Employment directions and prospects in water conservancy and hydropower engineering

School major:

Basic academic system: four years | Enrollment target: | Educational background: technical secondary school | Major code: 081101

Cultivation objectives

Cultivation Objectives

Training Objectives: This major cultivates students with knowledge in water conservancy and hydropower engineering survey, planning, design, construction, scientific research and management, etc., who can adapt to the needs of social and economic development, with a solid foundation and knowledge Senior engineers with broad scope, strong ability, high quality, innovative spirit and ability, international vision and communication skills, and the ability to engage in surveying, planning, design, construction, scientific research and management in water conservancy, hydropower, civil engineering, transportation and other industries. Technical talents and management talents.

Cultivation requirements: Students in this major mainly learn the basic theories and basic knowledge of water conservancy and hydropower projects, receive training in basic skills of water conservancy and hydropower project planning and design, construction and management, and have the ability to survey, plan, and manage water conservancy and hydropower projects. Basic abilities such as design, construction, and management.

Graduates should acquire the following knowledge and abilities:

1. Have good humanities literacy, a strong sense of social responsibility and engineering professional ethics, and the ability to skillfully use a foreign language;

2. Have relevant natural science knowledge and certain economic management knowledge required to engage in engineering work;

3. Master the necessary basic engineering knowledge for the survey, planning, design, construction and management of water conservancy and hydropower projects and river management projects, as well as the basic theories and basic knowledge of this major, and accept the experimental skills, engineering practice, computer applications, scientific research and engineering design of this major. Basic training, with innovative awareness and preliminary ability to conduct research, development and design;

4. Master the basic methods of literature retrieval, data query and the use of modern information technology to obtain relevant information;

5. Understand the national guidelines, policies and regulations on production, design, research and development, environmental protection and sustainable development related to this major and related industries, and be able to correctly understand the impact of engineering on nature and society;

6. Have certain organizational and management capabilities, strong expression and interpersonal skills and team spirit, and have a sound body and good psychological quality;

7. Have a correct understanding of lifelong learning and learning ability, and the ability to adapt to development;

8. Have an international perspective and the ability to communicate, compete and cooperate across cultures.

Main disciplines: water conservancy engineering, civil engineering, and environmental engineering.

Core knowledge areas: water conservancy and hydropower project survey and planning, water conservancy and hydropower project design, water conservancy and hydropower project construction and management, water conservancy and hydropower project operation management.

Core course examples:

Example 1: Introduction to Environmental Studies (36 credit hours), Engineering Drawing (91 credit hours), Engineering Surveying (36 credit hours), Engineering Hydrology (54 credit hours ), engineering geology (hydrological geology hours) (45 credit hours), theoretical mechanics (72 credit hours), materials mechanics (63 credit hours), structural mechanics (63 credit hours), elastic mechanics and finite element (36 credit hours), soil mechanics (45 credit hours) hours), hydraulics (90 hours), engineering materials (45 hours), reinforced concrete structures (63 hours), steel structures (36 hours), electrical engineering (36 hours), engineering economics (36 hours), water resources planning and utilization (36 credit hours), hydraulic structures (63 credit hours), hydropower stations (63 credit hours), water conservancy and hydropower engineering construction (63 credit hours), and engineering project management (54 credit hours).

Example 2: Introduction to Environmental Science (16 credit hours), Engineering Drawing (80 credit hours), Engineering Surveying (32 credit hours), Engineering Hydrology (32 credit hours), Engineering Geology (Hydrogeology Hours) ( 32 credit hours), theoretical mechanics (72 credit hours), mechanics of materials (64 credit hours), structural mechanics (72 credit hours), elastic mechanics and finite element (32 credit hours), soil mechanics (56 credit hours), hydraulics (72 credit hours), engineering Materials (24 credit hours), Reinforced Concrete Structure (56 credit hours), Steel Structure (32 credit hours), Electrical Engineering (32 credit hours), Engineering Economics (32 credit hours), Water Resources Planning and Utilization (48 credit hours), Hydraulic Structures (64 credit hours), Hydropower Station (64 credit hours), Water Conservancy and Hydropower Engineering Construction (56 credit hours), Engineering Project Management (24 credit hours).

Example 3: Introduction to Environmental Science (32 credit hours), Engineering Drawing (88 credit hours), Engineering Surveying (40 credit hours), Engineering Hydrology (40 credit hours), Engineering Geology (Hydrogeology Hours) ( 40 credit hours), theoretical mechanics (80 credit hours), mechanics of materials (80 credit hours), structural mechanics (72 credit hours), elastic mechanics and finite element (72 credit hours), soil mechanics (64 credit hours), hydraulics (72 credit hours), engineering Materials (32 credit hours), Reinforced Concrete Structure (56 credit hours), Steel Structure (32 credit hours), Electrical Engineering (40 credit hours), Engineering Economics (32 credit hours), Water Resources Planning and Utilization (40 credit hours), Hydraulic Structures (88 credit hours), Hydropower Station (56 credit hours), Water Conservancy and Hydropower Engineering Construction (56 credit hours), Engineering Project Management (32 credit hours).

Main practical teaching links: course internships (engineering surveying, engineering geology, computer applications, etc.), course experiments (college physics, college chemistry, materials mechanics, etc.), professional internships (cognition internships, production internships) , course design and graduation project (thesis), etc.

Main professional experiments: hydraulic experiments, engineering mechanics experiments, engineering materials experiments, soil mechanics experiments, hydraulic building experiments, hydropower station experiments, etc.

Length of study: four years.

Degree awarded: Bachelor of Engineering.

Professional ability requirements

Professional ability requirements

Main content of professional teaching

Main content of professional teaching

《 "Engineering Surveying", "Dynamics", "Reinforced Concrete", "Structural Dynamics", "Hydraulic Architecture", "Engineering Hydrology", "Hydraulic Engineering Economics", "Hydraulic Building Design", "Hydropower Station" Buildings", "Structural Design and Application"

Professional (Skills) Direction

Professional (Skills) Direction

Engineering enterprises: construction, water conservancy engineering, Hydropower engineering, engineering technology, engineering design, engineering survey, construction management; Government and public institutions: engineering supervision, water conservancy planning, hydropower development.

Examples of vocational qualification certificates

Examples of vocational qualification certificates

Examples of continuing study majors

Employment direction

Employment Direction

With the serious shortage of water resources and the increasingly intensifying energy crisis in my country and even the world, clean renewable energy and optimal allocation of water resources have become top priorities, which gives this major a broad development prospect. Graduates of water conservancy and hydropower engineering can engage in related design, construction, management, marketing, and teaching work in water conservancy and hydropower engineering management, design, scientific research institutions, enterprises, institutions, and colleges and universities. Can engage in related work in civil construction, transportation and municipal engineering and other industries, such as owner units, such as Three Gorges Development Corporation, Ertan Hydropower Development Company, etc. These units are the investment units in hydropower projects. Therefore, the treatment in these units is relatively good. Work easy. But it is also at a project site or at a hydropower station. Design units, many hydropower design institutes. Due to the upsurge of hydropower development in recent years, these units have many projects and receive good treatment. Supervision units, due to the particularity of hydropower projects, the state mandates supervision. People from the supervision unit also stay at the construction site all year round, but their work is easier than that of the construction unit. Construction units, various hydropower engineering bureaus, etc. Construction units are also the units where most graduates of hydraulic engineering majors go, but the work tasks of this type of work are heavy and the pay is relatively low. However, since we are on the front line of hydropower construction and exposed to many engineering practices, it is easy to accumulate a lot of experience.

Employment prospects of water conservancy and hydropower engineering majors

Our country is now in a new round of hydropower development climax. It can be said that the employment prospects of most graduates of water conservancy and hydropower engineering majors are still very good. Okay! So graduates majoring in water conservancy and hydropower engineering are basically in short supply, but graduates majoring in water conservancy and hydropower engineering are still very worried about finding a job. This is closely related to the working environment and nature of work in the water conservancy and hydropower engineering major. Generally speaking, hydropower is located in high mountains and canyons, inaccessible to people, and the working environment is relatively harsh. Hydropower projects are far away from cities, and the work is boring. Moreover, as a hydropower builder, vacations are basically not guaranteed. You are on the construction site all year round, and the time is really long. Will be unable to adapt to city life. Therefore, it is not easy for most graduates majoring in water conservancy and hydropower engineering to find satisfactory and comfortable jobs. Among the professional disciplines, the water conservancy and hydropower engineering major belongs to the water conservancy category of the engineering category. Among them, there are only 5 majors in the water conservancy category. The water conservancy and hydropower engineering major ranks first among the water conservancy majors and ranks 68th among the entire engineering majors. According to statistics, the areas with the best employment prospects for water conservancy and hydropower engineering majors are: Beijing, Guangzhou, Chengdu, Shanghai, Hangzhou, Wuhan, Kunming, Chongqing, Xiamen, and Fuzhou, with an average salary of 5,244 yuan.

Corresponding occupations (positions)

Corresponding occupations (positions) Other information:

Water conservancy and hydropower engineering majors train students with skills in water conservancy and hydropower engineering survey, planning, design, and construction Those who have knowledge in science, research and management, can adapt to the needs of social and economic development, have a solid foundation, broad knowledge and strong abilities, then what are the employment directions for water conservancy and hydropower engineering majors? Employment direction of water conservancy and hydropower engineering majors. After graduation, students majoring in water conservancy and hydropower engineering can find jobs in online media companies, media industry, film and television advertising industry, entertainment and game industry, animation design companies, industrial product design, architectural design (architectural navigation and environmental design), human settlements Jobs in industries such as environmental design and education. Water is a basic element for human survival, and electricity is the main energy source for social development. The water conservancy and hydropower engineering discipline is an engineering science that uses engineering or non-engineering measures to regulate and utilize water energy resources based on the study of the natural characteristics of water. The water conservancy and hydropower engineering major focuses on cultivating students who are engaged in large and medium-sized water conservancy and hydropower hubs and their buildings (including dams, hydropower station buildings, gates and water intake, water diversion, and water discharge buildings, etc.).

As well as senior engineering technical talents in the planning, design, construction, management and scientific research of industrial hydraulic buildings, the study and research directions include hydrology and water resources, water environment, hydraulic structures, hydraulics and fluid dynamics, engineering management, etc. The development trend is the intersection and integration with emerging disciplines such as information technology, reliability theory, and management science. Employment prospects of water conservancy and hydropower engineering majors. Our country is now in the midst of a new round of hydropower development climax. It can be said that the employment prospects of most graduates of water conservancy and hydropower engineering majors are still very good! Therefore, graduates of hydraulic engineering majors are basically in short supply. type, but graduates majoring in water conservancy and hydropower engineering are still very worried about finding a job. This is closely related to the working environment and nature of work in the water conservancy and hydropower engineering major. Generally speaking, hydropower is located in high mountains and canyons, inaccessible to people, and the working environment is relatively harsh. Hydropower projects are far away from cities, and the work is boring. Moreover, as a hydropower builder, vacations are basically not guaranteed. You are on the construction site all year round, and the time is really long. Will be unable to adapt to city life. Therefore, it is not easy for most graduates majoring in water conservancy and hydropower engineering to find satisfactory and comfortable jobs.