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December 14, 2023

How to Write Your Master’s in Engineering Statement of Purpose

Top engineering graduate programs expect applicants to have a high GPA, and some schools also expect an impressive GRE score , though in recent years, more schools have made GRE scores optional. However, many of the applicants you will be competing against have high scores. 

Your  statement of purpose  (SOP) is what will allow the adcom to view you as a person with unique goals, potential, interests, values, inspirations, and motivations. It helps adcoms understand what drives you, what your short- and long-term goals are, and how their school can help you realize your dreams. This is the part of the application that enables the adcom to assess whether you are a good match for their program.

Structuring an Engineering Statement of Purpose

Your SOP will ideally include the following:

• An introductory paragraph that grabs the reader’s attention and sets the stage for the paragraphs to follow
• A few highlights of your abilities, education, and work accomplishments 
• Reasons for any gaps in your chronological work history or lower-than-average GRE score or GPA
• A description of your short- and long-term goals
• An explanation of your interest in this particular program and school, ideally including courses or professors (and their research) of interest to you and student organizations or research institutes in which you’d like to participate
• A summary paragraph that highlights key points and ties back to the introductory paragraph

Tell a Story in Your Statement of Purpose

While it’s important to include the elements listed in the previous section,  a winning essay  is also  creative and  interesting  to the reader. It is not formulaic and shouldn’t read like a checklist.

In essence, you are telling a story – your story. An engineer recently said to me in a somewhat panicked voice, “I know how to write facts; I don’t know how to tell a story!” The typical MBA candidate loves to discuss their background and is frequently delighted to relate the many exciting adventures they’ve had. In contrast, if I say to an engineering candidate, “Tell me about yourself,” I am sometimes met with silence and a reluctance to divulge personal information.

Engineers are taught to think logically, rationally, in black-and-white facts and figures where there is a right and a wrong answer. A graduate school application expects you to explore the “gray” in your life. What made you decide on that option? What motivated you to take that action? Why is it important to you? There is no right or wrong, which can be freeing. 

Why Engineering?

Engineering schools want to know what or who inspired you to become an engineer. At what age did you first believe that this was the right career path for you, and why? You need to step away and look at your life with a level of objectivity, so that you can explain your life trajectory and the reasons you took certain turns.

Most schools have a page or word limit for their SOP, but don’t let that inhibit you when you’re first creating your story from your outline. A good engineering admissions consultant can help you  tell your story effectively  and still meet the word limit requirements. Telling that story compellingly sometimes requires multiple drafts, and some of my past clients wrote as many as 12 drafts before they were satisfied with the final product.

As with the other elements of the application, give yourself sufficient time to write your SOP. It can be the reason the adcom at the engineering graduate program you’re targeting decides in favor of your admission.

With 30 years of career and admissions experience at four universities, including Cornell’s College of Engineering and Johnson Business School, Dr. Karin Ash facilitated students’ entry into the world’s best companies. As an adcom member, she also evaluated applications and therefore knows what schools and employers seek. Want Karin to help you get Accepted? Click here to get in touch!  

Related Resources:

• Five Fatal Flaws to Avoid in Your Grad School Statement of Purpose , a free guide
• STEM Applicants: Why Your Statement of Purpose Is So Important
• Application Advice from Accepted Data Science Clients

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How to Write a Great Engineering School Personal Statement

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You have spent months researching and identifying the best engineering schools, studying for and completing the SATs, GRE, or other standardized tests, and filling out tedious college applications. You are on the verge of burnout when it hits you: you have to write a personal statement.

How important is it to write a great personal statement? Ask the admissions committee, and they’ll tell you that writing a personal statement is like applying for a job. Stephen J Aguilar, an assistant professor of education at USC, reported in 2020 to Inside Higher Ed that a personal statement should be less revealing and more persuasive. At its core, the personal statement needs to answer these two questions:

• Why are you applying here?
• How do your interests and experiences align with the program or the faculty you’ve identified?

However, the importance of reading and understanding the question prompts cannot be overstated. For example, the University of Iowa College of Engineering, which places 97 percent of its undergraduates in jobs post-graduation and currently has 284 master’s and doctoral students, goes one step further to differentiate personal statements from statements of purpose .

This institution wants to know in the statement of purpose , “Why is this program a good fit for you?” By contrast, the personal statement elicits answers to the question: “Who are you?” and allows applicants to explain themselves to admissions committees regarding academic achievements and life events that have shaped them and will positively influence the campus community.

That said, a personal statement is not just an essay. It has to be intelligent, engaging, typo-free, and capable of convincing admissions reviewers that you are a better fit for their program. Fret not. With lots of research and preparation, you can submit a college essay that reflects your passion and capabilities.

Read on to learn the what, the why, and the how-to of writing great personal statements to gain admission into engineering school.

How Is a Personal Statement Evaluated?

The title "personal statement" is generally synonymous with college essays. However, some admissions professionals use it to refer more specifically to written statements that explore applicants’ program readiness and intentions if admitted. The purpose of these statements for engineering school applicants is three-fold.

First, colleges want to know that they can write well, and not just from a technical perspective. Of course, grammar matters, but perhaps more important is the ability to communicate ideas.

Second, engineering schools want to know who a student is—the nuggets that are not conveyed through a conventional application or school transcripts. This is the written equivalent of the interview question “tell us about yourself” and is the applicant’s chance to share who they are, what they want to do, and how gaining admission to this program will be mutually beneficial.

Finally, colleges want to ensure applicants are familiar with and committed to the program. The best personal statements fulfill these goals, often in 700 words or less.

Does this sound like a tall order? Here are some tips for getting it right.

Six Tips for Writing a Stellar Engineering School Personal Statement

1. Do the research

It may sound simplistic, but one of the most important (and often overlooked) steps toward getting into the right school is taking the time to research a prospective engineering program, review its admissions policies and—this cannot be overstated—read and reread its application essay prompt. Candidates who don’t sufficiently answer an institution’s question or convey some misunderstanding about the prompt or its expectations are unlikely to be admitted.

Prospective students completing the Common Application should take the time to contact each engineering school they are applying to inquire about additional admissions requirements. The Princeton Review emphasizes that a personal statement should not repeat a previously discussed part of your application, nor should its information contradict another part.

2. Go deep, not broad

Personal statement prompts tend to be targeted. Engineering schools want to know what specific qualities or experiences make each student a good fit for their programs. Common inquiries include recalling a time you solved a problem, explaining why you applied, describing your academic goals and intentions, and addressing any extenuating circumstances that might have impacted your school record. Rather than offering a broad synopsis of your life, choose the experience or intent most relevant to the question and explore it in depth.

The Massachusetts Institute of Technology Graduate School offers advice for writing an in-depth personal statement for engineering schools using the “qualified match” approach. The steps include:

• Make a statement that fits the essay prompt, like “I am a dedicated and hard-working student.”
• Quantify your statement with specific details about your life. You might, for example, discuss how many hours per week you spend on school work and how you overcome any obstacles to committing that time.
• Interpret how those details make you a stronger applicant. To continue with the above example, that might include writing about the knowledge you gained during your studies, your time-management skills, your passion for learning, and your commitment to succeed despite challenges.

3. Be relevant

If a personal statement has only one goal, it is to be shown to a review committee that you are the right fit for its school. That’s why applicants to Stanford University’s Institute for Computational & Mathematical Engineering are asked to specify their personal and professional goals in their statement of purpose, as well as discuss their developments and intentions for study and life beyond their doctoral program.

Read the mission statements of each program to get a feel for what they are looking for and keep that in mind as you write. Rather than getting carried away detailing the hours you log volunteering each week, discuss experiences and activities as they relate to your academic and career goals or scientific interests. Also, be sure not to waste valuable ink rehashing information available elsewhere on your application, such as extracurricular activities or your stellar GPA.

4. Avoid gimmicks and cliches

Did you love playing with Legos as a kid? Did those plastic bricks lay the foundation for your drive to be an engineer? If so, the College of Engineering at the University of Washington suggests you are in good company, but not in a good way. Every year, the committee reads personal essays on how Legos were the building blocks of a student's career in engineering.

To stand out, engineering school applicants should avoid using cliches in their statements. Of course, setting yourself apart from other applicants is imperative, but you must do so in a meaningful and unique way. Admissions review panels have seen it all and are unlikely to be moved by creative gimmicks and attention-grabbers that do not get to the heart of what makes you a great candidate.

5. Mind your mechanics

This tip refers more to the mechanics of writing than any scientific drive, though the latter undoubtedly has a place in an engineering school personal statement. Remember when we said one of the goals of college essays is verifying applicants can communicate effectively? Applicants should consider the following elements as they prepare their outline (more on that next):

• Voice – Is your voice appropriate for the task? Is it too formal or casual? Are you using active language rather than passive and wishy-washy statements? Do you come across as academic?
• Structure – Do your ideas flow logically and support one main idea? If you are unsure where to start, know that following the reliable five-paragraph essay format is perfectly acceptable: introduction, three supporting paragraphs, and a tidy conclusion.
• Length – Engineering schools usually have a good reason for requesting personal statements with a specific word count. Those that are too short have too little to say, and those that are too long are likely to repeat the same concepts.
• Grammar – College students are expected to know and use basic grammar. Edit, edit, and then edit again.
• Completeness – Have you addressed the admissions essay prompt in full? What about any supplemental school or department-specific requests?

6. Edit, edit, edit

Writing a personal statement may seem like a herculean task, so it is tempting to push it aside when you type that final period and not look back. This is a mistake—and perhaps the biggest one you can make. Sometimes we get so caught up in our thoughts and ideas that we miss lapses in our writing, whether grammatical or contextual. To avoid this:

• Begin with an outline.
• Write the first draft.
• Write a second draft.
• Read the essay out loud.
• Review your essay again a day or two later.
• Ask parents, friends, teachers, and others to read your work.

There is never any excuse for typos, and even the slightest error can turn a committee review member off. Ask a friend or family member to review your essay for grammatical mistakes when in doubt. It may be intimidating, but the process is an excellent way to identify missing words or ideas. What's more, applicants today are blessed with the power of technology. Online tools like Grammarly are free to use and quickly catch any glaring typos.

Starting Your Engineering School Admissions Essay

One of the biggest challenges to writing a stellar college essay is simply getting started in the first place. Personal statements are, by design, personal, and that can be intimidating. Applicants also put significant pressure on themselves to write the perfect essay.

Fortunately, many colleges try to ease the burden by providing tips online. Purdue University’s Online Writing Lab offers examples of successful personal statements. Some engineering schools even post examples of successful personal statements, including MIT , Johns Hopkins University , and Cornell University . While your essay should be wholly original, these resources can guide you through creating a unique and inspirational narrative to impress admissions committees.

Aimee Hosler is a long-time journalist specializing in education and technology. She is an advocate for experiential learning among all ages and serves as the director of communications for a non-profit community makerspace. She holds a degree in journalism from California Polytechnic State University in San Luis Obispo.

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Modern Energy Production and Sustainable Use (MS)

The master of science in modern energy production and sustainable use prepares students with the technical knowledge and interdisciplinary problem-solving skills needed to engage complex energy systems..

The U.S. Department of Energy Efficiency and Renewable Energy shares that as new energy and new technologies are developed and introduced for commercial use, they will create new jobs for American workers strengthening U.S. energy security, environmental quality, and economic vitality. These workers needed to be trained in a variety of transdisciplinary areas from renewable energy generation and storage, energy-saving materials and manufacturing, and sustainable transportation.

The School for Engineering of Matter, Transport, and Energy offers the Master of Science in Modern Energy Production and Sustainable Use and utilizes its unique transdisciplinary expertise to provide graduate student training in fundamental science and engineering principles, and thereby facilitate the generation of human capital of those who can address grand challenges associated with future energy production and storage, and in sustainable use.

Here are a few courses we offer:

• Renewable Energy:  Mechanical System
• Electrochemistry Energy Storage and Conversion
• Biomass Energy Conversion Technology
• Wind Energy
• Nanomaterials in Energy Production and Storage
• Nuclear Power Engineering

Degrees offered

Modern energy production and sustainable use, ms .

The Master of Science (MS) program is designed to prepare students for professional careers in transdisciplinary areas from renewable energy generation and storage, energy-saving materials and manufacturing, and sustainable transportation. and related fields in industry, government and educational institutions.

Graduate Resources

• Course Descriptions
• Accelerated Master’s programs
• Class Search/Course Catalog
• Graduate College FAQs
• Online Advising Appointments
• Graduate Forms
• Fellowships and Funding
• International Applicants
• All Graduate Programs

Program information

• Welcome from the Program Chair
• MSE graduate faculty and research areas

Application and admission information

Application information.

The following application materials must be submitted directly to Graduate Admission Services:

If your institution sends electronic official transcripts, we accept the following electronic transcript services: E-Scrip, Parchment, Credentials Inc., and National Student Clearinghouse. All E-Scrip, Parchment, and National Student Clearinghouse transcripts must be sent directly to  [email protected]  from those transcript services or from the institutions that use those services. If you can and choose to use these services, you should apply online to the ASU Graduate Admission Services application prior to having your official e-transcripts sent.

If your institution does not use one of those transcript services, you will need to mail an official transcript. Your six digit application ID should be on the transcript envelope if possible.

Graduate Admission Services Tel: 480-965-6113 Web:  students.asu.edu/graduate

Application for admission

Can only be accessed online. Click here to go to Application for Admission

Application priority   deadline

Fall Semester: December 31 Spring Semester: August 1

A priority deadline means that applications submitted and completed before the priority deadline will receive priority consideration. Applications submitted after the priority deadlines will be reviewed in the order in which they were completed. An application is complete after all materials are received by Graduate Admissions.

Application fee

US citizens $70

Non-US citizens $115

This is a processing fee assessed by Graduate Admission Services and cannot be waived or deferred: graduate.asu.edu/admissions/how_to_apply

Please also note that applicants are eligible to apply to the program if they have earned a bachelor’s degree in engineering or physical science.

Transcripts and GRE scores

Transcripts.

Only official transcripts are accepted; no photocopies. These must be mailed to Graduate Admissions Services (see address above). For international students, transcripts must be in the original language, along with an official English translation. Also see:

Graduate Admissions Services:  students.asu.edu/graduate/apply

GRE scores are useful, but not required for the Modern Energy Production and Sustainable Use, MS program.

Official score sent by ETS only. Institution code for ASU: 4007; there is no department code.

Resume, personal statement, and letters of recommendation

Resume, personal statement and letters of recommendation

List publications if you have any. It’s not necessary to send copies of articles. You will be asked to upload your resume in the online application process.

Personal statement

Essay describing your background, academic achievements, research interests, career goals, and why you wish to pursue graduate study in Modern Energy Production and Sustainable Use at ASU. You will be asked to upload your personal statement in the online application process.

Three (3) recommendation letters

The online application will ask you for three names and three email addresses for three recommenders; and the company/school for which they work. Your recommenders will receive an email and must submit their letter of recommendation electronically.

International applicants

Additional admission requirements for international applicants.

Admissions:  students.asu.edu/graduate/international

Visa/Immigration information

students.asu.edu/international/immigration

English proficiency (for international graduate applicants)

A TOEFL, IELTS or PTE score is required to be considered for admission.

• Official TOEFL sent by ETS only. Minimum scores: iBT 90; pBT 575. Institution code for ASU: 4007; for department code, applicant may enter 0000
• Official IELTS sent by issuing institution only. Minimum score: 6.5. No institution code is needed
• Official PTE sent by Pearson only. Minimum Score: 60

You could qualify for an exemption from this requirement by one of the following two options:

• This requirement would be met if you successfully complete the highest level at the Global Launch Intensive English Program with grades of B or better; AND in addition, acquire a score of 50 or better on the Speak Test (must be taken at Arizona State University).
• You successfully complete the highest level at the Global Launch Intensive English Program with grades of B or better  OR
• Attended in person a regionally accredited college or university in the United States and earned a bachelor’s degree or higher in the U.S.,  OR
• Attended in person a regionally accredited college or university in the United States and completed at least 12 credit hours of graduate course work with a cumulative GPA of 3.00 on a 4.00 scale or higher (all credits must be earned in the U.S.),  OR
• Attended in person a regionally accredited college or university in the United States and completed at least 90 credit hours of undergraduate course work with a cumulative GPA of 3.00 on a 4.00 scale or higher (all 90 hours must be earned in the U.S.)

For  more information, visit the Graduate Admission Services English Proficiency Requirement and Exemption website .

Still have a question? Contact Advising

If you still have questions regarding admission requirements and procedures, please contact the SEMTE graduate advising office:

Phone: 480.965.2335

Email: [email protected]

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PERSONAL STATEMENT EXAMPLES Engineering personal statements

Discover personal statement examples written by students accepted onto engineering and related courses. Read through the examples to help shape your own personal statement.

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Graduate School Personal Statement

Criteria for success.

• Your personal statement convinces a faculty committee that you are qualified for their program.
• It convinces them that you a good fit for their program’s focus and goals.
• You show a select group of skills and experiences that convey your scientific accomplishments and interests.
• Your experiences are concrete and quantitative.
• Your personal statement is no more than 3 pages.

Structure Diagram

The graduate school personal statement tells your story and demonstrates that you are a good match for a particular department or program. Matching goes both ways: they should be interested in you, and you should be interested in them. Your personal statement should make this match clear.

Analyze Your Audience

Your personal statement will be ready by a graduate committee, a handful of faculty from your program. They’re trying to determine if you will be a successful graduate student in their department, a positive force in the department’s intellectual life, and a successful scientist after you graduate. They are therefore interested in your qualifications as a researcher, your career goals, and how your personality matches their labs and department.

The graduate committee probably reads hundreds of applications a year. To make it easy for them to figure out that you are a good fit, make direct, concrete statements about your accomplishments and qualifications. To make it easy for them to remember you, create a narrative that “brands” you.

Create a personal narrative

PhD programs invest in the professional and scientific growth of their students. Get the committee excited about investing in you by opening your essay with a brief portrait of what drives you as a scientist. What research directions are you passionate about, and why? What do you picture yourself doing in 10 years?

Close your essay with a 2-3 sentence discussion of your career interests. No one will hold you to this; this just helps your committee visualize your potential trajectory.

Describe your experiences

Experiences are the “what” of your essay. What experiences led you to develop your skill set and passions? Where have you demonstrated accomplishment, leadership, and collaboration? Include research, teaching, and relevant extracurriculars. State concrete achievements and outcomes like awards, discoveries, or publications.

Quantify your experiences to show concrete impact. How many people were on your team? How many protocols did you develop? How many people were in competition for an award? As a TA, how often did you meet with your students?

Describe actions, not just changes in your internal mental or emotional state. A personal statement is a way to make a narrative out of your CV. It is not a diary entry.

Explain the meaning of your experiences

Meaning is the “why” or “so what” of the document. Why was this experience important to your growth as a scientist? What does it say about your abilities and potential? It feels obvious to you, but you need to be explicit with your audience. Your descriptions of meaning should also act as transition statements between experiences: try to “wrap” meaning around your experiences.

Demonstrate match to your target program

Demonstrate an understanding of the program to which you’re applying and about how you will be successful in that program. To do this:

• Read the program’s website. See what language they use to describe themselves, and echo that language in your essay. For example, MIT Chemical Engineering’s website points out innovative research areas and interdisciplinary opportunities.
• Get in contact with faculty (or students) in your target program. If you have had a positive discussion with someone at the department, describe how those interactions made you think that you and the department may be well-matched.
• State which professors in the program you would be interested in working with. Show how their research areas align with your background and your goals. You can even describe potential research directions or projects.

Resources and Annotated Examples

Annotated example 1.

These 2021 short answer responses are from an MIT ChemE graduate student’s successful application to the MIT ChemE program. 237 KB

Annotated Example 2

This is the personal statement from an MIT ChemE graduate student’s successful application to the MIT ChemE program. 121 KB

Annotated Example 3

This is the personal statement from an MIT ChemE graduate student’s successful application to the MIT ChemE program. 361 KB

Sample Personal Statement Environment and Sustainability (admitted to Stanford, CALTECH)

by Talha Omer, MBA, M.Eng., Harvard & Cornell Grad

In personal statement samples by field.

The following personal statement is written by an applicant who got accepted to top graduate programs in environmental and sustainability engineering. Variations of this personal statement got accepted at Stanford, UC Berkeley, and Caltech. Read this personal statement to get inspiration and understand what a top engineering school essay should look like.

You might also be interested in reading this Sample Statement of Purpose in environment and sustainability that got admitted to UIUC, and RIT.

Sample Personal Statement Environment and Sustainability

“Scientists study the world as it is; engineers create a world that has never been.” Theodore Von Karman

This quote from Karman sums it up for me as I belong to a family of Civil Engineers. I had grown up watching buildings being constructed, concrete pouring, and the vast green land converted to grey structures – even my beloved football ground. Slowly I realized that the areas that reflected soothing greenery and captivating designs are now tarnished with unfettered traffic and illegal encroachments. Dingy streets, ill planning, and neglected construction make it hard for outsiders to locate a place. As these areas grew more populated and congested, I experienced soaring temperatures at an alarmingly increased rate. Even without any technical knowledge, I can see that lack of planning in construction is putting pressure on our resources.

My four years in civil engineering opened a whole new world to me, just as exciting as I had imagined. One of my favorite courses was related to “Environmental Engineering.” Through this course, I developed an essential skillset in evaluating construction designs in the local context of Dubai. It made me realize that energy, climate, and infrastructure systems are closely tied together, and these connections manifest in various forms. Our society cannot function without energy and infrastructure systems. Since then, I have used every opportunity to upsurge my knowledge of Sustainable Designs further and spread awareness about intelligent designs.

I joined ASHRAE (American Society of Heating Refrigeration and Air Conditioning Engineers) and held the president’s office. As a president, I worked actively to spread awareness about resource constraints and why eco-friendly construction designs are the need of the day. In addition, I arranged policy dialogues where students presented their innovative green approaches toward infrastructure design to pioneers in the construction industry.

During one such conversation, my idea of researching Carbon Fiber Reinforced Polymers (CFRP) caught the attention of Martin Brudermüller, Director of BASF SE. He encouraged me to explore more on this in the shape of a thesis. Working on this thesis was an eye-opener for me.

I found out that CFRP is a highly costly material that is inefficiently used in current construction practices. This material is wrapped around the whole column to raise the strength of the structure. After intensive research, I discovered we could achieve the same power by wrapping the columns with only 20% of the CFRP from the top. This was groundbreaking research as I found an innovative way of reducing construction costs. After graduation, I looked for careers where I could apply my research findings in practical settings.

Thankfully, I found a perfect match in Jacobs Solutions, an American international technical professional services firm. Jacobs Solutions envisions changing redundant practices of construction. At Jacobs, I have worked as Assistant Engineer for eight months. Working at Jacobs, I came in close contact with foreign consultants better grounded in applying the latest construction materials than civil engineers. Interacting with these consultants regularly, I realized that my skill set in sustainable and eco-friendly design is rudimentary. For example, during the Kidney and Liver Institute and Research Center construction, renewable energy and materials have been incorporated to reduce the overall carbon footprint and make the project green and sustainable.

However, I must admit that these consultants are highly paid, which increases the indirect cost of these projects because we lack skilled professionals in sustainable engineering. Realizing the current gaps in the industry and the potential of eco-friendly materials, I want to pursue a master’s degree in Sustainable Engineering. This is a popular area of specialization since we live in a world with limited natural resources. The importance of Sustainable Engineering cannot be overstated because our green spaces are being converted to grey structures. Pursuing a Master’s degree in sustainable engineering, I want to reverse the order. I want to design efficient structures with eco-friendly materials, so my children see grey structures turning green. I am confident that a Master’s degree in Sustainable engineering will go a long way in fulfilling my dreams and aspirations.

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Reset password, create a free fasthire account, sop for renewable energy engineering masters.

• July 14, 2022
• Personal Statement

When applying for admission for abroad studies, you’re usually expected to include a personal statement. The statement of purpose gives the admission committee insight into your decision and preparedness for the program. It also helps to convince the admission team that you’re a good fit for the school.

P.S : This Sample SOP for Renewable Energy Engineering Masters was provided for education purpose only, do not copy it. If you need assistance writing yours, click here to hire our experts today .

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Sample SOP for Renewable Energy Engineering Masters

Energy is a key component of our human existence; we exchange a huge amount of it through our everyday activities. In the past, our major sources of energy have come from non-renewable sources, however, the world has awaken to the reality that this option is more harmful, making it a necessity for us to start seeking alternative energy sources that are greener and more sustainable. As someone with a science background, I understand the importance for the world to move towards a sustainable future and I am excited to align my future to this area of engineering. My motivation is to acquire the knowledge, develop the skills and competencies, and build the right connections to excel as a renewable energy engineer.

I obtained my first degree in Industrial Physics with major in Electronics from the University of xxx, Nigeria. Through knowledge from course modules in ……………….. (Write some your key undergraduate modules that are related to renewable energy), I developed knowledge that can be applied in different science and engineering field. However, upon graduation, the opportunities for a physicist are limited to academic and research works, and I am more interested in the industrial application of my knowledge. So far, I have taken up career responsibilities in the engineering field as Maintenance Technician and Equipment Installer; while these experiences have helped me develop the knowledge and foundation to excel in engineering, I believe that renewable energy is a good fort for me. Hence, I am now committed to transferring my knowledge in physics to clean energy, and this master will help me create an easy path for this transition.

The United Kingdom which was the heart beat of the industrial revolution is no doubt an ideal place to study for this degree because of its commitment and investment for a sustainable future. So far, more than one-quarter of the total electricity production comes from renewable sources making the United Kingdom an important destination for renewable energy studies. Furthermore, I picked the University of Hull above the other schools because of collaborative efforts with Aura in creating a research focused learning experience thereby providing a opportunity for students to have wilder adoption of renewable technologies including wind, tidal, solar and hydro-power. Importantly, the industrial placement that comes with this programme is an invaluable opportunity to get my first exposure to the sustainable future.

As an African, considering the importance and demand for low carbon emission in our continent, studying this course is relevant as I will join the list of other meaningful professionals who are committed to developing solutions to Africa’s energy problems. I look forward to capitalizing on the different course modules, workshops, and research exposure to develop a robust knowledge in this course. I am passionate about the opportunity to study at the University of Hull; and I have already set aside the required tuition for this programme through savings from my work, which means I will not have any burned of financing, and will give me more room to concentrate on my study. Hence, I am soliciting for the consideration of the admission committee of this prestigious university, for a place in the next Renewable Energy class.

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There was a time when no one would have thought women would dominate in the field of nuclear engineering, but women are taking charge and becoming the leaders in this traditionally male-dominated field. We can look to the women themselves and their predecessors for inspiration.

Lise Meitner

In the nuclear energy field, female pioneers have spanned a number of centuries and continents. In 1878,  Lise Meitner was born in Vienna, Austria, and became a physicist. She contributed to the discovery of nuclear fission—in fact, the element Meitnerium (Mt) was posthumously named in her honor.

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• Schools & departments

Electrical Power Engineering MSc

Awards: MSc

Study modes: Full-time

Accreditation

Funding opportunities

Upcoming Introduction to Postgraduate Study and Research events

Join us online on the 19th June or 26th June to learn more about studying and researching at Edinburgh.

Choose your event and register

Programme description

Our Electrical Power Engineering MSc is a one-year programme designed to equip you with broad and robust training on modern power engineering technologies, with a strong focus on renewable energy conversion and smart grids.

In semesters 1 and 2, you will acquire the advanced fundamentals, research tools and techniques of power engineering, as well as an in-depth knowledge of emerging technologies and advanced numerical methods to address some of the world's grand challenges, such as integration of wind energy, offshore renewables, energy storage and photovoltaics.

You will also complete an individual dissertation project over the summer months, which provides a good opportunity for you to apply your acquired skills to a real-world problem.

How will I learn?

You will be taught by our experts who are leaders in their field and you will deepen your knowledge through:

• our connections with leading power engineering companies in the sector
• practical labs where you will benefit from our specialist power electronics and machines facilities
• participating in site visits so you can experience the application of theory to real situations
• gaining experience of using industry-approved software
• being exposed to industrial guest speakers on leading technology and power engineering challenges
• actively engaging in our world-leading research on power engineering as part of your dissertation project

Research project

In close collaboration with our academics, you will undertake a research project to put into practice the knowledge and skills you have acquired during the first two taught semesters, during which you will investigate an actual power engineering problem.

You can carry out your project within either:

• one of our power research groups working alongside academics and researchers from the Institute for Energy Systems
• in an industrial placement at one of our collaborating companies within the power sector

The MSc in Electrical Power Engineering is accredited by the UK Institution of Engineering and Technology (IET), one the largest professional engineering bodies in the world. Accredited programmes undergo continuous and robust quality review by the IET and are internationally recognised for the quality of the education they provide.

Your MSc can therefore count towards the academic requirements for registration as a Chartered Engineer (CEng) in the UK. Chartered Engineers not only have a firm grasp of the underpinning knowledge of their field, but also possess the required professional skills to excel in the modern engineering environment.

Programme structure

You will learn through a combination of:

• taught courses
• practical laboratories
• group design projects
• a research dissertation

The courses correspond to 120 credits of taught material, plus 60 credits of a research project.

You will take the following compulsory courses in Semester 1:

• Distributed Energy Resources and Smart Grids
• Engineering Research Methods with Grand Challenge
• Power Conversion
• Power Systems

You will take the following compulsory courses in Semester 2:

• Power Systems Engineering and Economics
• Principles of Wind Energy
• Solar Energy & Photovoltaic Systems
• Advanced Power Electronics and Machines

Research Project

• Electrical Power Engineering Dissertation

Courses can change from year to year. Those listed provide a representation of courses previously offered. Courses for the forthcoming year will be published on the Degree Programme Table in the Spring.

Find out more about compulsory and optional courses

We link to the latest information available. Please note that this may be for a previous academic year and should be considered indicative.

Learning outcomes

Our aim is to train the next generation of power engineers who are equipped to contribute to the rapidly changing needs of the industry and society. We will support you to:

• build your knowledge of the most recent, cutting-edge developments in power engineering
• acquire advanced research and development skills and training, allowing you to excel in both industrial and academic settings
• understand and tackle the global energy trilemma of supplying secure, equitable and environmentally sustainable energy, while appreciating the technical, social and economic challenges faced in both developed and developing countries.

Career opportunities

Power engineering is one of the most in-demand professions in the UK and worldwide with Governments putting plans in place to decarbonise and modernise the electricity sector.

The transition to a green economy will require a highly skilled workforce led by electrical power engineers with a solid academic background, an appreciation of the trajectory of the industry and an understanding of the challenges and implications brought about by the introduction of new power technologies.

As a graduate from our MSc Electrical Power Engineering programme, you will be equipped to go into a wide range of careers anywhere in the world, such as in:

• energy consultancies
• energy utilities or manufacturers
• engineering or construction companies
• renewable energy developers
• governments

The programme runs in a close association with other activities within the broader Electrical Engineering programme within the School, and existing research associations and consortia (such as the EPSRC Centre for Energy Systems Integration), meaning you will benefit from:

• networking events
• industrial presentations

Careers service

Entry requirements

These entry requirements are for the 2024/25 academic year and requirements for future academic years may differ. Entry requirements for the 2025/26 academic year will be published on 1 Oct 2024.

A UK 2:1 degree, or international equivalent, in Electrical and/or Electronic Engineering.

Applicants with different academic backgrounds may be considered but we expect you to have passed at least two power engineering related courses with marks equivalent to UK 2:1 as a minimum. Examples of relevant courses are power electronics, power systems, electric machines, control engineering, renewable energy etc. This requirement may be partially met by relevant industrial experience; applicants with non-standard backgrounds may be considered on a case-by-case basis.

Applicants will also need to submit a personal statement, which should clearly demonstrate both their level of understanding of power engineering, and their strong interest in and commitment to the field.

Please note that entry to this programme is very competitive. A typical offer will normally require a UK first class honours degree or equivalent.

Students from China

This degree is Band B.

• Postgraduate entry requirements for students from China

International qualifications

Check whether your international qualifications meet our general entry requirements:

• Entry requirements by country
• English language requirements

Regardless of your nationality or country of residence, you must demonstrate a level of English language competency at a level that will enable you to succeed in your studies.

English language tests

We accept the following English language qualifications at the grades specified:

• IELTS Academic: total 6.5 with at least 6.0 in each component. We do not accept IELTS One Skill Retake to meet our English language requirements.
• TOEFL-iBT (including Home Edition): total 92 with at least 20 in each component. We do not accept TOEFL MyBest Score to meet our English language requirements.
• C1 Advanced ( CAE ) / C2 Proficiency ( CPE ): total 176 with at least 169 in each component.
• Trinity ISE : ISE II with distinctions in all four components.
• PTE Academic: total 62 with at least 59 in each component.

Your English language qualification must be no more than three and a half years old from the start date of the programme you are applying to study, unless you are using IELTS , TOEFL, Trinity ISE or PTE , in which case it must be no more than two years old.

Degrees taught and assessed in English

We also accept an undergraduate or postgraduate degree that has been taught and assessed in English in a majority English speaking country, as defined by UK Visas and Immigration:

• UKVI list of majority English speaking countries

We also accept a degree that has been taught and assessed in English from a university on our list of approved universities in non-majority English speaking countries (non-MESC).

• Approved universities in non-MESC

If you are not a national of a majority English speaking country, then your degree must be no more than five years old* at the beginning of your programme of study. (*Revised 05 March 2024 to extend degree validity to five years.)

Find out more about our language requirements:

Fees and costs

If you receive an offer of admission you will need to pay a deposit to secure your place.

• £1,500 (this contributes towards your tuition fees)

Any applicants who are required to pay will receive an offer with full details. (If there is no information on your offer about the deposit, then you are not required to pay.)

Find out more about tuition fee deposits:

• Tuition fee deposits

Living costs

You will be responsible for covering living costs for the duration of your studies.

Tuition fees

Scholarships and funding, uk government postgraduate loans.

If you live in the UK, you may be able to apply for a postgraduate loan from one of the UK’s governments.

The type and amount of financial support you are eligible for will depend on:

• your programme
• the duration of your studies
• your tuition fee status

Programmes studied on a part-time intermittent basis are not eligible.

• UK government and other external funding

Engineering International Masters Scholarships

The scholarships will be awarded to overseas applicants who have been accepted for admission on a full-time basis for an eligible postgraduate taught Masters programme within the School of Engineering.

The scholarship will be awarded broadly on the basis of academic merit with candidates requiring a first-class honours degree from a UK university or overseas equivalent.

Learn more about this scholarship:

• Engineering International Masters Scholarship
• Scottish Power Scholarship
• Full tuition fees plus a monthly maintenance allowance

ScottishPower has been building relationships with universities in our communities for a number of years. Working together, we aim to support development of future talent while mitigating the projected skills gap within the energy sector.

The programme is designed to financially support high achieving recent graduates in Spain, the United Kingdom and Mexico, who are interested in pursuing an advanced degree in industry relevant fields such as engineering, smart grids, renewable energy, sustainability, energy and environment, information technology, big data, cybersecurity, and more.

Other funding opportunities

Search for scholarships and funding opportunities:

• Search for funding

Further information

• Admissions Officer (lines open Mon-Fri 10am-4pm)
• Phone: +44 (0)131 650 5737
• Contact: [email protected]
• Programme Director, Dr Michael Merlin
• Phone: +44 (0)131 650 5726
• Contact: [email protected]
• School of Engineering
• Sanderson Building
• The King's Buildings Campus
• School: Engineering
• College: Science & Engineering

Select your programme and preferred start date to begin your application.

MSc Electrical Power Engineering - 1 Year (Full-time)

Application deadlines.

Due to high demand, the school operates a number of selection deadlines.

We strongly recommend you apply as early as possible. Applications may close earlier than the published deadlines if there is exceptionally high demand.

We will make a small number of offers to the most outstanding candidates on an ongoing basis, but hold the majority of applications until the next published selection deadline.

We aim to make the majority of decisions within eight weeks of the selection deadline.

If we have not made you an offer by a specific selection deadline this means one of two things:

• your application has been unsuccessful, in which case we will contact you to let you know, or
• your application is still being considered, will be carried forward for consideration in the next selection deadline and we’ll be in touch once a decision is made

Selection Deadlines

• How to apply

You must submit one reference with your application.

Find out more about the general application process for postgraduate programmes:

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Writing Electrical Engineering Msc. Personal Statements

Table of Contents

Personal statements are a standard part of any application.

They are a way for recruiters and evaluators to gain a deeper understanding of the person behind the credentials .  You can bolster your electrical engineering education and knowledge through a master’s degree. But you’ll need to learn to write a  personal statement for masters in electrical engineering.

This article will help you understand personal statements’ essence and importance. It will also show tips for writing an effective personal statement. Let’s start with a fundamental concept.

What is a Personal Statement?

A personal statement is a special essay representing an applicant’s skills, experience, and personality . It highlights the qualifications that make an applicant a prime candidate for the job, internship, or special program.

Personal statements are common encounters in professional and academic life. Learning how to write effective personal statements is a universal skill that people must master, regardless of their industry.

The Importance of a Personal Statement

A personal statement provides insight into your background and character . It is a valuable asset to an application for a master’s degree because it helps admissions officers evaluate applicants beyond what’s on paper.

Personal statements are crucial because they allow applicants to express themselves more profoundly. It gives them a chance to inject a more personal touch into their application and to evoke certain emotions in readers.

One of the more overlooked aspects of a personal statement lies in its exposition. The sequence in which we present information significantly impacts the overall experience. When we understand the key information to emphasize, we learn how to build a powerful personality. 

This is especially valuable for professionals who have an extensive experience in the industry.

If you need help crafting an effective personal statement, read the following section carefully and take its tips to heart.

Tips for Writing an Effective Personal Statement

Focus on the Experience

Write about your experience as an electrical engineer and how it has shaped you. Showcase any achievements or awards earned along the way, any challenges you faced, and how you overcame them. 

Highlight Special Projects

If you have worked on any noteworthy electrical engineering projects, including details about that in your statement. Explain why this project was significant and what skills you used to complete it successfully. 

Demonstrate Technical Proficiency

Demonstrating a strong understanding of technology and its applications can help strengthen your application. Detail any complex problems you solved and how you did so. 

Showcase Unique Experiences

Have you done anything different than other applicants? Include examples of research, internships, conferences, volunteering activities, etc., that made you stand out. 

Use Strong Descriptors

Use personal anecdotes throughout your essay to show who you are and make the reader connect with your story. Additionally, try to be creative with the language you use. Avoid common words and phrases and strive to find new ways to describe your passions and accomplishments.

Personal Statement for Masters in Electrical Engineering Examples

I am an enthusiastic and hardworking engineer with a great passion for electrical engineering. Having obtained my Bachelor’s Degree in the subject, I have sought out experience to further understand how it works both practically and theoretically. This has included hands-on work in a professional setting as well as internships to gain invaluable insight into the industry. My understanding of electricity, circuitry, and software systems was enhanced through these experiences and enabled me to develop solutions for challenging projects. I would be delighted to apply my knowledge and expertise and hone my skills in areas like renewable energy production and smart grid management. 

With an inquisitive mindset, undaunted enthusiasm, and a penchant for problem-solving, I am confident that I can make significant contributions to the field.

I chose to pursue a Master’s in Electrical Engineering due to my fascination with the subject from an early age. I had open access to the best colleges and high-level design opportunities from my undergraduate years. 

It was this chance to explore that made me look towards further study. In wanting to hold a more meaningful role in electronic development and research, I spent many days researching courses that could offer this experience.

When I discovered this particular course, I knew it would be my ideal opportunity. As such, I am eager to spend time working on new electrical engineering projects and expanding my existing knowledge. This course has opened up so much potential for growth and learning, and I’m thrilled at the prospect of participating in it.

I have always been fascinated with the science of electronics and its vast potential. From a young age, I have worked to understand this ever-evolving field through extensive research. I played around with different projects in my home laboratory and took relevant classes at high school and university. This journey culminated in my receiving my Bachelor’s degree in Electrical Engineering from a nationally recognized institute. 

Having solidified my fundamentals in this area, I am ready to take on new challenges involving deeper aspects of the subject. 

I want to apply for a Master’s program in Electrical Engineering where I can further develop and expand my knowledge base and skill set. 

Through such an endeavor, I wish to make substantial contributions to engineering research and development, which will help shape the future of our society. My ultimate ambition is to build a successful career within the industry and become a leader who puts forth innovative ideas.

An effective  personal statement for masters in electrical engineering  is critical to your application because it gives greater context into your qualifications.

It showcases your best and most relevant traits and demonstrates your value to a program. Personal statements are not difficult to write as long as you organize your thoughts and deliver a clear message. 

Abir Ghenaiet

Abir is a data analyst and researcher. Among her interests are artificial intelligence, machine learning, and natural language processing. As a humanitarian and educator, she actively supports women in tech and promotes diversity.

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Civil engineering student aims to connect construction and community

Joseph cortas is a fourth-year student enrolled in the ceas accend program.

Ever since he was a child,  Joseph Cortas  was enthralled by the energy of construction sites.

Joseph Cortas, CEAS Class of 2025.

While his initial fascination centered on large trucks, his childhood interest sent him down a path of professional and personal discovery. 

Today, Cortas is a fourth-year student concurrently pursuing bachelor’s and master’s degrees in civil engineering through the  ACCEND accelerated degree program  at the University of Cincinnati College of Engineering and Applied Science. 

The recipient of the  Cincinnati Presidential Scholarship , the Structural Engineering Institute Student Scholarship, the  CEAS Undergraduate Research Fellowship , and the Kentucky Governor’s Scholarship, he has also been an active member of the American Society of Civil Engineers, Structural Engineering Institute, CEAS Ambassadors, and CEAS Tribunal. After a stint as the VP of collegiate affairs for CEAS’ student government, Cortas was appointed by Ohio Governor Mike DeWine as  UC’s Undergraduate Student Trustee . 

Cortas aims to utilize his interest and knowledge of civil engineering to make a tangible impact on the lives of those in his community. 

Joseph Cortas poses with a hardhat in the High Bay Structural Lab at CEAS.

“How we choose to build our buildings inherently affects how we interact as a society and a community as a whole,” Cortas said. “In high school, I took a college course on life and construction, which looked at how the built environment around us shapes the way that we interact with each other. It inspired me to further involve myself with a lot of community work and advocacy to build relationships with not just my classmates, but also the larger community around me, to better understand how to best utilize the things we make for people. It’s always been fascinating for me to see the intersection of engineering and how it impacts lives.”

After touring more than 10 universities, Cortas ultimately wanted an academic experience that put the student’s development and support at the center of the experience, which he found at CEAS. 

"I wanted a faculty and support system that very obviously placed the student at the center of the experience,” Cortas said. “I wanted to feel the understanding that engineering can be difficult and competitive at times. In my experience, academic and personal support permeates through CEAS, whether it’s cooperative education or instruction.”

Joseph Cortas attends a student trustee conference in Columbus, Ohio. Pictured are Jordan Conner, Deputy Director of Boards and Commissions, Collin Claywell, Operations Manager of Boards and Commissions, Haley Dees, Student Trustee from Kent State University, Natalie Dando from Youngstown State University, Kevin Bishop from the University of Toledo, and Akshat Shah from Cleveland State University.

Cortas credits the wide variety of experiences he has had during his time at UC to the connections and learning he has gained. He joined CEAS Ambassadors partially because he had such a positive experience with one when he toured UC as a high school student. He also went on to make various administrative connections through his time with CEAS Tribunal , eventually culminating in his own leadership experiences in student government . And of course, through his co-op experience , Cortas was able to tangibly contribute to his personal and professional development. 

When the time came to co-op for Cortas, he found himself excited at the vast array of possibilities ahead of him. After a comprehensive national search, Cortas chose to work in Milwaukee for HGA, an architectural engineering firm based in Minneapolis.  During his multiple rotations with the firm, Cortas was able to embark on a variety of real-world assignments, such as developing and reviewing construction drawings, performing structural analysis, and performing construction administration activities. He even got to work on a 17-story, $1.5 billion building. 

"I was abable to access a variety of options throughout my search. I was in a unique position because I didn’t have to go to any particular kind of place. I told myself that I would rather find the right position instead of worrying about where it would send me geographically, and it worked out for me,” Cortas said. 

"I thought it was a big deal that there was an emphasis from both UC and the company to do multiple co-op rotations. While it’s true that some people go to several companies, there have been many cases where students grow far more over subsequent co-op rotations with the same organization,” he said. “I was the only co-op student in a structural engineering department of around 20 people. Through time, the ability to interact so personally with people who possess so much knowledge was invaluable. I would not be where I am now if I didn’t leave my comfort zone and gain this experience through co-op.”

Joseph Cortas photographs a test specimen during preparation for cyclic tensile testing in the High Bay Structural Lab at CEAS.

Cortas’ success with HGA and his broad range of experiences led him to his final two co-op rotations working on thesis research assignments under James Swanson and Gian Rassati , associate professors of civil engineering at UC. The work is funded by the American Institute of Steel Construction. Cortas embraces this research work, which he describes as very different from industry work, while simultaneously balancing classes as part of the ACCEND program. ACCEND students can complete four co-op rotations instead of five, with the extra academic semester in their fourth year spent beginning graduate course work. 

“The ACCEND program played a big part in influencing my decision to come to UC. I think that so many students can benefit from just taking one graduate course, but the program allows and teaches so much about balancing work and the sheer variety of paths engineers can take. "

Joseph Cortas, CEAS '25

"It's been huge to have the opportunity to work in these respective fields in addition to directly learning the material,” Cortas said. “The ACCEND program played a big part in influencing my decision to come to UC. I think that so many students can benefit from just taking one graduate course, but the program allows and teaches so much about balancing work and the sheer variety of paths engineers can take. When I think about all of the knowledge that I will have cultivated in just five years, it opens up a lot of doors. There’s an incredible amount of respect that I have for all of the faculty, academic advisers , and mentors that have helped me along the way.”

While Cortas is deeply appreciative that his masters work has allowed him to develop connections and garner experiences that he otherwise may not have, he continues searching for the perfect intersection to combine his engineering skills with the leadership ability he has acquired. 

"I've pursued various roles of leadership within the university. Whether it was being in CEAS Tribunal or a student ambassador, or being the vice president of collegiate affairs, I have always looked for ways to get involved and make a difference around me,” Cortas said. “With whatever work I pursue, I ask myself: how can the work that I do impact communities and support people where they are?”

Joseph Cortas in his capacity as Student Trustee at UC Commencement.

Reflecting back on his journey as a Bearcat, Cortas found his experiences with people to be the most impactful. He highlighted his time as a tutor with Bearcat Buddies, UC’s mentorship program for Cincinnati Public School students, and his assignment to visit Uruguay to talk about the importance of education as a part of a U.S. State Department student delegation. 

“I’ve always wanted to emphasize the importance of representation. There is a big weight to be carried when you’re an ambassador representing a community, in any sense. Realizing how much the ability to do good can actually change things is so powerful,” he said. “All of the roles that I’ve had were natural progressions in me wanting to better aid and advocate for the voices of my community. The aim to do good has been the guiding light throughout my journey, and I hope I can leave everyone that I work with in a better position for the future.”

Featured image at top: Joseph Cortas performing weld tests in the High Bay Structural Lab at CEAS. Photo/Provided

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Some results uranium dioxide powder structure investigation

• Processes of Obtaining and Properties of Powders
• Published: 28 June 2009
• Volume 50 , pages 281–285, ( 2009 )

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• E. I. Andreev 1 ,
• K. V. Glavin 2 ,
• A. V. Ivanov 3 ,
• V. V. Malovik 3 ,
• V. V. Martynov 3 &
• V. S. Panov 2  

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Features of the macrostructure and microstructure of uranium dioxide powders are considered. Assumptions are made on the mechanisms of the behavior of powders of various natures during pelletizing. Experimental data that reflect the effect of these powders on the quality of fuel pellets, which is evaluated by modern procedures, are presented. To investigate the structure of the powders, modern methods of electron microscopy, helium pycnometry, etc., are used. The presented results indicate the disadvantages of wet methods for obtaining the starting UO 2 powders by the ammonium diuranate (ADU) flow sheet because strong agglomerates and conglomerates, which complicate the process of pelletizing, are formed. The main directions of investigation that can lead to understanding the regularities of formation of the structure of starting UO 2 powders, which will allow one to control the process of their fabrication and stabilize the properties of powders and pellets, are emphasized.

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Investigation of the Properties of Uranium-Molybdenum Pellet Fuel for VVER

Investigation of the Influence of the Energy of Thermal Plasma on the Morphology and Phase Composition of Aluminosilicate Microspheres

Evaluation of the possibility of fabricating uranium-molybdenum fuel for vver by powder metallurgy methods.

Patlazhan, S.A., Poristost’ i mikrostruktura sluchainykh upakovok tverdykh sharov raznykh razmerov (Porosity and Microstructure of Chaotic Packings of Solid Spheres of Different Sizes), Chernogolovka: IKhF RAN, 1993.

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Andreev, E.I., Bocharov, A.S., Ivanov, A.V., et al., Izv. Vyssh. Uchebn. Zaved., Tsvetn. Metall. , 2003, no. 1, p. 48.

Assmann, H., Dörr, W., and Peehs, M., “Control of HO 2 Microstructure by Oxidative Sintering,” J. Nucl. Mater. , 1986, vol. 140,issue 1, pp. 1–6.

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Elektrostal’ Polytechnical Institute (Branch), Moscow Institute of Steel and Alloys, ul. Pervomaiskaya 7, Elektrostal’, Moscow oblast, 144000, Russia

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Original Russian Text © E.I. Andreev, K.V. Glavin, A.V. Ivanov, V.V. Malovik, V.V. Martynov, V.S. Panov, 2009, published in Izvestiya VUZ. Poroshkovaya Metallurgiya i Funktsional’nye Pokrytiya, 2008, No. 4, pp. 19–24.

About this article

Andreev, E.I., Glavin, K.V., Ivanov, A.V. et al. Some results uranium dioxide powder structure investigation. Russ. J. Non-ferrous Metals 50 , 281–285 (2009). https://doi.org/10.3103/S1067821209030183

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Published : 28 June 2009

Issue Date : June 2009

DOI : https://doi.org/10.3103/S1067821209030183

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Electrical and electronic engineering personal statement example 1.

I have always had a creative ability and a fascination with how things work. The challenge of solving practical problems inherent in the field of engineering appeals directly to these traits.

I am particularly interested in electrical and electronic engineering (EEE) because it is such a rapidly evolving discipline. The potential to integrate new technologies into real life applications and the opportunity to develop practical skills in this sphere is exciting.

I spent a week within the Electronics Department at the British Geological Survey and was shown the diversity of the work they undertake. Their job is to use electronics to investigate the properties of rocks using invasive and non-invasive techniques. What most enthused me was the freedom the engineers have to use their creativity to solve problems. I observed them designing their own experiments and using their PCB layout and design skills to build circuits to achieve this.

In addition to my school work I have been studying an Open University science short course entitled 'Inside Nuclear Energy'. I chose this course because nuclear energy is a fundamentally important consideration in our future energy supply.

The module debated nuclear energy from an ethical and practical perspective as well as studying the technology and science involved such as calculating nuclear decay and how a nuclear power station works. Studying this module has broadened my scientific reading and helped my time management and independent study skills.

During my academic career I have been house representative and a member of my school council. I was a member of my school team for the national Bar Mock Trials and reached the final in Belfast. I was elected as a member of the UK Youth Parliament for South Lincolnshire where I was very fortunate to attend Stormont and debate in the House of Commons.

I was the Managing Director of a Young Enterprise group. This role involved managing a team of 10 of my peers and maintaining good relations throughout while ensuring that quality and time management was maintained.

As a team we designed our product and I negotiated with a local manufacturer who produced it using recycled plastic bottle tops. I gained valuable team work and management skills and we won both regional and national awards including one for 'Innovation'.

In my free time I play netball where good teamwork is essential. I play clarinet, guitar and have reached grade five in piano. I enjoy watching talks on TED.com and I keep up to date with Wired magazine which covers current and future trends in technology.

I believe it is important that an engineer has a wider understanding of the social, political and economic issues to better appreciate the context in which engineering impacts on the community it serves.

In economics I have learnt to consider the effect of negative externalities which include the environmental impact of individual companies. I am acutely aware of the need for science to explore ways of harmonising technology with nature. All engineering henceforth will need to consider its environmental impact.

EEE impacts on almost every aspect of our lives today and will only grow in importance. I want to be part of our technological future and make a positive contribution to future developments.

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• Physical activity is one of the best things people can do to improve their health.
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Why it matters

Active people generally live longer and are at less risk for serious health problems such as heart disease, type 2 diabetes, obesity, and some cancers. For people with chronic diseases, physical activity can help manage these conditions and complications.

About one in two adults lives with a chronic disease. Of adults with chronic diseases, about half have two or more.

Only one in four U.S. adults fully meet the physical activity guidelines for aerobic and muscle-strengthening activity. Getting enough physical activity could prevent:

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CDC's Division of Nutrition, Physical Activity, and Obesity partners with national groups, states, and communities to advance the following priorities:

Active People, Healthy Nation S M is a CDC initiative to help 27 million Americans become more physically active by 2027. To reach this goal, CDC works with states and communities to carry out evidence-based strategies to increase physical activity.

CDC's Division of Nutrition, Physical Activity, and Obesity (DNPAO) works with three state and local programs to increase access to places for physical activity for all people:

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We also fund the Physical Activity Policy Research and Evaluation Network (PAPREN). The network works across sectors to advance the evidence base for physical activity policies. It also puts research into practice with a shared vision: active people in active communities, supported by equitable, sustainable policies and practices.

We encourage state and local organizations to use community design to connect pedestrian, bicycle, or transit transportation networks (called activity-friendly routes) to everyday destinations.

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News Roundup Spring 2024

CEGE Spring Graduation Celebration and Order of the Engineer

Forty-seven graduates of the undergraduate and grad student programs (pictured above) in the Department of Civil, Environmental, and Geo- Engineering took part in the Order of the Engineer on graduation day. Distinguished Speakers at this departmental event included Katrina Kessler (MS EnvE 2021), Commissioner of the Minnesota Pollution Control Agency, and student Brian Balquist. Following this event, students participated in the college-wide Commencement Ceremony at 3M Arena at Mariucci. 

UNIVERSITY & DEPARTMENT

The University of Minnesota’s Crookston, Duluth, and Rochester campuses have been awarded the Carnegie Elective Classification for Community Engagement, joining the Twin Cities (2006, 2015) and Morris campuses (2015), and making the U of M the country’s first and only university system at which every individual campus has received this selective designation. Only 368 from nearly 4,000 qualifying U.S. universities and colleges have been granted this designation.

CEGE contributed strongly to the College of Science and Engineering’s efforts toward sustainability research. CEGE researchers are bringing in over $35 million in funded research to study carbon mineralization, nature and urban areas, circularity of water resources, and global snowfall patterns. This news was highlighted in the Fall 2023 issue of  Inventing Tomorrow  (pages 10-11). https://issuu.com/inventingtomorrow/docs/fall_2023_inventing_tomorrow-web

CEGE’s new program for a one-year master’s degree in structural engineering is now accepting applicants for Fall 2024. We owe a big thanks to DAN MURPHY and LAURA AMUNDSON for their volunteer work to help curate the program with Professor JIA-LIANG LE and EBRAHIM SHEMSHADIAN, the program director. Potential students and companies interested in hosting a summer intern can contact Ebrahim Shemshadian ( [email protected] ).

BERNIE BULLERT , CEGE benefactor and MN Water Research Fund founder, was profiled on the website of the University of Minnesota Foundation (UMF). There you can read more about his mission to share clean water technologies with smaller communities in Minnesota. Many have joined Bullert in this mission. MWRF Recognizes their Generous 2024 Partners. Gold Partners: Bernie Bullert, Hawkins, Inc., Minnesota Department of Health, Minnesota Pollution Control Agency, and SL-serco. Silver Partners: ISG, Karl and Pam Streed, Kasco, Kelly Lange-Haider and Mark Haider, ME Simpson, Naeem Qureshi, Dr. Paul H. Boening, TKDA, and Waterous. Bronze Partners: Bruce R. Bullert; Brenda Lenz, Ph.D., APRN FNP-C, CNE; CDM Smith; Central States Water Environment Association (CSWEA MN); Heidi and Steve Hamilton; Jim “Bulldog” Sadler; Lisa and Del Cerney; Magney Construction; Sambatek; Shannon and John Wolkerstorfer; Stantec; and Tenon Systems.

After retiring from Baker-Tilly,  NICK DRAGISICH  (BCE 1977) has taken on a new role: City Council member in Lake Elmo, Minnesota. After earning his BCE from the University of Minnesota, Dragisich earned a master’s degree in business administration from the University of St. Thomas. Dragisich retired in May from his position as managing director at Baker Tilly, where he had previously served as firm director. Prior to that, he served as assistant city manager in Spokane, Washington, was the city administrator and city engineer in Virginia, Minnesota, and was mayor of Chisholm, Minnesota—all adding up to more than 40 years of experience in local government. Dragisich was selected by a unanimous vote. His current term expires in December 2024.

PAUL F. GNIRK  (Ph.D. 1966) passed away January 29, 2024, at the age of 86. A memorial service was held Saturday, February 24, at the South Dakota School of Mines and Technology (SDSM&T), where he started and ended his teaching career, though he had many other positions, professional and voluntary. In 2018 Paul was inducted into the SDSM&T Hardrocker Hall of Fame, and in 2022, he was inducted into the South Dakota Hall of Fame, joining his mother Adeline S. Gnirk, who had been inducted in 1987 for her work authoring nine books on the history of south central South Dakota.

ROGER M. HILL  (BCE 1957) passed away on January 13, 2024, at the age of 90. His daughter, Kelly Robinson, wrote to CEGE that Roger was “a dedicated Gopher fan until the end, and we enjoyed many football games together in recent years. Thank you for everything.”

KAUSER JAHAN  (Ph.D. 1993, advised by Walter Maier), PE, is now a civil and environmental engineering professor and department head at Henry M. Rowan College of Engineering. Jahan was awarded a 3-year (2022- 2025), $500,000 grant from the U.S. Department of Environmental Protection Agency (USEPA). The grant supports her project, “WaterWorks: Developing the New Generation of Workforce for Water/Wastewater Utilities,” for the development of educational tools that will expose and prepare today’s students for careers in water and wastewater utilities.

SAURA JOST  (BCE 2010, advised by Timothy LaPara) was elected to the St. Paul City Council for Ward 3. She is part of the historic group of women that make up the nation’s first all-female city council in a large city.

The 2024 ASCE Western Great Lakes Student Symposium combines several competitions for students involved in ASCE. CEGE sent a large contingent of competitors to Chicago. Each of the competition groups won awards: Ethics Paper 1st place Hans Lagerquist; Sustainable Solutions team 1st place overall in (qualifying them for the National competition in Utah in June); GeoWall 2nd place overall; Men’s Sprint for Concrete Canoe with rowers Sakthi Sundaram Saravanan and Owen McDonald 2nd place; Product Prototype for Concrete Canoe 2nd place; Steel Bridge (200 lb bridge weight) 2nd place in lightness; Scavenger Hunt 3rd place; and Aesthetics and Structural Efficiency for Steel Bridge 4th place.

Students competing on the Minnesota Environmental Engineers, Scientists, and Enthusiasts (MEESE) team earned second place in the Conference on the Environment undergraduate student design competition in November 2023. Erin Surdo is the MEESE Faculty Adviser. Pictured are NIKO DESHPANDE, ANNA RETTLER, and SYDNEY OLSON.

The CEGE CLASS OF 2023 raised money to help reduce the financial barrier for fellow students taking the Fundamentals of Engineering exam, a cost of $175 per test taker. As a result of this gift, they were able to make the exam more affordable for 15 current CEGE seniors. CEGE students who take the FE exam pass the first time at a rate well above national averages, demonstrating that CEGE does a great job of teaching engineering fundamentals. In 2023, 46 of 50 students passed the challenging exam on the first try.

This winter break, four CEGE students joined 10 other students from the College of Science and Engineering for the global seminar, Design for Life: Water in Tanzania. The students visited numerous sites in Tanzania, collected water source samples, designed rural water systems, and went on safari. Read the trip blog: http://globalblogs.cse.umn.edu/search/label/Tanzania%202024

Undergraduate Honor Student  MALIK KHADAR  (advised by Dr. Paul Capel) received honorable mention for the Computing Research Association (CRA) Outstanding Undergraduate Research Award for undergraduate students who show outstanding research potential in an area of computing research.

GRADUATE STUDENTS

AKASH BHAT  (advised by William Arnold) presented his Ph.D. defense on Friday, October 27, 2023. Bhat’s thesis is “Photolysis of fluorochemicals: Tracking fluorine, use of UV-LEDs, and computational insights.” Bhat’s work investigating the degradation of fluorinated compounds will assist in the future design of fluorinated chemicals such that persistent and/or toxic byproducts are not formed in the environment.

ETHAN BOTMEN  (advised by Bill Arnold) completed his Master of Science Final Exam February 28, 2024. His research topic was Degradation of Fluorinated Compounds by Nucleophilic Attack of Organo-fluorine Functional Groups.

XIATING CHEN , Ph.D. Candidate in Water Resources Engineering at the Saint Anthony Falls Laboratory is the recipient of the 2023 Nels Nelson Memorial Fellowship Award. Chen (advised by Xue Feng) is researching eco-hydrological functions of urban trees and other green infrastructure at both the local and watershed scale, through combined field observations and modeling approaches.

ALICE PRATES BISSO DAMBROZ  has been a Visiting Student Researcher at the University of Minnesota since last August, on a Doctoral Dissertation Research Award from Fulbright. Her CEGE advisor is Dr. Paul Capel. Dambroz is a fourth year Ph.D. student in Soil Science at Universidade Federal de Santa Maria in Brazil, where she studies with her adviser Jean Minella. Her research focuses on the hydrological monitoring of a small agricultural watershed in Southern Brazil, which is located on a transition area between volcanic and sedimentary rocks. Its topography, shallow soils, and land use make it prone to runoff and erosion processes.

Yielding to people in crosswalks should be a very pedestrian topic. Yet graduate student researchers  TIANYI LI, JOSHUA KLAVINS, TE XU, NIAZ MAHMUD ZAFRI  (Dept.of Urban and Regional Planning at Bangladesh University of Engineering and Technology), and Professor Raphael Stern found that drivers often do not yield to pedestrians, but they are influenced by the markings around a crosswalk. Their work was picked up by the  Minnesota Reformer.

TIANYI LI  (Ph.D. student advised by Raphael Stern) also won the Dwight David Eisenhower Transportation (DDET) Fellowship for the third time! Li (center) and Stern (right) are pictured at the Federal Highway Administration with Latoya Jones, the program manager for the DDET Fellowship.

The Three Minute Thesis Contest and the Minnesota Nice trophy has become an annual tradition in CEGE. 2023’s winner was  EHSANUR RAHMAN , a Ph.D. student advised by Boya Xiong.

GUANJU (WILLIAM) WEI , a Ph.D. student advised by Judy Yang, is the recipient of the 2023 Heinz G. Stefan Fellowship. He presented his research entitled Microfluidic Investigation of the Biofilm Growth under Dynamic Fluid Environments and received his award at the St. Anthony Falls Research Laboratory April 9. The results of Wei's research can be used in industrial, medical, and scientific fields to control biofilm growth.

BILL ARNOLD  stars in an award-winning video about prairie potholes. The Prairie Potholes Project film was made with the University of Delaware and highlights Arnold’s NSF research. The official winners of the 2024 Environmental Communications Awards Competition Grand Prize are Jon Cox and Ben Hemmings who produced and directed the film. Graduate student Marcia Pacheco (CFANS/LAAS) and Bill Arnold are the on-screen stars.

Four faculty from CEGE join the Center for Transportation Studies Faculty and Research Scholars for FY24–25:  SEONGJIN CHOI, KETSON ROBERTO MAXIMIANO DOS SANTOS, PEDRAM MORTAZAVI,  and  BENJAMIN WORSFOLD . CTS Scholars are drawn from diverse fields including engineering, planning, computer science, environmental studies, and public policy.

XUE FENG  is coauthor on an article in  Nature Reviews Earth and Environment . The authors evaluate global plant responses to changing rainfall regimes that are now characterized by fewer and larger rainfall events. A news release written at Univ. of Maryland can be found here: https://webhost.essic. umd.edu/april-showers-bring-mayflowers- but-with-drizzles-or-downpours/ A long-running series of U of M research projects aimed at improving stormwater quality are beginning to see practical application by stormwater specialists from the Twin Cities metro area and beyond. JOHN GULLIVER has been studying best practices for stormwater management for about 16 years. Lately, he has focused specifically on mitigating phosphorous contamination. His research was highlighted by the Center for Transportation Studies.

JIAQI LI, BILL ARNOLD,  and  RAYMOND HOZALSKI  published a paper on N-nitrosodimethylamine (NDMA) precursors in Minnesota rivers. “Animal Feedlots and Domestic Wastewater Discharges are Likely Sources of N-Nitrosodimethylamine (NDMA) Precursors in Midwestern Watersheds,” Environmental Science and Technology (January 2024) doi: 10.1021/acs. est.3c09251

ALIREZA KHANI  contributed to MnDOT research on Optimizing Charging Infrastructure for Electric Trucks. Electric options for medium- and heavy-duty electric trucks (e-trucks) are still largely in development. These trucks account for a substantial percentage of transportation greenhouse gas emissions. They have greater power needs and different charging needs than personal EVs. Proactively planning for e-truck charging stations will support MnDOT in helping to achieve the state’s greenhouse gas reduction goals. This research was featured in the webinar “Electrification of the Freight System in Minnesota,” hosted by the University of Minnesota’s Center for Transportation Studies. A recording of the event is now available online.

MICHAEL LEVIN  has developed a unique course for CEGE students on Air Transportation Systems. It is the only class at UMN studying air transportation systems from an infrastructure design and management perspective. Spring 2024 saw the third offering of this course, which is offered for juniors, seniors, and graduate students.

Research Professor  SOFIA (SONIA) MOGILEVSKAYA  has been developing international connections. She visited the University of Seville, Spain, November 13–26, 2023, where she taught a short course titled “Fundamentals of Homogenization in Composites.” She also met with the graduate students to discuss collaborative research with Prof. Vladislav Mantic, from the Group of Continuum Mechanics and Structural Analysis at the University of Seville. Her visit was a part of planned activities within the DIAGONAL Consortium funded by the European Commission. CEGE UMN is a partner organization within DIAGONAL, represented by CEGE professors Mogilevskaya and Joseph Labuz. Mantic will visit CEGE summer 2024 to follow up on research developments and discuss plans for future collaboration and organization of short-term exchange visits for the graduate students from each institution. 

DAVID NEWCOMB  passed away in March. He was a professor in CEGE from 1989–99 in the area of pavement engineering. Newcomb led the research program on asphalt materials characterization. He was the technical director of Mn/ROAD pavement research facility, and he started an enduring collaboration with MnDOT that continues today. In 2000, he moved from Minnesota to become vice-president for Research and Technology at the National Asphalt Pavement Association. Later he moved to his native Texas, where he was appointed to the division head of Materials and Pavement at the Texas A&M Transportation Institute, a position from which he recently retired. He will be greatly missed.

PAIGE NOVAK  won Minnesota ASCE’s 2023 Distinguished Engineer of the Year Award for her contributions to society through her engineering achievements and professional experiences.

The National Science Foundation (NSF) announced ten inaugural (NSF) Regional Innovation Engines awards, with a potential $1.6 billion investment nationally over the next decade. Great Lakes ReNEW is led by the Chicago-based water innovation hub,  Current,  and includes a team from the University of Minnesota, including PAIGE NOVAK. Current will receive $15 mil for the first two years, and up to $160 million over ten years to develop and grow a water-focused innovation engine in the Great Lakes region. The project’s ambitious plan is to create a decarbonized circular “blue economy” to leverage the region’s extraordinary water resources to transform the upper Midwest—Illinois, Indiana, Michigan, Minnesota, Ohio, and Wisconsin. Brewing one pint of beer generates seven pints of wastewater, on average. So what can you do with that wastewater?  PAIGE NOVAK  and her team are exploring the possibilities of capturing pollutants in wastewater and using bacteria to transform them into energy.

BOYA XIONG  has been selected as a recipient of the 2024 40 Under 40 Recognition Program by the American Academy of Environmental Engineers and Scientists. The award was presented at the 2024 AAEES Awards Ceremony, April 11, 2024, at the historic Howard University in Washington, D.C. 

JUDY Q. YANG  received a McKnight Land-Grant Professorship Award. This two-year award recognizes promising assistant professors and is intended to advance the careers of individuals who have the potential to make significant contributions to their departments and their scholarly fields. 

Professor Emeritus CHARLES FAIRHURST , his son CHARLES EDWARD FAIRHURST , and his daughter MARGARET FAIRHURST DURENBERGER were on campus recently to present Department Head Paige Novak with a check for $25,000 for the Charles Fairhurst Fellowship in Earth Resources Engineering in support of graduate students studying geomechanics. The life of Charles Fairhurst through a discussion with his children is featured on the Engineering and Technology History Wiki at https://ethw.org/Oral-History:Charles_Fairhurst#00:00:14_INTRODUCTION

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