MBA Master of Business Administration
Lehigh University's MBA program offers a comprehensive business education that equi...
Bethlehem, Pennsylvania
INTAKE: Jan & Aug
Lehigh University’s Master of Engineering (M.Eng.) in Chemical Engineering program is designed for students seeking to enhance their technical knowledge and practical skills in the field of chemical engineering. This program focuses on providing advanced engineering education with an emphasis on practical applications and industry readiness. It prepares graduates to address complex engineering challenges in various sectors, including pharmaceuticals, energy, materials, and environmental engineering.
ABET Accredited: The M.Eng. in Chemical Engineering program at Lehigh University is accredited by the Accreditation Board for Engineering and Technology (ABET), ensuring that it meets the highest standards of quality and rigor in engineering education. This accreditation signifies that the program provides a comprehensive and well-rounded education that prepares students to excel in the chemical engineering profession.
Curriculum: The curriculum of the M.Eng. in Chemical Engineering program at Lehigh University includes core courses in advanced chemical engineering principles, process design, thermodynamics, reaction engineering, and transport phenomena. In addition to these core subjects, students have the flexibility to choose electives that align with their interests and career goals, such as biotechnology, materials science, and environmental engineering. The program emphasizes hands-on learning through laboratory courses, project-based assignments, and a capstone project that allows students to apply their knowledge to real-world engineering problems.
Research Focus: While the M.Eng. program at Lehigh University is primarily geared towards practical applications and industry readiness, it also incorporates a strong research component. Faculty members are engaged in cutting-edge research across various areas, including nanotechnology, sustainable energy, and advanced materials. Students have opportunities to participate in research projects, contribute to scholarly publications, and present their findings at conferences, thereby enhancing their technical expertise and critical thinking skills.
Industry Engagement: Lehigh University’s strong connections with industry provide students with valuable opportunities for practical experience and professional development. The M.Eng. in Chemical Engineering program includes collaborations with leading companies in the chemical, pharmaceutical, and energy sectors. Students can participate in internships, co-op programs, and industry-sponsored projects, gaining hands-on experience and building professional networks that enhance their career prospects.
Global Perspective: The M.Eng. in Chemical Engineering program at Lehigh University incorporates a global perspective by addressing international trends and challenges in chemical engineering. Students are exposed to global case studies, international best practices, and opportunities for international research collaborations. The program encourages participation in global conferences and exchange programs, providing students with a broader understanding of how chemical engineering principles are applied in different regions and industries around the world.
Bethlehem, Pennsylvania
IELTS 6.5
USD 23850
Postgraduate Entry Requirements
Application Fee: $50
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 80% or above in their bachelor's degree.
English Language Proficiency:
Lehigh University provides various scholarship opportunities to support international students in their academic journey. These scholarships are designed to alleviate financial burdens and recognize exceptional academic achievements.
Merit-Based Scholarships: Lehigh offers merit-based scholarships that are awarded based on academic performance, leadership qualities, and other achievements. These scholarships are highly competitive and are automatically considered during the admissions process.
Need-Based Financial Aid: Although primarily need-based financial aid is available, Lehigh University assesses each student’s financial situation to determine eligibility for aid. International students must submit financial documentation to be considered for need-based assistance.
External Scholarships: International students are also encouraged to apply for external scholarships from organizations and foundations outside the university. Lehigh’s Office of International Students and Scholars (OISS) provides guidance and resources to help students find and apply for these opportunities.
Specialized Programs: Certain programs and departments at Lehigh offer their own scholarships for international students. These can be based on academic performance in specific fields or contributions to the university community.
Graduates of Lehigh University’s Master of Engineering (M.Eng.) in Chemical Engineering program are well-prepared for a variety of career paths in different industries due to their advanced technical skills, practical experience, and industry engagement.
Process Engineer: Process engineers design, optimize, and oversee chemical processes used in manufacturing industries such as pharmaceuticals, petrochemicals, food and beverages, and materials. They ensure processes are efficient, safe, and cost-effective, aiming to improve production methods and product quality.
Project Engineer: Project engineers manage engineering projects, from planning and design to implementation and completion. They coordinate with different teams, manage budgets and timelines, and ensure project objectives are met. This role is essential in industries like construction, oil and gas, and manufacturing.
Chemical Engineer: Chemical engineers apply their expertise to solve problems involving the production or use of chemicals. They work in various sectors, including energy, environmental engineering, consumer goods, and healthcare, focusing on process design, product development, and quality control.
Research and Development (R&D) Scientist: R&D scientists work on developing new products, processes, and technologies. They conduct experiments, analyze data, and collaborate with cross-functional teams to bring innovative solutions to market. This role is crucial in biotechnology, renewable energy, and advanced materials industries.
Environmental Engineer: Environmental engineers develop solutions for environmental challenges such as pollution control, waste management, and sustainable development. They work to minimize the environmental impact of industrial processes and promote sustainability in various industries.
Quality Control Engineer: Quality control engineers ensure that products meet industry standards and regulations. They develop and implement quality assurance protocols, conduct inspections, and analyze data to identify and resolve quality issues. This role is vital in the pharmaceutical, food production, and manufacturing industries.
Biochemical Engineer: Biochemical engineers specialize in processes involving biological organisms or molecules. They work in fields such as pharmaceuticals, biotechnology, and biofuels, focusing on the development and optimization of biological products and processes.
Energy Engineer: Energy engineers work on projects related to energy production, conservation, and efficiency. They may be involved in designing and optimizing renewable energy systems, such as solar, wind, and bioenergy, or improving the efficiency of traditional energy sources.
Consulting Engineer: Consulting engineers provide expert advice to organizations on various technical and operational issues. They may work on process optimization, regulatory compliance, or technology implementation. Consulting roles offer opportunities to work on diverse projects across different industries.
Technical Sales Engineer: Technical sales engineers combine their engineering expertise with sales skills to help companies sell complex technical products and services. They work closely with clients to understand their needs and provide tailored solutions, often in industries like chemical manufacturing, energy, and industrial equipment.
Academia and Research: Graduates interested in research and teaching may pursue careers in academia. They can become professors, lecturers, or researchers at universities and research institutions, contributing to the advancement of chemical engineering knowledge and educating future engineers.