Chemical Engineering

1. Program Positioning

The areas entailed in Chemical Engineering (hereinafter referred as “CE”) are extensive, including energy (battery technology, renewable energy, solar energy, etc.), water treatment (desalination, wastewater treatment), polymers, micro-electric, nanotechnology, drug production, and biotechnology, petroleum chemical products, safety, and environmental protection, etc.

The Wolfson Chemical Engineering Faculty of the Technion was founded in 1952 and is the first Chemical Engineering program in Israel, which has had major influences on industries in Israel. The main teaching ideas of this program are to base on the advanced research and teaching management experience of the Wolfson Chemical Engineering Faculty and actively cultivate talents to meet local economical and industrial developments challenges.

Guangdong Province is an influential economic as well as a chemical engineering, energy, and medicine industry province in China, hence an enormous need for high-level research technology people with a chemical engineering background. This program seeks to achieve advanced international standards and is a discipline combining chemical, biochemistry, and engineering tools. The program courses include traditional fundamental chemistry as well as engineering, merged with high-level theory and tools e.g., nanotechnology, biomedical engineering, water desalination technology, and new energy.

By absorbing and utilizing the program development and the talent cultivation experience of the Chemical Engineering Department of the Technion, this program is committed to cultivating high-level engineering scientific and technological talents with a solid knowledge base, broad international vision, and creative thinking. They will be able to make a tremendous contribution to serve the industrial innovation of the eastern Guangdong region and even China as the graduates from the Technion has been doing for Israel’s economic development.

The program conducts cutting-edge research in many research fields which include: 1. Multiphase process engineering; 2. Membrane separation technology; 3. Polymer rheology and processing; 4. Modern catalytic technology; 5. Biotechnology metabolic engineering. The faculty has made remarkable scientific research achievements in related fields. In the past four years, they have published more than 100 papers in the world's top chemical environment journals, and have guided many graduate students.

In 2018, the two disciplines "Chemical Engineering and Technology" and "Environmental Engineering", were both listed as provincial key disciplines, which played an important role in supporting and promoting the construction and development of the study program. In 2021, the CE program has been selected as the provincial-level first-class undergraduate program development site, which reflects the initial results of GTIIT's undergraduate program’s development.

2. Talent-cultivation Goal

The CE program aims to train the high-level engineering scientific and technological talents that can flexibly and comprehensively use basic subject knowledge such as chemistry, physics, biology, and mathematics to effectively solve key engineering problems related to R&D, production, and environmental protection in a variety of industries locally and even around the world.

The CE program is dedicated to training students to become highly qualified chemical engineers capable of processing from initial design, production process development, waste gas, and wastewater treatment to product completion. Graduates will be able to work in industries such as energy, environment, materials, semiconductor manufacturing, biomedicine, food, etc., as well as in engineering design departments or government regulatory agencies.

Graduates of this program may choose to pursue further studies in advanced separation engineering, nanotechnology, polymers and plastics, bioengineering, biomedical engineering, chemical process optimization, safety, water and wastewater treatment and management, climate change, energy, etc. Graduates can apply for a master’s degree from GTIIT, Technion, or other domestic and foreign universities, and especially outstanding undergraduates will be able to apply for a doctorate directly.

3. Cultivation Scheme

Following the corresponding program setting in Technion, students in the program are required to complete 157 credits in four years, including program compulsory courses (130.5 credits), program electives (14.5 credits), and general electives (10 credits).

The course combines basic scientific knowledge with a professional foundation and frontier knowledge. Through professional learning, students can use the theory of the basic subjects of mathematics, physics, chemistry, biology, the formation of mathematical modeling, process simulation, and other aspects of comprehensive ability. They can also effectively solve the key engineering problems involved in the product research and development, production optimization and environmental protection in the process industry of material transformation.

In addition, students must take the ideological and political theory courses and other relevant courses as required by the Chinese Ministry of Education. All courses are taught in English except ideological and political courses and physical education.

4. Course Curriculum

The courses of this study program include basic core courses such as mathematics, physics, and chemistry. And it also contains basic chemical courses such as material balance and energy balance, thermodynamics, and transfer phenomenon, as well as a series of professional comprehensive courses such as process flow and plant design, treatment of specific environmental problems, and application of appropriate processing technology.

Senior students will complete scientific research projects under the guidance of their supervisors, among which many undergraduate students have published academic papers in the world's top journals as the first author. The program has established a joint laboratory with a leading energy company and a biotechnology company in eastern Guangdong in 2021, and set up joint research laboratories in schools and companies at the same time, which provide great convenience for students of the program to directly participate in scientific research activities related to practical applications. It once again reflects the program characteristics of the combination of teaching and research.

The teaching of the program has interdisciplinary characteristics. It contains the content of environmental engineering on top of the chemical technology discipline. Graduates will have the technical ability to reduce water, air, or soil pollution and prevent the deterioration of human settlements.

The program emphasizes lab teaching to enhance students' hands-on practice and the ability to use knowledge to solve practical problems. The teaching hours of lab courses occupy about 40% of the total teaching hours in the 4th to 8th semesters (the total teaching hours of lab and theoretical courses).

Biotechnology and Food Engineering

1. Program Positioning

The BFE Program (named "Biotechnology" in according to MOE catalog) follows the program of the Biotechnology and Food Engineering Faculty of the Technion. The Faculty of Biotechnology and Food Engineering is one of the few faculties worldwide to incorporate areas of biotechnology and food engineering under one combined degree. The faculty has been providing high-level graduate talents that can join both the biotechnology industry (a relatively young industry) and into the food industry.

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In order to train highly skilled engineers in the fields of food and biotechnology, the Program courses cover the content taught by the Technion, providing students' solid foundation in mathematics, physics, chemistry and biology, and engineering. Students learn traditional and modern topics in the fields of biotechnology and food engineering through core courses and advanced courses, and are exposed to cutting-edge technologies and research fields, and gain rich practical experience.

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In 2018, the discipline "Food Science and Engineering" was selected as the Key Discipline. With the strong support of the high-level university construction plan of Guangdong Province, the development of the discipline has been significantly improved, and at the same time, it has also promoted the improvement of program itself. At the end of 2021, the program was recommended by the Guangdong Education Department as the provincial first-class undergraduate program development site.

2. Talent-cultivation Goal

The program cultivates engineers and technical professionals in the fields of biotechnology and food engineering. Its graduates are able to work in the fields of biotechnology and food, and to seek employment in institutions related to food, medicine, cosmetics, environmental protection, or in governmental agencies of food, medicine, agriculture, energy, environment, etc.

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Graduates will become competitive engineers, adapt to the biotechnology and food industry in Guangdong Province and greater China, and will also be welcomed by top universities in the world for postgraduate programs.

3. Cultivation Scheme

The total credits of the four-year undergraduate program are 162, including 144.5 credits of program core courses, 7.5 credits of program electives and 10 GE credits. The scheme is a combination of basic knowledge and advanced theories, as well as a variety of experimental courses to help students hone their practical skills and participate in research projects.

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Students must earn 16 credits of MOE courses. All program courses are taught in English.

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Students who meet the degree requirements will be awarded the bachelor's degree in Biotechnology and Food Engineering from the Technion, and a bachelor's degree in Biotechnology from GTIIT.

4. Course Curriculum

During the first three semesters, all undergraduate students of the program must complete basic science and engineering courses, focusing on mathematics, physics, chemistry and biology. Thereafter, the program offers an interdisciplinary educational plan that includes food engineering, biochemistry, nutrition, molecular biology, biotechnology, and entrepreneurship. Juniors and seniors can take more advanced courses to deepen their expertise and experience, such as Genetics and Advanced Genetic Techniques, Ecological Engineering, Advanced Biomaterials, Agricultural Processing, and relevant research projects. In addition, the program plans to offer other advanced courses such as Tissue Engineering and Synthetic Biology.

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Materials Science and Engineering

The Materials Science and Engineering (hereinafter referred as “MSE”) program was listed as the Key Discipline in 2018 and the First-class Undergraduate Program Development Site in Guangdong Province in 2020. The MSE-led Provincial Key Laboratory of Materials and Technologies for Energy Conversion was approved as one of the Guangdong R&D platforms in 2021 and can provide research, education, and training services for students.

1. Program Positioning

Based on physics, chemistry and engineering, the program aims to let students understand how processing and composition affect the structure, properties and performance of materials, and is a combination of multidisciplinary knowledge and skills.

Specialized courses cover crystal structure and microstructure analysis, materials processing, electrochemistry, diffusion and phase transitions, kinetics and thermodynamics, and polymer properties, aiming to produce outstanding engineers and technologists who can integrate and lead materials research and development and its application in high-tech industries such as semiconductor manufacturing and biomaterials. Students will participate in collaborative R&D projects with industry and master advanced research methods in materials science and engineering.

Compared with MSE teaching programs in other universities in China, the knowledge structure and content of GTIIT MSE program is more advanced. Examples are: (1) the thrust on advanced courses related to micro and nanoelectronics: "Electronic Material Properties", “Experimental Molecular Electronics” "Conductive Atomic Force Microscopy", and other courses that span the field of microelectronics and nanoelectronics; (2) the profound course content, covering some important points that are usually not included in similar undergraduate courses, but are rather offered in graduate studies.

In addition to the excellent and unique teaching program, the MSE department puts a strong emphasis on research. The research activities cover many of utmost importance for Chinese society, and it will empower the industry of China by developing key technologies and building capable professional engineers. MSE has developed cutting edge research in several fields including i) high performance alloys, ii) novel materials for electronics and energy storage, iii) nuclear materials, iv) functional nanomaterials and biomaterials. In addition, MSE provides a broad range of personal and central laboratories for processing and characterization of materials that are equipped with a wide range of advanced equipment, which are supported by experienced global resources from 5 continents.

Recently the Provincial Key Lab of Energy Conversion Materials and Technology has been authorized by the Guangdong Province Department of Science and Technology. It provides a platform strengthening the research and collaboration worldwide. MSE professors also actively carry out the 5-year research project “Provincial Major Project of Basic and Applied Research of Future Functional Materials under Extreme Conditions” recently awarded by Guangdong Province Department of Science and Technology.

2. Talent-cultivation Goal

MSE students will participate in R&D projects, many of which are in cooperation with the industry, and master advanced research methods of materials science and engineering. Graduates of the program can be engaged in academic research or get employed in relevant industries. Material engineers may seek employment in industries and development centers of the following applications: electronics and communication; energy generation, conversion and storage; aerospace or vehicle manufacturing; nuclear industry; polymer nanocomposites and plastic materials; and in pharmaceuticals and biomaterials.

The graduate of the program gains the following expertise.

·         Master the knowledge of mathematics and natural science, the knowledge of engineering technology, and certain knowledge of economics and management required by the professions in this program field.

·         Systematically master the basic theories and knowledge of the materials science and engineering discipline; understand the basic principles of the relationship between materials’ composition, structure, synthesis/production and properties.

·         Master the basic knowledge and skills of preparation, performance testing and analysis of various materials involved in the discipline.

·         Understand the development status and trends of related disciplines in materials; have a sense of innovation; have basic abilities to improve materials performance and product quality, to develop and study new materials and new crafts, to select and use materials according to engineering projects, etc.

·         Develop the skill of innovation and entrepreneurship.

·         Have a sense of lifelong learning; able to use modern information technology to acquire related information, new technologies, and new knowledge to constantly improve personal abilities.

·         Have a global vision, high-level foreign language proficiency, intercultural communications ability and cooperation ability.

3. Cultivation Scheme

Following the program setting in Technion, MSE - GT students need to complete 160 credits of courses in four years, including compulsory courses (131 credits), elective courses (19 credits), general education courses (10 credits). In addition, 16 credits of moral and political theory courses are requested by the China Ministry of Education. The teaching includes theoretical teaching as well as practical teaching. All courses are taught in English except ideological and political courses and physical education.

Upon completing the studies, the students receive two graduation documents – one from the Technion and the other from GTIIT.

4. Course Curriculum

?Mathematics and Applied Mathematics

(The Technion Degree in “Mathematics with Computer Science)

1. Program Positioning

The study program, Mathematics with Computer Science is a prestigious and well established program at the Technion. The study program is characterized by very strong foundations both in mathematics and computer science. On the basis of mastering deep and broad mathematical knowledge, together with all compulsory courses offered by top level computer science programs, students will be able to pursue an academic or industrial career both in Mathematics, computer science and in the important interface between these two disciplines.

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Students who will choose to pursue a professional career in the industry, financial institutions, etc. can further learn professional knowledge related to computer science, laying a solid foundation for working in the computer field.

2. Talent-cultivation Goal

Graduates of the program will master the basic theories and methods of mathematical science, receive systematic training of mathematical thinking, and master the basic thinking and research methods of computer science. Students will have the ability to make full use of mathematical knowledge and use computers to solve practical problems, so as to become senior professionals who can engage in research, development and teaching in scientific technological, educational or economic departments, or engage in practical application, development research and management in production, operation or management departments.

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The program is particularly successful with students who want to be involved with scientific programming or the development of algorithms which involve mathematical thinking. The program is to train the intelligent students to be capable of doing research or pursuing career in mathematics. It can also contribute to the entrance of the career related computer science.

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Students who have completed the proposed degree will be competent to apply to any graduate program in Mathematics or Computer Science. For instance, in order to apply to the graduate programs at the Technion (Math or Computer Science) excellent students will not be required to complete additional undergraduate courses.

3. Cultivation Scheme

Students are required to complete 133.5 credits of courses in four years, including program core courses (112 credits), program elective courses (15.5 credits), and General Education courses (6 credits). Apart from the theoretical teaching, the program offers experiment in computer science, graduation project, etc. as the practical teaching.

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16 credits of moral and political theory courses are requested by the China Ministry of Education. All courses are taught in English except ideological and political courses and physical education.

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Students who meet the credit requirements for the degree will be awarded a bachelor's degree in Mathematics with Computer Science from the Technion and a bachelor's degree in Mathematics and Applied Mathematics of GTIIT.

4. Course Curriculum

The program offers high level courses in the most important areas of mathematics as analysis, algebra, geometry, topology, number theory, combinatorics, probability, modeling and numerical analysis. In the area of computer science the program offers courses in topics as programming, computability and data structure.

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A list of the core courses offered by the program: Analysis, Infinitesimal Calculus 1, 2, 3, Function Theory (complex analysis), Algebra (linear) A, B, Introduction to Group Theory, Introduction to Rings and Fields, Combinatorics, Combinatorial Algorithms; and the courses of Computer Science such as Introduction to Systems Programming and Computer Organization and Programming.

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In addition to the education in Mathematics and Computer science mentioned above, the program offers several courses in Physics and in Chemistry or Biology, these together with courses in General Education and English.

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