Bachelor of Science in Chemical Engineering Undergraduate Program By Illinois Institute of Technology |Top Universities

Bachelor of Science in Chemical Engineering

Subject Ranking

# 351-400QS Subject Rankings

Tuitionfee

48,670 USDTuition Fee/year

Scholarship

YesScholarships

Main Subject Area

Engineering - ChemicalMain Subject Area

Program overview

Main Subject

Engineering - Chemical

Degree

BSc

Study Level

Undergraduate

Study Mode

On Campus

In addition to the fundamentals of science, math, and engineering, the chemical engineering curriculum emphasizes applications of transport processes, thermodynamics and kinetics, automatic control, and design. The degree program emphasizes coursework in equipment design, control-system design, fluid mechanics and heat-transfer operations, mass-transfer operations, and chemical reaction engineering. The capstone design courses integrate these design concepts and practice process design and optimization. Chemical engineering is concerned with the design, development and management of facilities that convert raw materials into useful products. The engineer must assume responsibility for the economical use of the raw materials, preservation of the environment, and profitability of the operation. The chemical engineering program has been designed to provide both the engineering competence and the professional skills necessary to succeed in this endeavor. In order to achieve this objective, the curriculum incorporates coursework in both of these areas throughout the four-year duration of the program. PROGRAM EDUCATIONAL OBJECTIVES The undergraduate program in chemical engineering provides students with an excellent foundation in chemical and biological engineering fundamentals that allows them to prepare for careers in professional practice and/or for advanced studies. We expect our graduates to meet the challenges associated with their individual career paths and possess the skills necessary for success in the workplace. The educational objectives of our undergraduate program are: Graduates will meet the expectations of employers of chemical engineers Qualified graduates will pursue advanced study if they so desire Graduates will assume / undertake leadership roles in their communities and/or professions. Based on these objectives, the expected program outcomes aim at developing individuals who: possess fundamental knowledge of mathematics, the basic sciences and engineering. possess fundamental knowledge of chemical engineering. possess the necessary skills to design processes that are safe, economic, technically sound and environmentally benign. have been trained to fully utilize recent advances in computational technologies in their work. possess a good familiarity with experimental and analytical methods and techniques. have been trained to fully utilize modern communication technologies and who communicate effectively. possess the ability to work in intra-disciplinary and multi-disciplinary teams and possess leadership skills. have an understanding and respect for professional ethics and possess an awareness of the present-day societal issues of relevance to chemical engineers. have the ability and desire to further their education through the process of “Life Long Learning” and possess the necessary skills to be involved in research and development activities, if they so desire. SPECIALIZATION In addition to the core curriculum, special programs exist to accommodate students who want to develop more extensive background in related areas. With their exposure to a wide range of industrial applications and problems, students are better equipped to make a decision to explore an area of interest in depth. Professional specializations are available in: Energy/Environment/Economics (E3) Environmental Engineering Polymer Science and Engineering Bioengineering Process Design and Operation

Program overview

Main Subject

Engineering - Chemical

Degree

BSc

Study Level

Undergraduate

Study Mode

On Campus

In addition to the fundamentals of science, math, and engineering, the chemical engineering curriculum emphasizes applications of transport processes, thermodynamics and kinetics, automatic control, and design. The degree program emphasizes coursework in equipment design, control-system design, fluid mechanics and heat-transfer operations, mass-transfer operations, and chemical reaction engineering. The capstone design courses integrate these design concepts and practice process design and optimization. Chemical engineering is concerned with the design, development and management of facilities that convert raw materials into useful products. The engineer must assume responsibility for the economical use of the raw materials, preservation of the environment, and profitability of the operation. The chemical engineering program has been designed to provide both the engineering competence and the professional skills necessary to succeed in this endeavor. In order to achieve this objective, the curriculum incorporates coursework in both of these areas throughout the four-year duration of the program. PROGRAM EDUCATIONAL OBJECTIVES The undergraduate program in chemical engineering provides students with an excellent foundation in chemical and biological engineering fundamentals that allows them to prepare for careers in professional practice and/or for advanced studies. We expect our graduates to meet the challenges associated with their individual career paths and possess the skills necessary for success in the workplace. The educational objectives of our undergraduate program are: Graduates will meet the expectations of employers of chemical engineers Qualified graduates will pursue advanced study if they so desire Graduates will assume / undertake leadership roles in their communities and/or professions. Based on these objectives, the expected program outcomes aim at developing individuals who: possess fundamental knowledge of mathematics, the basic sciences and engineering. possess fundamental knowledge of chemical engineering. possess the necessary skills to design processes that are safe, economic, technically sound and environmentally benign. have been trained to fully utilize recent advances in computational technologies in their work. possess a good familiarity with experimental and analytical methods and techniques. have been trained to fully utilize modern communication technologies and who communicate effectively. possess the ability to work in intra-disciplinary and multi-disciplinary teams and possess leadership skills. have an understanding and respect for professional ethics and possess an awareness of the present-day societal issues of relevance to chemical engineers. have the ability and desire to further their education through the process of “Life Long Learning” and possess the necessary skills to be involved in research and development activities, if they so desire. SPECIALIZATION In addition to the core curriculum, special programs exist to accommodate students who want to develop more extensive background in related areas. With their exposure to a wide range of industrial applications and problems, students are better equipped to make a decision to explore an area of interest in depth. Professional specializations are available in: Energy/Environment/Economics (E3) Environmental Engineering Polymer Science and Engineering Bioengineering Process Design and Operation

Admission requirements

6.5+
90+
Other English Language Requirements:  A TOEFL score of 550 on the paper test; 213 on the computer-based test.
Sep

Tuition fee and scholarships

Domestic Students

48,670 USD
-

International Students

48,670 USD
-

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