Basic educational system: four years | Enrollment target: | Education: technical secondary school | Professional code: 08 1002.

Training objectives

Training objectives

Training objectives: This major aims to cultivate the basic theory, professional technical knowledge and practical innovation ability required for the planning, design, construction, installation, equipment debugging, operation management, equipment research and development, product marketing and other work of the building environment control and energy supply system and intelligent building facilities, and can be engaged in the application of composite engineering technology in design and research institutes, engineering companies, equipment manufacturing enterprises and management departments.

Training requirements: Students in this major mainly study the basic theories of natural science, building environment, heat transfer, engineering thermodynamics, fluid mechanics and engineering mechanics, as well as the basic knowledge of architecture, machinery, automatic control and other related fields, receive basic training in engineering design, equipment development and use, construction organization and installation, system operation and debugging of building environment and energy supply system, and master the planning, design, research and development, production, construction and debugging of this major.

Graduates should have the following knowledge and abilities:

1. has good engineering professional ethics, firm pursuit of Excellence, strong patriotism and professionalism, social responsibility and rich humanistic quality;

2. Have natural science knowledge such as related mathematics and certain economic management knowledge required to work in the field of building environment control and energy supply system engineering;

3. Have a good concept of sustainable development of resources, energy, environment and ecology and a sense of engineering quality, occupational health, safety and service;

4. Master solid theoretical knowledge, technical theoretical knowledge and professional technical knowledge of building environment control and energy supply system engineering, and understand the development status and trend of this major;

5. Have the ability to put forward technical solutions for engineering applications by comprehensively applying the professional technical theories learned, and have the ability to solve general professional engineering problems;

6. Have the ability to participate in the design of production and operation systems, as well as the ability to operate and maintain systems, and have the initial ability to carry out product development, design and technical transformation;

7. Have the ability to obtain information and career development;

8 have the initial ability to deal with crises and emergencies in building environmental control, energy supply and energy-saving technology projects;

9. Understand the policies, laws and regulations of relevant industries and technical standards and norms in this field;

10. Have a certain international vision and the initial ability to communicate, compete and cooperate in a cross-cultural environment.

Main subjects: civil engineering, thermal energy.

Core knowledge fields: principles and methods of thermal science, principles and methods of mechanics, principles and control of mechanical, electrical and intelligent control, relevant foundations in the fields of architecture, energy application technology, engineering management and economy, and knowledge of computer application technology.

Example of core courses:

Example 1: engineering thermodynamics (64 hours), heat transfer (48 hours), heat and mass exchange principle and application (48 hours), fluid mechanics (48 hours), fluid transmission and distribution system (48 hours), engineering mechanics (48 hours), mechanical design foundation (I and II) (80 hours), electronics and electronic technology (64 hours).

Example 2: descriptive geometry and engineering drawing (104 class hours), theoretical mechanics (56 class hours), material mechanics (56 class hours), mechanical design basis (48 class hours), automatic control (48 class hours), electrical technology and experiment (68 class hours), electrical and electronic technology and experiment (68 class hours) and engineering thermodynamics (64 class hours). Fluid conveying pipe network (48 hours), heat and mass exchange theory and equipment (48 hours), HVAC (1 12 hours), cold and heat sources (64 hours).

Example 3: heat transfer (64 hours), fluid mechanics (64 hours), engineering thermodynamics (64 hours), building environment (32 hours), fluid transmission and distribution network (56 hours), heat and mass exchange principle and equipment (32 hours), heating engineering (48 hours), air conditioning (56 hours), boilers and boiler room equipment (48 hours).

Main practical teaching links: experiment, practice, design and social practice, scientific research and training. The experiment includes three links: basic experiment, professional basic experiment and professional and research experiment. Practice includes metalworking practice, professional knowledge practice and production (transportation) practice; Design includes professional course design, graduation design (thesis) and so on.

Main professional experiments: thermal fluid experiment, building environment experiment, HVAC experiment, energy equipment and system 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

Building mechanics, engineering thermodynamics, heat transfer, fluid mechanics, building environment, building environment and energy, heat and mass exchange theory and equipment, fluid transmission and distribution pipe network, building environment testing technology and heat pump technology train the following professional directions: building equipment.

Major (skill) direction

Major (skill) direction

Engineering enterprises: thermal energy engineering, air conditioning engineering, heating and ventilating engineering, gas engineering, water supply and drainage engineering, R&D and manufacturing, engineering technology, engineering debugging, operation management and system guarantee; Government and institutions: design and engineering planning of urban heating and gas supply systems and equipment; Home appliance enterprises: technology development and product sales.

Example of vocational qualification certificate

Example of vocational qualification certificate

Examples of continuing learning majors

Employment direction

Employment direction

Employment direction of building environment and energy application engineering specialty

Professional graduates have a wide range of employment and good employment prospects. After graduation, students can engage in the planning and design of heating, ventilation, air conditioning, cold and heat sources, purification, gas, R&D and manufacturing, building installation, operation management and system guarantee in architectural design research and planning management departments, engineering construction companies, equipment manufacturing enterprises and operating companies.

Graduates of this major have a wide range of employment and good employment prospects. Every year, nearly 30% graduates are recommended or admitted to master's degree without examination. This major has the right to award master's and doctoral degrees.

Employment prospect of building environment and energy application engineering specialty

The employment prospect of the specialty of building environment and energy application engineering is very good. After graduation, students will find various jobs, such as construction units, which should be a major employment path for undergraduates. At present, the construction market in China is very prosperous. Under this general trend, many graduates of this major choose this road, and the main way to enter the construction unit is to carry out on-site construction management, and the overall treatment is OK. Air-conditioning companies, many graduates of this major have gone to air-conditioning companies in recent years, mainly to do technology development.

Air-conditioning sales, since the 1990s, many graduates of this major have chosen this employment path, and now they are doing well, with considerable economic income. However, this is mainly about interacting with people, so you should have strong social skills, and it is said that you should also have a lot of alcohol.

Design institute, which should be an ideal employment choice; Colleges and universities, the choice of undergraduate students, are now out of reach;

Civil servants and applying for civil servants are the employment choices of many college graduates at present. If the graduates of this major are admitted to civil servants, they can choose some departments related to their majors, such as the Ministry of Construction.

Self-employment is also a choice for college graduates, which should be decided according to their own conditions and family status.

Corresponding occupation (post)

Corresponding occupation (post)

Other information:

Building environment and energy application engineering belong to engineering. The major of Building Environment and Energy Application Engineering is awarded with a bachelor's degree in engineering, with a professional code of 08 1002, with a four-year schooling. The major of Building Environment and Energy Application Engineering mainly studies the basic knowledge and skills of building physical environment, building energy saving and intelligent technology of building facilities, designs, constructs, debugs and operates public facilities systems such as air conditioning, heating, ventilation, building water supply and drainage, gas supply, etc., and controls the operation of building equipment, so as to achieve the purpose of saving energy and purifying and regulating indoor ambient air.

Material supplement: The major courses of Building Environment and Energy Application Engineering include: building mechanics, engineering thermodynamics, heat transfer, fluid mechanics, building environment, building environment and energy, heat and mass exchange theory and equipment, fluid transmission and distribution pipe network, building environment testing technology and heat pump technology. Some universities follow the following rules. Graduates of this major can enter engineering enterprises and engage in thermal energy engineering, air conditioning engineering, heating and ventilation engineering, gas engineering, water supply and drainage engineering, R&D and manufacturing, engineering technology, engineering debugging, operation management and system guarantee, or engage in urban heating and gas supply system and equipment design and engineering planning.