Basic academic system: four years | Enrollment target: | Education: technical secondary school | Professional code: 080206

Training objectives

Training objectives

Training objectives: This major trains high-quality compound engineering professionals with basic knowledge of natural science, engineering technology and science, as well as professional knowledge and practical ability of process equipment and control engineering, who can engage in research and development, design and manufacture, monitoring and control, safety guarantee, operation and maintenance of process equipment in chemical industry, petrochemical industry, metallurgy, light industry, energy, pharmacy, environmental protection, building materials and other fields. , as well as education, management or entering related disciplines for further study.

Training requirements: Students in this major mainly study the basic theories and knowledge of mechanical engineering, thermal energy engineering, technological process and control, receive the basic training of computer technology, mechanical engineering technology, process (chemical) engineering technology and monitoring technology, and master the basic abilities of mechanical design, process equipment and control design.

Graduates should have the following knowledge and abilities:

1. Master the basic theories and knowledge of mechanics, engineering drawing, mechanical design, engineering materials, process principle, electrical and electronic technology, detection and control technology, process equipment technology, etc.

2. Be familiar with the design methods and related standards of process equipment, especially pressure vessels, and be able to design, manufacture, monitor, evaluate and manage process equipment according to process requirements;

3. Familiar with machining technology and mechanical design methods and related design standards;

4. Understand the modern design methods, frontier disciplines, development trends at home and abroad and industry demand of process equipment and control, and have the preliminary ability to develop advanced process equipment and its complete sets of technologies;

5. Have the awareness of safety, environmental protection and sustainable development, and have the basic knowledge to ensure the safety and reliability of process equipment;

6. Have good physical and mental qualities and humanities and social sciences, and have a strong sense of social responsibility and professional ethics;

7. Be able to use modern information technology to obtain relevant information, have the ability to expand knowledge and cross-disciplinary and cross-cultural learning and communication, and have the awareness and ability of lifelong learning;

8. Have certain ability of scientific research and solving practical engineering problems, certain critical thinking ability, certain international vision and international communication ability.

Main subjects: mechanical engineering, power engineering and engineering thermophysics, chemical engineering and technology, safety science and engineering.

Core knowledge field: This major organically and closely combines three related knowledge fields: process, equipment and control, and it is a compound interdisciplinary major with machinery as the mainstay and technology and control as the supplement. The core knowledge field of this major involves the basic theories and knowledge of mechanical engineering, thermal energy engineering, technological process and control, including engineering mechanics, engineering drawing, mechanical design, engineering materials, chemical (or other industrial) processes, detection and control technology, process equipment technology and other knowledge fields. In addition, this major also involves mechanical processing and mechanical design, process equipment, especially pressure vessel design and other engineering technologies.

Example of core courses:

Example 1: engineering drawing (40 class hours), engineering training (24 class hours), engineering chemistry (32 class hours), mechanical drawing and CAD foundation (24 class hours), material mechanics (64 class hours), material mechanics experiment (8 class hours), theoretical mechanics (64 class hours), mechanical design (72 class hours) and process engineering principle (72 class hours) Mechanical manufacturing foundation (32 hours), process equipment CAD(32 hours), process equipment control technology (48 hours), process equipment design (48 hours), process machinery (48 hours).

Example 2: Modern Engineering Graphics (96 hours), Theoretical Mechanics (56 hours), Engineering Materials (32 hours), Material Mechanics (72 hours), Mechanical Principles (56 hours), Mechanical Manufacturing Technology (40 hours), Chemical Engineering Principles (1 12 hours) and Mechanical Design (60 hours)

Example 3: Engineering Graphics (96 hours), Theoretical Mechanics (72 hours), Material Mechanics (72 hours), Fundamentals of Chemical Engineering (48 hours), Interchangeability and Measurement Technology (40 hours), Engineering Materials and Heat Treatment (32 hours), Engineering Material Molding Technology (32 hours), Mechanical Design Foundation (72 hours), Fluid Mechanics (32 hours)

Main practical teaching links: metalworking practice, cognitive practice, production practice, graduation practice, curriculum design (process principle, mechanical design, process equipment design, etc. ), graduation project (thesis), scientific and technological innovation and social practice.

Main professional experiments: process principle experiment, engineering mechanics experiment, electrical and electronic experiment, mechanical foundation experiment, pressure vessel strength experiment, pressure vessel stability experiment, process fluid mechanical performance test and monitoring experiment, process equipment performance test and monitoring experiment, etc.

Length of study: four years.

Degree awarded: Bachelor of Engineering.

Professional ability requirements

Professional ability requirements

The main contents of professional teaching

The main contents of professional teaching

Tolerance fit and technical measurement, safety and reliability of process equipment, control technology and application of process equipment, design of process equipment, foundation of engineering materials, process fluid machinery, application of engineering materials, fluid machinery and ANSYS engineering software, and mechanical foundation of process equipment are cultivated in the following professional directions: petrochemical machinery.

Major (skill) direction

Major (skill) direction

Mechanical enterprises: mechanical design, mechanical equipment engineering, mechanical research and development, process equipment research and development, technical management; Chemical enterprises: chemical engineering, engineering design, technology development and production technology.

Example of vocational qualification certificate

Example of vocational qualification certificate

Examples of continuing learning majors

Employment direction

Employment direction

Employment direction of process equipment and control engineering specialty

Because this major has penetrated into aviation, aerospace, atomic energy, material metallurgy, chemical industry, pharmacy, petroleum, light industry, environmental protection, food and other fields, vacuum technology and process equipment design and control and many other aspects. It can be said that graduates of this major can go to work as long as they are related to chemical equipment and machinery. Companies or enterprises related to chemical equipment can be divided into three categories: one is chemical equipment manufacturing enterprises, such as pressure vessel manufacturing and air separation equipment manufacturing; The second category is chemical plants, and the graduates of this major are mainly responsible for equipment management; The third category is chemical construction companies (responsible for establishing chemical plants). Graduates are mainly responsible for the overall planning and layout of chemical plants and the installation of chemical equipment. At present, the whereabouts of most graduates are within the above three types of enterprises. If you are interested in design and have a good design foundation, you can choose to work in the design department of chemical machinery manufacturing company, but it needs to be emphasized here that students should master mechanical drawing more accurately and skillfully, and also master some commonly used drawing software, such as CAD, 3D max, pro/E, etc.

Employment prospect of process equipment and control engineering specialty

From the name, it is not difficult to see the interdisciplinary nature of this major. I have explained the control major: those who have studied control know more about machinery than those who have studied chemical engineering, and know more about control than those who have studied machinery and know more about technology than those who have studied control. This is a vivid statement. With the characteristics of comprehensive talents, the over-control students can engage in the work related to these four projects. It's really "the world can do a lot". China's chemical industry is quite prosperous and has maintained a good momentum of development. Coal chemical industry and petrochemical industry basically include all chemical enterprises, and students who control too much can show their talents in these two types of enterprises. Many graduates are assigned to work in management organizations of enterprises, especially middle management, which highlights the advantages of this major. In recent years, the employment form is relatively optimistic, basically reaching more than 90%. However, there are not many high-paying jobs and a wide range of employment.

Corresponding occupation (post)

Corresponding occupation (post)

Other information:

Students mainly study the basic theory and technology of process equipment and control engineering and the design method of related equipment. They are trained by modern mechanical engineers and have the basic ability to engage in various mechanical equipment design and production organization and management. The employment direction of process equipment and control engineering major is mainly engaged in engineering design, technology development, production technology, management and engineering research in chemical industry, petroleum, energy, light industry, environmental protection, medicine, food, machinery, labor safety and other industries.