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University of New Hampshire

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New Hampshire

United States

The Master of Science in Chemical Engineering program at the University of New Hampshire is meticulously designed to equip students with comprehensive knowledge and advanced skills in the field of Chemical and Biomolecular Engineering. This rigorous course blends theoretical foundations with practical applications, ensuring that graduates are well-prepared to tackle complex engineering challenges. Over the course of 18 months, students delve into key areas such as chemical reaction engineering, process design, and thermodynamics, while also gaining insights into emerging technologies pertinent to the industry. The curriculum not only emphasizes core chemical engineering principles but also incorporates innovative topics such as biotechnology and environmental sustainability.

Each course in the master's program is structured to promote critical thinking and problem-solving abilities. Students engage with subjects like transport phenomena, chemical kinetics, and process control, enabling them to design, analyze, and optimize chemical processes. Additionally, the curriculum is complemented by hands-on laboratory experiences, where students utilize cutting-edge equipment and techniques to reinforce their learning. This integrative approach ensures that theoretical knowledge is adeptly translated into practical skills, fostering a comprehensive understanding of the discipline.

The University of New Hampshire is home to a distinguished faculty with extensive expertise in various areas of chemical engineering. Faculty members are not only educators but also active researchers, involved in pioneering projects that advance the field. Their commitment to teaching is reflected in their innovative pedagogy, which includes interactive lectures, collaborative projects, and personalized mentoring. This close-knit learning environment enables students to forge meaningful relationships with their professors, enhancing their academic journey and facilitating opportunities for research collaborations.

Research is a cornerstone of the MS in Chemical Engineering program, providing students with opportunities to engage in groundbreaking projects. The university boasts state-of-the-art research facilities and laboratories, where students can collaborate with faculty on cutting-edge research initiatives. Areas of research include bioprocessing, nanotechnology, energy systems, and materials science, among others. This hands-on experience not only enriches student learning but also prepares them for future roles in industry or academia. Students are encouraged to present their findings at conferences, further honing their communication skills and gaining invaluable exposure in their field.

The University of New Hampshire maintains strong connections with industry, offering numerous internship and co-op opportunities that allow students to gain real-world experience. The university's robust network of alumni and partnerships with leading companies in the chemical engineering sector provides students with access to extensive job placement resources. Graduates of the program have successfully entered diverse sectors, including pharmaceuticals, energy, environmental engineering, and manufacturing. They are well-equipped to pursue careers as process engineers, research scientists, project managers, and more, consistently achieving high employability rates post-graduation.

In addition to the academic rigor and professional preparation, the vibrant community at the University of New Hampshire enhances the overall student experience. The university proudly celebrates its diverse international student body, fostering an inclusive environment conducive to learning and cultural exchange. Alumni from this program have gone on to achieve remarkable success in their careers, with testimonials highlighting their preparedness and confidence gained from the program. This comprehensive educational experience is further enhanced by a strong support system, including academic advising, career resources, and networking events.

Why Study Chemical Engineering at the University of New Hampshire?

  • High Employability Rate: The university is recognized for its strong graduate placement services, ensuring that students have access to a wealth of job opportunities upon completion of their degree.
  • Expert Faculty: Learn from distinguished faculty members who are leaders in their fields and are dedicated to providing students with an exceptional educational experience.
  • State-of-the-Art Facilities: Benefit from access to modern laboratories equipped with the latest technology to support advanced research and practical learning.
  • Research Opportunities: Engage in pioneering research projects across various specialized fields, allowing you to contribute to the advancement of chemical engineering.
  • Strong Alumni Network: Connect with a thriving alumni community that can provide guidance, mentorship, and potential job leads in the industry.
  • Diverse Student Community: Join a multicultural environment where you can collaborate and learn from peers from around the world, enriching your educational experience.


Admission Requirements:
The admission process for the Master of Science in Chemical Engineering at the University of New Hampshire requires a completed application form, along with a non-refundable application fee of $65. Prospective students should hold a bachelor’s degree in a related field with a strong academic record. While specific standardized test requirements such as GRE are not currently defined, international applicants must demonstrate proficiency in English through standardized tests such as IELTS, TOEFL, or PTE, with minimum scores of 6.5, 80, and 59, respectively.

In conclusion, the Master of Science in Chemical Engineering at the University of New Hampshire is an exemplary program that prepares students for rewarding careers in the chemical engineering field. With a robust curriculum, outstanding faculty, and extensive research opportunities, students are set on a path to professional success and academic excellence. If you are looking to deepen your knowledge and expand your skillset in chemical engineering, this program is an optimal choice that will empower you to shape the future of the industry.
intake

Duration

18 Months

Ranking

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#587

US World and News Report

Class Profile

Diversity

International:

10%

Others:

5%

New Hampshire:

60%

Massachusetts:

20%

Vermont:

10%

Eligibility Criteria

English Proficiency Tests

  • IELTS

    6.5

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  • PTE

    59

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  • TOEFL

    80

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Application Requirements

Here's everything you need to know to ensure a complete and competitive application—covering the key documents and criteria for a successful submission.

intake

Application Fee: 65

      Application Deadlines

      Fees and Funding

      intake

      Tuition Fees

      $27,400 / year

      FAQs

      • The admission process for the Master of Science in Chemical Engineering at the University of New Hampshire includes several key components:

        1. A completed application form.
        2. A non-refundable application fee of $65.
        3. A bachelor’s degree in a related field, with a strong academic record.
        4. For international applicants, proficiency in English must be demonstrated through standardized tests such as IELTS, TOEFL, or PTE, with minimum scores of 6.5, 80, and 59, respectively.
      • The program is designed to be completed over a period of 18 months and integrates both theoretical foundations and practical applications. Students will study key areas such as:

        • Chemical reaction engineering
        • Process design
        • Thermodynamics
        • Transport phenomena
        • Chemical kinetics
        • Process control

        Additionally, hands-on laboratory experiences are included to reinforce learning and ensure that theoretical knowledge is effectively translated into practical skills.

      • The Master of Science in Chemical Engineering program utilizes a variety of innovative teaching methods, including:

        • Interactive lectures that promote engagement.
        • Collaborative projects that encourage teamwork.
        • Personalized mentoring from faculty members.

        This multifaceted approach helps develop critical thinking and problem-solving abilities in students, fostering a comprehensive understanding of chemical engineering principles.

      • Graduates of the Master of Science in Chemical Engineering program are well-equipped to enter various sectors, including:

        • Pharmaceuticals
        • Energy
        • Environmental engineering
        • Manufacturing

        Common career roles include process engineers, research scientists, and project managers. The program is noted for its high employability rates, supported by strong connections with industry and extensive job placement resources.

      • Several unique aspects of the Master of Science in Chemical Engineering at the University of New Hampshire include:

        • A distinguished faculty with extensive expertise in various chemical engineering fields.
        • State-of-the-art research facilities and laboratories for hands-on research experiences.
        • Strong alumni network that provides mentorship and job leads.
        • A vibrant and diverse student community that fosters cultural exchange and collaboration.
      • Research is a cornerstone of the program, offering students the chance to engage in groundbreaking projects. Students can collaborate with faculty on cutting-edge research initiatives in areas such as:

        • Bioprocessing
        • Nanotechnology
        • Energy systems
        • Materials science

        This experience not only enriches learning but also prepares students for future roles in both industry and academia.

      • The University of New Hampshire provides a strong support system to enhance the student experience, including:

        • Academic advising to assist with course selection and academic planning.
        • Career resources to help students prepare for the job market.
        • Networking events that facilitate connections with alumni and industry professionals.

        This comprehensive support system is designed to help students succeed academically and professionally.

      • The program prepares students for real-world challenges through:

        • A robust curriculum that covers both core chemical engineering principles and innovative topics.
        • Hands-on laboratory experiences using cutting-edge equipment.
        • Opportunities for internships and co-op placements that provide practical experience.

        This integrative approach ensures that graduates are not only knowledgeable but also skilled in applying their knowledge to solve complex engineering problems in various industries.

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