Basic educational system: four years | Enrollment target: | Education: technical secondary school | Professional code: 08 1402.

Training objectives

Training objectives

Training objectives: This major trains students to have solid basic knowledge of mathematics, physics, chemistry, geology, geophysics and information science. , focusing on mastering professional knowledge such as seismic method, electrical method, electromagnetic method, gravity method, magnetic method, logging, geochemical exploration and remote sensing geology. , and according to the needs of different exploration purposes, field data collection, indoor processing, geological interpretation and information services can be carried out. Cultivate senior exploration engineers who can engage in research and development, information service, management and teaching of related exploration engineering technology and equipment in the fields of engineering construction, resource and energy exploration, environmental assessment, and prevention and control of geological disasters.

Training requirements: graduates of this major are required to master basic knowledge such as mathematics, physics, chemistry, foreign languages, computers and geology, systematically study basic theories and knowledge such as exploration geophysics (hereinafter referred to as geophysical exploration), exploration geochemistry (hereinafter referred to as geochemical exploration) and remote sensing geology, receive basic training for engineers, have good cultural quality, psychological quality and physical quality, and have the basic ability to collect information, process data and apply geology.

Graduates should have the following knowledge and abilities:

1. Be familiar with the principles and policies of the party and the state, understand the excellent traditional Chinese culture, have a strong sense of social service and responsibility, have a good professional ethics, abide by academic ethics and ensure professional ethics;

2. Master the natural science knowledge such as mathematics, physics and chemistry and the basic knowledge of computer information technology required for exploration technology and engineering work;

3. Systematically master the principles, methods and technologies of seismic method, electrical method, electromagnetic method, gravity method, magnetic method, logging, geochemical exploration and remote sensing geology;

4. Having received good training in exploration technology and engineering, having certain ability to solve practical problems, being able to optimize working methods and design work plans according to the needs of various geological explorations, and having practical working ability to collect, process and interpret geophysical and geochemical data;

5. Understand the new technologies and development trends of resource exploration and engineering exploration at home and abroad, and have the ability to use modern information technology for data query and document retrieval;

6. Understand the technical standards, policies, laws and regulations of this major and related industries, and have the ability to engage in management work in this major and related fields;

7. Have a certain international vision and strong communication, competition and teamwork skills;

8. Have a strong sense of innovation and initial innovation ability.

Main disciplines: geological resources and geological engineering.

Core knowledge fields: geological foundation, information and computing science foundation, field theory foundation, seismic exploration, electric electromagnetic exploration, gravity exploration, magnetic exploration, radioactive geophysical exploration, geochemical exploration principles and methods, remote sensing principles and geological applications. The first three core knowledge fields constitute the professional foundation of this major, and the last seven core knowledge fields constitute professional theoretical knowledge, covering the principle, data acquisition, data processing and interpretation of each method.

Example of core courses:

Example 1: geological foundation (120 class hours), geophysical field theory (96 class hours), digital signal processing foundation (48 class hours), radioactive and geothermal exploration (64 class hours), gravity and magnetic exploration principles and methods (48 class hours), electrical exploration principles and methods (48 class hours), and surface seismic exploration principles and methods (48 class hours). Electronic technology (80 hours), gravity and magnetic exploration data processing and interpretation (32 hours), drilling geophysical data processing and interpretation (32 hours), electrical exploration data processing and interpretation (32 hours), seismic exploration data processing and interpretation (32 hours), engineering and environmental geophysics (48 hours).

Example 2: introduction to geophysics (40 hours), general geology (48 hours), surveying (40 hours), mineral petrology (48 hours), structural geology (48 hours), digital signal processing (48 hours), elastic wave theory (48 hours), electromagnetic field theory (32 hours), potential field theory (32 hours), and so on. Geophysical exploration experiment (24 hours), processing and interpretation of gravity and magnetic data (32 hours), processing and interpretation of electrical data (40 hours), acquisition and processing of seismic data (56 hours), interpretation of seismic exploration data (32 hours), geophysical logging (56 hours) and introduction to remote sensing.

Example 3: circuit and analog electronic technology (72 hours), digital electronic technology (56 hours), signal analysis and processing (72 hours), general geology and structural geology (64 hours), sedimentary rocks and sedimentary facies (48 hours), elasticity (40 hours), seismic exploration principle (60 hours), introduction to geophysical logging (64 hours), gravity and gravity.

Main practical teaching links: indoor teaching experiment, field geological basic practice, field professional teaching practice, production practice, graduation project (thesis) and so on.

Main experiments: understanding and operation of geophysical instruments, determination of geotechnical properties, verification of rock specimens, forward modeling of typical geological bodies, geophysical and geochemical exploration and remote sensing geological data collection and processing methods.

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

Engineering geology, geological interpretation of logging data, principles of seismic exploration, comprehensive interpretation and digital processing of logging data, dip logging, logging instruments, engineering geological technology, comprehensive logging and gas logging, digital signal processing foundation, and cultivation of sedimentary rocks and sedimentary facies: geophysical exploration, drilling engineering and earth exploration.

Major (skill) direction

Major (skill) direction

Engineering enterprises: resource exploration, geotechnical engineering, drilling engineering, oil field development, pile foundation engineering, foundation pit engineering, engineering exploration and hydraulic facilities construction.

Example of vocational qualification certificate

Example of vocational qualification certificate

Examples of continuing learning majors

Employment direction

Employment direction

Employment direction

After graduation, students majoring in exploration technology and engineering can go to resource exploration, engineering exploration, management and other units to engage in various resources exploration and evaluation, management and engineering exploration, design, construction and supervision.

Employment position

Geological engineer, technical engineer, project manager, deepening designer, geological environment engineer, wireless communication design engineer, lighting electrical engineer, electrical engineer, network field engineer, senior geological engineer, elevator installation manager, energy saving engineer, etc.

Corresponding occupation (post)

Corresponding occupation (post)

Other information:

The employment of exploration technology and engineering is relatively narrow, and graduates can engage in scientific research, teaching, technology development and management in scientific research institutions, universities or technical administrative departments in the fields of exploration technology and engineering such as engineering exploration and resource exploration. After graduation, students majoring in exploration technology and engineering can go to resource exploration, engineering exploration, management and other units to engage in various resources exploration and evaluation, management and engineering exploration, design, construction and supervision. The professional positions of exploration technology and engineering include geological engineer, technical engineer, project manager, deepening designer, geological environment engineer, wireless communication design engineer, lighting electrical engineer, electrical engineer, network field engineer, senior geological engineer, elevator installation manager, energy-saving engineer, etc.