76 Best Chemical Engineering Bachelor's Degree Programs for 2025

Students specialize in subjects from basic to advanced courses in each of the departments in addition to wide-ranged subjects of natural, cultural, and social sciences. The students acquire theoretical and technical competence as engineers and researchers in their specialized fields in the undergraduate programs. The Graduate School of Science and Engineering helps students to be advanced engineers and researchers that contribute to the development of a sustainable society.

The Chemical Engineering program (International) at Wenzhou University aims to train students who are interested in traditional and newly emerging areas in Chemical Engineering.

Training objectives: to cultivate professional knowledge of new energy materials, nanomaterials, catalytic materials, inorganic materials, such as the structure and performance, processing and preparation, material structure and performance, and strong engineering practice capabilities and innovation awareness. High-quality applied technical personnel engaged in new material design, research and development, technological transformation, analysis and testing, and engineering management in the fields of photovoltaic energy, new energy vehicles, petroleum and petrochemicals, nano-catalytic materials, and new building materials. Main courses: material science and engineering foundation, material preparation, and synthesis design, material processing principles, material characterization methods, computer applications in materials science, new energy materials and applications, battery materials, and technology. Employment direction: New energy battery materials, nanomaterials, petroleum and petrochemical, aerospace, building materials, machinery, electronic information, metallurgy, and other industries engaged in the production of new materials, quality inspection, process, and equipment design, research and development, and management of new materials Management work.

This major cultivates basic theories and basic knowledge in chemistry, chemical engineering and technology; accepts basic training in chemistry and chemical experiment skills, engineering practice, scientific research and chemical design methods; has the ability to engage in chemical production technology management and scientific research , Engineering design, technology development and product marketing capabilities.

Scripps offers the opportunity to combine a BA degree with a BS degree in engineering, including agreements with Columbia University and Harvey Mudd College. Please refer to the engineering requirements under Science in the Courses.

Bioengineering applies engineering methods and concepts to living systems and their interactions with non-living systems. With the integrated science and engineering skills gained at WSU, our bioengineering graduates are able to make valuable contributions to human and animal health care and environments, bio-based product development, and biotechnology.

Even in this highly digital world, the paper industry continues to thrive and engineers specialized in the field are in high demand. Our ABET* accredited paper science and engineering program combines elements of chemical engineering, environmental science and business management to convert trees into everyday products from shipping and packaging materials to household items and medical supplies.

In the first two years you will study a rigorous and challenging general engineering syllabus, giving you a strong technical foundation across: mechanical engineering. electronics and electrical engineering. electromechanical engineering. software engineering .

The Chemistry and Materials Engineering Program cultivates engineers who can pave the way for their future by acquiring internationality and basic abilities for creating new, valuable chemicals, substances, and materials as well as developing environment-friendly energy conversion technologies, through the attainment of both basic and specialized knowledge of the fields of engineering science (such as mathematics and physics), chemistry, bioengineering, and materials engineering.

The School of Materials Science and Engineering, Yancheng Institute of Technology was founded in 1979. In 1993, the silicate technology major was the first batch of pilot programs for higher engineering teaching reform. In 1996, the major of materials science and engineering began to recruit undergraduates. In 2006, it was awarded the "Specialty of Jiangsu Province". In 2008, it was approved by the Ministry of Education and the Department of Education of Jiangsu Province as the "National Specialty Construction Site" and "Provincial Innovative Experimental Base for Training Models of Higher Education Talents. In 2011, Materials Science and Engineering was approved as “Key Construction Discipline of Jiangsu Province” by the Department of Education of Jiangsu Province. In 2012, Materials Science and Engineering was approved as a key specialty of Jiangsu Province. Listed in the second batch of outstanding engineer education and training programs by the Ministry of Education, approved as a "comprehensive reform pilot" major by the Ministry of Education in 2013, approved as a brand major in Jiangsu Province (Class A) in 2015, and passed the China Engineering Education Professional Certification Association in 2016 Professional certification. In 2019, the material science and engineering major was approved as a first-class undergraduate professional construction project in Jiangsu Province. In 2020, the material science and engineering major passed the professional certification re-evaluation of the China Engineering Education Professional Certification Association. The college has scientific research and innovation platforms such as the Jiangsu University Ecological Building Materials and Environmental Protection Equipment Collaborative Innovation Center, Jiangsu Province New Environmental Protection Key Laboratory, Jiangsu Province Ecological Environmental Materials Key Laboratory, Jiangsu Province Environmental Protection Equipment Public Technical Service Center, Jiangsu Province Straw Ecological Building Material Engineering Center, etc. . Established research directions for environmental protection and energy-saving advanced building materials, functional design and performance control of low-dimensional materials, synthesis and processing of lightweight, high-efficiency and long-life composite materials, and controllable equipment and engineering applications of functional polymer materials. It has a provincial experimental teaching demonstration center-New Materials and Jiangsu Coastal Engineering Construction Experimental Teaching Center. Co-build a "national off-campus practice education base for college students" with China Glass Holdings Limited.

Microsystems engineering makes our lives healthier, happier, more secure, comfortable, more varied, and, not to mention, easier. It enables us to manufacture tiny microcomponents that are 100 times finer than human hair. It makes it possible, for example, to create microsensors and actuators. Combined with electronics, intelligent microsystems that enable ever more complex functions in the smallest of spaces can emerge. Microsystems alter our world Microsystems can be found almost everywhere without your even knowing it: In the car: they trigger airbags, measure whether a vehicle is spinning, and help keep it safe when the roads are slippery. In communications technology: our innovations are helping to make the devices even smaller and more versatile. In medicine: they provide us with a whole laboratory on a microchip and find themselves in prostheses and implants. In the energy sector: our researchers set new standards and enable systems that operate independently without any external power supply. Small technology with huge potential Microsystems engineering is the engineering discipline with the broadest focus: elements from mathematics, physics, chemistry, electrical engineering, and materials science form the cornerstones of exciting innovations. We can help you obtain the necessary skills to develop these versatile systems for the applications of today and tomorrow. Your benefits as a Microsystems Engineering student: With around 440 students and 22 professors, we offer an excellent student-teacher ratio for optimal supervisory support. An interdisciplinary course of study with a well-balanced combination of theory and practice. State-of-the-art equipment with a designated cleanroom: Here you will become familiar with working in this special laboratory environment. Study at one of the world's largest and leading academic research centers in the field of microsystems engineering. The majority of our classes are recorded. You can always repeat the material, independent of time and place, for exam preparation, for instance.

Chemical Engineers are interested in the conversion of raw materials into useful products on an industrial scale. Our graduates take up careers in many different industry sectors including fuel, plastics, pharmaceutical products, food, energy generation (traditional/renewable/ nuclear), water treatment, and environmental protection. Financial institutions and management consultants also employ significant numbers of Chemical Engineers.

The department offers these programs: Robotics Engineering Course, Aerospace Engineering Course, Automotive Engineering Course. In these three streams, students are given the knowledge and technical skills necessary to become mechanical engineers.

This program nurtures high-quality technical talents with a broad adaptability and engineering basic theory and petroleum engineering speciality knowledge, can be engaged in oil and gas drilling in the field of petroleum engineering and completion engineering, production engineering, reservoir engineering, oil chemical aspects of engineering design, construction and management, application research and development of science and technology work.

This major trains high-quality applied talents who are capable of comprehensive development of morality, intelligence, physicality and beauty, possess humanistic spirit, scientific spirit and national unity spirit, and can serve the local economic and social development.

It’s not easy to find engineering programs at a small liberal arts college. Our program — which includes pathways for electrical and mechanical engineering — is unique for just that reason. We cover the technical expertise required for training engineers, but at its core, our program prepares graduates well beyond the basics.

An exceptional community of students, educators and engineering practitioners, the Innova School of Engineering is educating the next generation of engineers to create knowledge and to serve the society.

The undergraduate program has one degree, a B.S. in Chemical Engineering, but two concentration options: (1) Chemical Engineering and (2) Bio-Molecular Engineering. Both concentrations contain the same core chemical engineering courses, but the latter concentration has more of a focus on the increasingly important bio-related areas of chemical engineering.

Chemical engineering deals with the design and development of procedures to create products – products essential to sustaining modern life such as food and fuel. It is the application and combination of chemistry, biology, physics, and math to solve today's most pressing problems. Chemical engineers take raw materials and create everyday, usable products crucial to modern society.

The requirements for the bachelor's degree programs must be completed within four years of first registration, except with the explicit consent of the dean.