Chemical Engineering

«The B.S. in Chemical Engineering at New York University offers a comprehensive and rigorous education designed to prepare students for diverse careers in the chemical, pharmaceutical, energy, environmental, and materials industries. The program aims to develop students' fundamental understanding of chemical processes, material science, thermodynamics, fluid mechanics, and reaction engineering, providing a solid foundation in both theoretical principles and practical applications. Students will engage in hands-on laboratory experiences, industry projects, and research opportunities that foster innovation, problem-solving, and critical thinking skills essential for success in a rapidly evolving technological landscape. The curriculum emphasizes sustainable practices, safety protocols, and ethical considerations in engineering design, aligning with industry standards and societal needs. Through close collaboration with faculty who are leading researchers and industry experts, students gain insights into cutting-edge developments such as renewable energy, nanotechnology, and environmental remediation. The program also includes opportunities for internships and cooperative education placements, enabling students to acquire valuable industry experience and professional connections even before graduation. Graduates of the program are well-equipped to pursue careers in process design, safety management, quality assurance, research and development, or to continue their education through graduate studies. NYU’s vibrant academic environment and strategic location in New York City provide additional advantages for networking, internships, and exposure to global industries. Overall, the B.S. in Chemical Engineering at NYU combines rigorous academics, innovative research, and real-world experiences to prepare students for leadership roles in technology-driven sectors, ensuring they are ready to make meaningful contributions to society and industry.»

You must complete a minimum of 75 credits of academic work past the bachelor’s degree, including a minimum of 45 credits of dissertation research, to complete the PhD in Chemical Engineering program. Although you may elect to take more than 45 credits of PhD thesis, only 45 of those credits can be counted in the required 75 credits. Furthermore, of those 45 credits, at least 36 must be taken beyond MS thesis and at the School of Engineering. A minimum of 30 graduate credits beyond the bachelor’s degree (not including PhD or MS thesis credits) are required in chemical engineering subjects, of which at least 12 must be taken at the School of Engineering. Attendance is required at departmental seminars for at least 4 semesters.

You must also pass a comprehensive qualifying examination in chemical engineering and present a doctoral dissertation. The qualifying exam is given once a year. Additional details on the qualifying examination should be obtained from your graduate adviser.

To meet graduation requirements, you must have an overall B average in all courses, excluding thesis, and must not obtain more than 2 grades of C in required subjects. Candidates for the degree Doctor of Philosophy in Chemical Engineering should plan their programs in accordance with the requirements below.

Required Subjects (12 Credits)

• 3 CreditsApplied Mathematics in Engineering CBE-GY 6153
• 3 CreditsTransport Phenomena CBE-GY 6333
• 3 CreditsChemical Engineering Thermodynamics CBE-GY 6733
• 3 CreditsChemical Reactor Analysis and Design CBE-GY 6813

You must take these for 2 years:

• Seminar in Chemical & Biology Engineering CBE-GY 9910
• Seminar in Chemical & Biological Engineering CBE-GY 9920

Electives (18 Credits)

Choose at least 3 electives (9 credits) from CBE 6003-CBE 9413. Chose the remaining number of credits from other graduate programs with the approval of the graduate adviser in chemical engineering.

Thesis (45 Credits)

• CBE 9993 PhD Thesis, Credits: 45.00
• Up to 9 credits of Master's Thesis can be added here.

Requirements

• A BS degree in chemical engineering or a related field of science or engineering is generally required for admission to graduate study. If you earned a bachelor’s degree from a foreign institution, you must submit Graduate Record Examination (GRE) and TOEFL scores. Applicants with degrees in other fields or from other colleges may be admitted with undergraduate or graduate deficiencies as evaluated by the graduate adviser. You will need to have had at least one course in differential equations.
• Application (online only)
• Application Fee of $75 (payable by major credit card only)
• Statement of Purpose / Personal Statement
• Résumé / Curriculum Vitae
• Two Letters of Recommendation
• One official transcript from each institution attended or attending 
• GRE / GMAT 
• English Language Proficiency Testing 
• International students who will require a J-1 or F-1 visa to study at NYU will need to apply for a new I-20 or transfer by submitting financial documentation after admission. Do not submit financial documents (including bank statements and affidavits of support) with your application. Instructions for applying for a new I-20 or transfer will follow your letter of admission (if applicable).

Scholarships

• Merit Scholarships
• Global Education
• International Student Loans
• Federal Work-Study and Student Employment

The Bachelor of Science in Chemical Engineering at New York University offers students a comprehensive education in the fundamental principles and practical applications of chemical engineering. The program is designed to prepare students for careers in industries such as pharmaceuticals, energy, food processing, environmental protection, and materials manufacturing. It combines rigorous coursework in chemistry, physics, mathematics, and engineering principles with laboratory work and project-based learning to develop both theoretical knowledge and hands-on skills. Students will explore topics such as thermodynamics, fluid mechanics, process design, reaction engineering, materials science, and sustainability. The curriculum emphasizes critical thinking, problem-solving, and innovation, enabling graduates to contribute effectively to technological advancements and process optimization.

Students also have access to state-of-the-art laboratories and research facilities at NYU, encouraging experimental learning and research opportunities. The program encourages interdisciplinary collaboration, often partnering with other departments such as environmental science, computer science, and business to reflect the diverse applications of chemical engineering. NYU’s location in New York City provides unique internship, co-op, and employment opportunities with industry leaders, startups, and research institutions.

The program includes options for students to pursue minors or concentrations in related fields, tailoring their education to specific interests such as biotechnology, renewable energy, or materials engineering. Additionally, the program promotes professional development through seminars, workshops, and industry conferences. Graduates of the chemical engineering program are well-prepared for advanced study or to enter the workforce directly, holding positions in process engineering, research and development, quality control, and technical consulting. NYU supports its students through dedicated advising, career services, and alumni networks to ensure successful transition into the professional world.