Main course 1. Principles of chemical engineering: This paper mainly introduces the basic principles of each chemical unit operation, typical equipment and its calculation, operation factor analysis of main unit operation and operation adjustment principle; Development trend of new technology and equipment and energy-saving measures. 2. Fundamentals of Chemical Equipment Mechanics: Based on the membrane stress theory, this course introduces the design and calculation of thin-walled vessels and their accessories and the selection of standard parts, so that students can master the strength design methods, structures and mechanical design methods of low and medium pressure vessels such as tubular heat exchangers, tower equipment and mixing equipment. 3. Chemical technology: This paper mainly discusses the production process, process calculation, production principle and process, application fields and detection methods of typical organic and inorganic chemical products, so as to lay a solid technical foundation for chemical engineering students. 4. Petroleum refining engineering: chemical composition and properties of petroleum and its products, petroleum distillation, fuel production and lubricant production, etc. 5. Physical chemistry: The main contents include gas state equation, the first law of thermodynamics, the second law of thermodynamics, chemical equilibrium, thermodynamics and phase equilibrium of multicomponent systems, electrochemistry, surface phenomena, chemical kinetics and colloid chemistry. 6. Fundamentals of industrial catalysis: mainly teaching catalysis and catalysts, adsorption and heterogeneous catalysis, various catalysts and their catalysis, preparation and use of industrial catalysts, activity evaluation and macroscopic physical characterization of industrial catalysts, etc. Introduction to the main practical teaching links 1. Electrician practice provides students with practical training in the use of common electrician tools, lighting, installation of internal and external wires and cables, installation of switches, relays and control panels, and handling of control circuit faults. 2. Metalworking practice makes students familiar with the basic knowledge of mechanical manufacturing technology, and understand the knowledge of mechanical processing equipment, tools and operation safety. Strengthen the practical ability, the ability to analyze and solve problems, and accept the cultivation of ideological style to lay the necessary foundation for future work. 3. Organic synthesis practice Organic synthesis practice is a part of the practical training of professional basic courses. The purpose is to cultivate students' rational understanding and knowledge of typical operations and typical reactions in organic reactions. Its task is to let students learn to handle chemicals, cultivate their experimental skills and skills, and skillfully use conventional instruments. 4. The task of course design is to cultivate students' ability to solve technical problems related to heat exchangers and kettle reactors by comprehensively applying their professional theoretical knowledge and practical skills in production practice. 5. The practice of chemical engineering major mainly includes the synthesis and application of surfactants, the synthesis of chemical intermediates, the synthesis of adhesives, the preparation of coatings, the preparation of cosmetics and the synthesis of industrial additives. , master the laboratory synthesis and compounding technology, and combine the industrial equipment of the practice base to understand the characteristics and technology of each link from research and development to pilot scale-up to industrial production. 6. Production practice through on-site visits and listening to the explanations of front-line engineers and technicians, students have a preliminary understanding of the industry characteristics, enterprise observation, enterprise management status, product types, production equipment types, raw material characteristics, process and technical characteristics of this major and similar majors, thus stimulating professional interest, clarifying the learning direction of professional courses, testing the learning effect of theoretical courses, and laying a foundation for learning professional courses well. 7. Graduation design Graduation design is an important link to cultivate students' comprehensive professional application ability and practical problem solving ability. Design topics mainly come from production, engineering practical projects and scientific research projects. Students are required to complete the design independently, write complete graduation design papers and reports, and attach foreign translation materials.