nanotechnology

MEEG615: Mechanical Properties of Materials

MEEG637: Multiphase Flow and Transport

PHYS624: Intro to Condensed Matter Physics

 

Technology

Discovery Based Learning Laboratories

As a major U.S. research university with over 50 research centers, UD provides students with rich opportunities for discovery-based learning in the laboratory and in the field in preparation for rewarding careers in today’s global arena. Department faculty, students and industry partners have access to four buildings with state-of-the-art advanced laboratories for testing and evaluation of advanced materials and processing for a wide range of environments and conditions.

Innovative Technology

UD innovative technology portfolio tools include:

  • Blended Learning – Hybrid Distance to Fully Online
  • Management Systems – Sakai@UD/Canvas@UD
  • Campus Web Cams and Recording Studios
  • Screen Capture – UD Capture & UD Capture LiveMark
  • Multipoint Desktop Video Conferencing – Zoom US, Skype, Adobe Connect, GoToMeeting
  • Lab Tools – Aspen, Python, MatLab, Minitab, Flient, CFD

Industrial Laboratory Equipment

  • AURIGATM 60 CrossbeamTM FIB-SEM
  • JEM-2010F FasTEM
  • Wyatt Mobius DLS
  • Micromeritics BET Analyzer
  • Beckman Coulter Particle Analyzer
  • AR-G2 Stress Rheometer
  • Dynamic Mechanical Analyzer (DMA)

Program Administration

The program is administered by the Department of Chemical and Biomolecular Engineering. The courses are taught by department faculty, including Professors of Practice with many years of industrial experience working in particle technology.

 

R. Bertrum Diemer

Retired as a DuPont Engineering Fellow in 2014 after a forty-year career primarily spent as a corporate authority in the fields of reaction engineering, thermochemistry, population balance modeling and flame aerosol synthesis. This expertise is built on early assignments in consulting, manufacturing, process development, and technical supervision. He holds thirteen U.S. Patents, is the author of thirteen refereed journal articles, and was the recipient of five DuPont Corporate Awards for advances in titania, phosgene, and insecticide manufacture, and for development of thermochemistry tools. He was named a 1997 ACS Hero of Chemistry for his work on a DuPont team that commercialized a new, lower cost, more environmentally friendly phosgene synthesis catalyst. He holds a BSChE from Lehigh University, and both the MChE and PhD degrees from University of Delaware. He is a Delaware-licensed.P.E.

James N. Michaels

Worked at Merck & Co. for twenty-one years, retiring in 2014 as Scientific Associate Vice President. He established and directed an industry leading center of excellence in materials science and particle technology. This department supported all product sectors, including small molecules, vaccines and biologics, sterile products, consumer care, and animal health. In addition, he has had a 20-year association with the International Fine Particle Research Institute (IFPRI), serving for ten years as its Technical Chair and more recently as Vice President, Industry-Academia Liaison. He holds nine U.S. Patents, is the author of fifty publications, and was the recipient of the Presidential Young Investigator Award from the National Science Foundation. He received B.S. and M.S. degrees from the University of California, Berkeley, in chemical engineering, a diploma from Imperial College, University of London, and a Sc.D. from Massachusetts Institute of Technology in chemical engineering.

Documents

Funding

The Department of Chemical and Biomolecular Engineering is pleased to offer Master of Engineering in Particle Technology (MEPT) students a reduced graduate tuition rate of $1250/credit hour for coursework – over $550 savings/credit hour than the University of Delaware graduate tuition rate.

Industry Collaboration

The MEPT Program was developed in response to industry demand for engineers trained in the fundamentals of particle technology. We have designed the program with input from a large number of companies from a range of industries, including CPI, pharma, materials and consumer products. We have been sponsored by the International Fine Particle Research Institute (IFPRI), and many of IFPRI’s member companies are active participants in the program.

FAQs

What is the MEPT program overview?
  • Undergraduate engineering programs rarely address the unique issues introduced by the particle phase.
  • While elements of powder processing may be introduced in some chemical, mechanical or materials engineering curricula, no program provides a comprehensive background in the properties of granular systems or the design and analysis of particle products and processes.
  • The MEPT program fills this gap by providing a rigorous, fundamental and industry-agnostic education in the behavior of particulate systems and the analysis and design of particulate processes and products.
  • The program is intended for engineers, either newly graduated or with industrial experience, who want to develop their expertise in particle technology for industrial application.
  • The program builds on an undergraduate-level background in engineering, including mathematics, chemical thermodynamics, physical chemistry and transport phenomena.
  • In addition to rigorous and comprehensive course work in rate processes, transport, characterization, separations and product engineering, the program’s capstone element is an industrial internship, enabling the student to exit the program with practical, demonstrated particle technology expertise.
  • We expect our students to be highly marketable within the chemical process, biopharmaceutical, materials, consumer products and energy industries worldwide.
What is the MEPT program design?
  • Particles are ubiquitous in industry. The majority of products produced in the chemical, pharmaceutical, materials, consumer products and energy industries either include particles or are made through the agency of particles. Engineers who work in these industries will inevitably find themselves designing, scaling and troubleshooting processes or systems involving particles.
  • Particle technology spans multiple length scales and requires knowledge and skills that cut across boundaries of traditional academic disciplines. Interactions at the molecular length scale result in material properties at the particle length scale which in turn impact performance of processing units or particle-based products at the macroscopic length scale. There are few, if any, academic programs that span these topics with the depth and breadth necessary to prepare engineers to manage industrial problems involving particles. In most cases, these skills are learned on the job. The MEPT program is designed to provide a comprehensive education in particle technology, emphasizing both the underlying fundamental engineering science and application to industrial practice.
  • In addition to learning about the behavior of particulate systems and the analysis and design of particle products and processes, training in this program will enable students to communicate and collaborate across the engineering and scientific disciplines that collectively comprise particle technology. The program is built around the fundamentals of particle process engineering and particle-based product design and engineering.
  • The program is built around the fundamentals of particle behavior, particle processes, particle-based product design and engineering.
What is the MEPT program structure?

The program was structured to be completed in one year. It requires the completion of:

Thirty credits, of which twenty-four are in courses offered at the UD campus in Newark, Delaware.

Eighteen credits, encompassed by core courses that cover the key concepts of particle technology.

Four of these courses (twelve credits) are presently taught in the fall semester and two courses (six credits) in the spring semester.

Two additional courses (six credits), approved as relevant electives.

 

 

The capstone is the industrial internship (six credits) which is performed with sponsorship from one of a number of participating companies.

To facilitate the inclusion of practicing engineers in this program, the program is structured to allow part-time attendance, i.e. fewer than four courses per semester. Lectures can be attended remotely using web conferencing technology, and class assignments and exams can be submitted electronically.

Do you have to be a full-time student?

No. MEPT has a part-time option available and there is a flexible deadline for graduation, with Advisor approval.

Do you have to take all courses at the University of Delaware campus?

No. MEPT has a distance learning option available and an opportunity for a transfer of elective credits, with Advisor approval.

Who should apply?
  • We encourage you to apply if you believe you meet the qualifications.
  • We read every application individually and admit using a portfolio approach. We consider all factors when making an admission decision and no single factor will guarantee or disqualify you from admission.
What are the minimum admission requirements for MEPT?
  • Applicants must hold a bachelor’s degree from an accredited four-year college or university. A minimum undergraduate grade-point average in engineering, science and mathematics courses of 3.0 on a 4.0 scale.
  • This degree may be in chemical engineering, mechanical engineering, civil engineering, environmental engineering, chemistry, materials science or physics disciplines, if the undergraduate program includes engineering thermodynamics, calculus, differential equations, linear algebra, and transport phenomena (fluid mechanics, heat and mass transport).
  • Individuals holding non-U.S. degrees may request a review for determination as to equivalency of a four-year U.S. degree. The accreditation of the institution which granted the degree, courses taken, grades and work history in the field of the earned degree are all taken into account when making an equivalency decision.
  • A minimum of three letters and recommendations of strong support from faculty or supervisors.
  • A minimum score of 155 (700) on the quantitative portion of the GRE. Candidates with substantive industrial experience, those holding terminal degrees (MD, JD, PhD, EdD), those with clear proficiency in undergraduate course performance, or those submitting LSAT or MCAT scores may request a waiver.
  • Non-native speakers of English (foreign applicants) are required to achieve a minimum score of 600 on the TOEFL, 250 for the CTOEFL, 100 for TOEFL iBT, 7.5 on the IELTS, unless proof of having earned a degree in the United States or a country where English is the primary language is submitted. International Applicants may apply for a Conditional Admission Program (CAP) which allows an applicant to complete the University of Delaware English Language Institute’s program instead of taking the TOEFL or IELTS test.
  • Candidates may take up to 9 credit hours of coursework as an Engineering Outreach Non-Degree (EGORND) student while studying for the GRE exam and/or making a final decision to apply for MEPT.
  • What are the factors considered for admission?
    • Prior Academic Performance
    • Graduate Application Essay (Purpose Statement)
    • Standardized Test Scores
    • Experience, including work experience, volunteer work, community service, internships, etc.
    • Professional and Academic Recommendations
    • Achievements and Performance Awards
    • Professional Skills
    • Career Aspirations
    • Evidence of proficiency with English oral and written communication (TOEFL/IELTS, if applicable)
    When should I apply?

    Candidates are admitted on a rolling basis until the program is full. Graduate Program Application dates for Fall admission:

    Rolling Admission Decisions Begin: January 6. Response due dates vary.

    Deadline to be considered for Departmental Funding: March 1. Response due dates vary.

    International Applicants Final Deadline: May 1. Final response date is June 1.

    University Final Application Deadline: July 1.

     

    Contact Engineering Outreach if you prefer to take up to 9 credit hours of coursework as an Engineering Outreach Non-Degree (EGORND) student while studying for the GRE exam and/or making a final decision to apply for MEPT:

    Phone: (302) 831-8302

    http://www.engr.udel.edu/outreach/ 

    How do I apply?
    Can I apply for more than one degree program?
    • Yes.
    • Each application must contain separately uploaded materials and separately created/submitted recommendations.
    • You will need to choose “Create Account” each time you wish to submit a new application.
    What is included in the application?
    • Resume/C.V.: All applicants are required to submit a Resume or Curriculum Vitae.
    • Graduate Application Essay: All applicants are required to submit a Personal Statement.
    • Transcript(s): All applicants are required to upload unofficial academic transcript(s) (post-high school institutions only).
    • GRE Test Score: Our program requires a GRE. You cannot upload these as they must be sent directly from ETS; however, you will be asked to self-report this information.
    • TOEFL or IEFLT Score: English proficiency is required of all International applicants prior to beginning graduate coursework at the University of Delaware. You cannot upload these as they must be sent directly from ETS or IELTS; however, you will be asked to self-report this information.
    • Recommendations: Our program requires three (3) recommendations, one (1) of the recommendations from University faculty (unless a waiver is granted).
    • Supplemental or Additional Documents: MEPT does not require any supplemental documents. Some applicants send non-required documents, such as published chapters, etc.
    • Interview: Some applicants may be invited to participate in a telephone interview (or in person, if possible).
    How can I change something on the application that I submitted online?
    • You can’t. Note: Once you press submit, you can’t make any changes to the information submitted on your application.
    • You can add or update the following documents to your Application Status Page:
      • Resume or CV
      • Unofficial Transcript
      • Graduate Application Essay (Purpose Statement or writing sample)
      • Supplemental Documents (if applicable)
    When and what should I prepare for submission on the application?
    • The most common mistake is not beginning the application process early enough for the submission of all documents before your application deadline. You can begin the application process at any time and upload documents as they become available. You do not need to wait for recommendations to submit your application; however, the Application Review Committee cannot make a decision until they have received three recommendations so it is in your best interest to submit your material and recommenders as early as possible.
    • Prepare your current Resume or Curriculum Vitae (C.V.). Document your prior work experience, publications, honors and awards received and a summary of your educational credentials.
    • Prepare a Purpose Statement: there is no set page length for essays. We are looking for personal, insightful, specific and brief essays.
      • What educational background, scientific research or employment experience prepares you for this degree program?
      • What are your long-term professional objectives?
      • What specific attributes of the particle technology program make you feel that this degree is appropriate to help you achieve your professional objectives?
      • Additional information is detailed at: http://www.udel.edu/gradoffice/apply/essay.html
    • Obtain your Unofficial Transcript(s) from each institution of higher education that you have attended. Go to the Registrar’s page of your home institution to print and scan an unofficial copy (or student copy). Do not mail transcripts during the applicant stage. If admitted, you will then be asked to submit official transcript(s).
    • Unless waived or applying under the Engineering Outreach Program (EGORND), submit an official GRE score at the time of your application; however, applicants who have not yet received their official score should list their unofficial score(s) on the application. Guidance on GRE reporting can be found on the Graduate Office website: http://www.udel.edu/gradoffice/apply/testscores.html
      Tip — The ETS University of Delaware institution code is “5811.” You only need to submit the university code of 5811. No department code is needed for our institution.
    • Unless waived or applying under the Conditional Admission Program (CAP), international applicants (whose undergraduate degree is not from a country where English is the primary language), should submit a TOEFL or IELTS score at the time of the application; however, applicants who have not yet received their official score should list their unofficial score(s) on the application. Detailed information, including substantiation, can be found on the Graduate Office International Applicants website: https://sites.udel.edu/eli/programs/cap/
    • Request a Letter of Recommendation from faculty, supervisors or employers (one must be from a Professor, unless a waiver is approved). You will be asked to enter your expected recommender’s information within the application. We offer further guidance on successfully submitting and receiving recommendations on the Graduate Office website: http://www.udel.edu/gradoffice/apply/recommendation.html
      Tip — speak to your recommenders first and request their preferred email address. You are required to provide names and email addresses for your recommenders. Forms will be emailed directly by the Graduate Office online application system to your recommenders with instructions on how to return the completed forms electronically. Your Application Status Page shows if your recommenders have been notified, started, or completed the recommendation on your behalf. If you need to remind your recommender to complete and submit their recommendation, please go to your application status page, click to edit or view your application, and then find the recommendation link in the lower left of the page.
    • MEPT does not require any Supplemental Documents. If you have material that you would like to submit, you can submit an electronic copy in the area called “Additional Document Uploads” prior to submitting your application: http://www.udel.edu/gradoffice/apply/documents.html
    • If you are selected for a phone interview (or an in person interview, if possible), prepare verbal responses with regard to your application material, including your academic credentials and Purpose Statement.
      Tip — if you are selected for an interview, you may be asked to provide additional information directly to MEPT such as a photo ID.
    • Please NOTE the following:
      • All documents are uploaded directly to the application system. It is expected that you prepare a scanned or pdf version of each of your documents.
      • Please do not mail any documents. If admitted, you will receive notice from the Graduate Office if you are required to submit any documents by mail.
      • If any material in your Application is found to have been altered or falsified, the Graduate Office reserves the right of expulsion.
    • The Application Fee ($75) can be paid online by credit card or by check via postal mail (applications cannot be processed until payment is received or a fee waiver is approved). http://www.udel.edu/gradoffice/apply/appfee.html
    What does a Conditional Admission mean?
    • All offers of admission are conditional upon verifying the information you claimed in your application.
    • Your conditional admission will be outlined in your admissions letter from the Graduate Office.
    • You can read more about the Categories of Admission at the Gradate Office website:
      http://grad.udel.edu/apply/categories-of-admission/
    What are the tuition charges for MEPT?
    • Tuition rates for all graduate students are listed at: https://catalog.udel.edu/content.php?catoid=17&navoid=1202
    • Please note that there are incidental mandatory fees incurred by graduate and international students.
    • The Department of Chemical & Biomolecular Engineering presently offers a limited number of partial tuition scholarships. Contact the Department of Chemical & Biomolecular Engineering (302-831-2543) for MEPT scholarship information.
    • Additional tuition funding information for U.S. Citizens:
    • International Students should also visit the following websites:
      • Office for International Students and Scholars: http://www.udel.edu/oiss/resources/cost.html
      • The International Student Fee is a mandatory fee charged to all enrolled students holding a non-immigrant visa status in support of the services provided by the Office for International Students and Scholars and the cost of maintaining institutional compliance with the U.S. Department of Homeland Security and U.S. Department of State regulations. https://www1.udel.edu/oiss/resources/cost.html
      • Please note that the costs listed on your I-20 or DS-2019 may be slightly higher than the regular tuition and fees listed on the financial services website due to mandatory insurance and other fees.
    What resources are available for UD Grad Students?

    Additional Particle Technology Programs

    4+1 BCHE/MEPT Program

    Overview

    Approved unanimously by Faculty Senate on February 6, 2016, the 4+1 BCHE/MEPT degree is offered by the Department of Chemical and Biomolecular Engineering to allow BCHE students to take up to 6 credits (2 courses) from MEPT core courses and MEPT approved relavant elective courses that will be “dual-counted” towards their Bachelor’s and the Master’s degrees. The dual-counted courses must be taken as CHEG Electives for the undergraduate degree. The objective is to prepare students to meet the expectations of employers in the processing industry with respect to particle technology expertise and is in consideration of BCHE undergraduates who want to develop their expertise in particle technology for industrial application and, upon graduation, continue their Master in Engineering in Particle Technology, either full-time or part-time while working in industry. The 4+1 program will be managed and advised by the Director(s) of Particle Technology.

    Admission Requirements
    • A program GPA of 3.25 or higher in STEM undergraduate coursework (see STEM GPA Conversion Chart).
    • An overall GPA of 3.0 or higher.
    • Completion of 60 credit hours.
    • An application to the 4+1 program before fall of senior year, but preferably before fall of junior year
      • Unofficial Transcript
      • Resume/CV (1-2 pages)
      • Graduate application essay
      • Supplemental documents:
        • 4+1 BCHE/MEPT Curriculum Advisory Plan (signed by your advisor)
        • STEM GPA Conversion Chart
      • NOTE: GRE waiver can be requested
    • Completion of the following undergraduate course prerequisites:
      • Engineering thermodynamics: CHEG 231, CHEG 325
      • Calculus, ODE’s and linear algebra: MATH 243, MATH 305
      • Physical chemistry: CHEM 444
    • Note:
      • 4+1 BCHE/MEPT is a competitive application process.
      • Applicants who meet the minimum requirements are not guaranteed admission.
      • No one element of the application will exclude or ensure admission.
    Financial Support
    • 4+1 BCHE/MEPT program does not include financial support for undergraduate students.
    • The Department of Chemical & Biomolecular Engineering is pleased to offer a reduced graduate tuition rate to our students in the 5th year (plus 1 year) of the 4+1 BCHE/MEPT degree – $1250/credit hour – over $550 savings/credit hour than the University of Delaware graduate tuition rate.
    Program Requirements
    • MEPT courses will be taken for credit with standard grading (A, B, etc.).
    • MEPT courses taken as an undergraduate are eligible for transfer into a graduate engineering degree program in the following circumstances:
      • The student earns a grade of B- or better.
      • The student maintains an overall GPA of 3.0 or higher.
      • Up to two courses (6 credits) may be dual-counted on the Bachelor’s and Master’s Degree transcripts.
      • One or more courses (3 or more credits) taken during an undergraduate status (and not needed for the Bachelor degree) may be submitted for approval to the Director(s) of Particle Technology for a transfer of credit to the MEPT graduate transcript.
    • Before enrolling in graduate-level courses, students should meet with their advisor(s) for course approval and to complete the 4+1 BCHE/MEPT Advisory Plan & Graduate Course 4+1 Approval Forms.

    BCHE/MEPT Core Course Requirements

    Prerequisites for MEPT core coursework that may be taken as BCHE CHEG Electives (or as credits not needed toward the BCHE degree1):

    • CHEG 670 Particle Rate Processes: CHEG 332
    • CHEG 671 Particle Transport: CHEG 341
    • CHEG 672 Mathematics of Particle Systems: MATH 305
    • CHEG 673 Particle Properties & Characterization: CHEG 325, CHEM 444

    -return to top-

    Preapproved Elective Courses

    MEPT course electives may be taken as BCHE CHEG electives (either as dual degree credits or as credits not needed toward their BCHE degree), included but not limited to1):

    • CHEG 600—Introduction to Science & Engineering of Polymer Systems
    • CHEG 604—Probability & Statistic for Engineering Problem Solving
    • CHEG 615—Special Topics in Mixing
    • CHEG 616/MSEG 616—Chemistry & Physics of Surfaces & Interfaces
    • CHEG 617—Colloid Science & Engineering
    • NOTE: Other courses may be approved by the MEPT Program Directors as MEPT relevant elective courses.

    Program Completion

    • Upon successful completion of the 126 credits required for the Bachelor of Science in Chemical Engineering (BCHE) degree, students will be eligible for the BCHE degree.
    • Upon successful completion of the 30 credits required for the Master of Engineering in Particle Technology (MEPT) degree, students will be eligible for the MEPT degree.

    BCHE/MEPT Course Transfer of Credits

    MEPT core and elective courses are transferable into the MEPT graduate engineering degree program, as long as the student remains eligible for the MEPT degree:

    • The student earns a grade of B- or better.
    • The student maintains an overall GPA of 3.0 or higher.

    Graduate Certificate in Particle Technology

    Overview

    Approved unanimously by Faculty Senate on February 6, 2016, the Graduate Certificate in Particle Technology is offered by the Department of Chemical and Biomolecular Engineering. The certificate is designed for engineering professionals working in the process industries and/or for undergraduate or graduate engineers desiring to expand their knowledge of particle technology. The objective is to equip professionals with the knowledge and ability to meet the expectations of employers in the processing industry with respect to particle technology expertise. Completion of the certificate requirements are noted on the student’s graduate transcript and a certificate is awarded and signed by the Director of the Graduate Certificate in Particle Technology, the Chair of the Department of Chemical and Biomolecular Engineering, and the Associate Vice Provost for Graduate and Professional Education.

    Eligibility Requirements

    Students eligible to pursue this graduate certificate will show satisfactory completion of STEM undergraduate course prerequisites (earning a GPA of 3.0 or higher) in chemical engineering, mechanical engineering, civil engineering, environmental engineering, chemistry, materials science or physics disciplines, if the undergraduate program included engineering thermodynamics, calculus, differential equations, and linear algebra, and transport phenomena (fluid mechanics, heat and mass transport).

    Admission Requirements

    Admission Requirements

    • Student status:
      • Accepted as a qualified University of Delaware undergraduate student.
      • Accepted as a qualified matriculated graduate student in a University of Delaware graduate engineering degree program.
      • Professionals accepted into the Graduate Certificate program.
      • Professionals registered through Professional Continuing Studies.
    • To be accepted into the Graduate Certificate program, applicants must submit a UD graduate application to the Graduate Certificate in Particle Technology (MENG-CERT, CERT-PT) including:
      • Resume.
      • Unofficial transcript(s) for undergraduate work (and graduate work, if applicable).
      • A statement of purpose or personal essay sharing relevant information outlining how he/she is a good match (i.e. educational plans, career goals and how the MEPT graduate program relates to them) and the coursework and timing requested by the applicant.
    Course REquirements

    Course Requirements

    • Certificate Core Course (3 credits)
      • CHEG 608—Introduction to Particle Technology
    • Certificate Course Electives (6 credits including any 2 of the following 3 credit courses)
      • CHEG 670—Particle Rate Processes
      • CHEG 671—Particle Transport
      • CHEG 672—Mathematics of Particle Systems
      • CHEG 673—Particle Properties and Characterization
    • All courses may be completed via distance learning.
    Certificate Completion Requirements

    Satisfactory completion of the 9 credit graduate certificate requires:

    • The student earns a grade of B- or better.
    • The student maintains and overall GPA of 3.0 or higher.
    • The student completes the core and elective graduate certificate requirements (see course requirements).

    Graduate Certificate Course Transfer of Credits

    The three graduate courses (9 credits) are transferable for matriculation into a graduate degree program, upon approval by the graduate program advisor. However, CHEG608 Introduction to Particle Technology is not approved to replace core or elective requirements in the Master of Engineering in Particle Technology (MEPT) Program.

    Distance Learning Option

    All courses may be completed via distance learning. Please contact us for more information.

    Funding

    The Graduate Certificate in Particle Technology program offers our students a reduced graduate tuition rate of $1250/credit hour for certificate courses – over $550 savings/credit hour than the University of Delaware graduate tuition rate.

    Graduate Programs MEPT Program