地质工程：本科专业人才培养方案

1、地质工程专业本科人才培养方案Undergraduate Program for the Major of Geological Engineering 专业简介(Brief Introduction to the Major)地质工程专业门类为工科，一级学科为地质资源与地质工程。地质工程专业是研究 HYPERLINK /item/%E4%BA%BA%E7%B1%BB%E5%B7%A5%E7%A8%8B%E6%B4%BB%E5%8A%A8/5930828 t _blank 人类工程活动与地质环境之间相互制约关系，主要研究如何获取地质环境条件，并分析研究人类工程活动与地质环境相互制约形式，进而研究

2、认识、评价、改造和保护地质环境。“地质工程”专业是我校最早的部级重点学科“矿产普查与勘探”的主干专业，为国家级特色专业及教育部“专业综合改革试点”专业。1978年开始招收本科生，1998年，按照教育部当年颁布的工科本科引导性专业目录，我校“非金属矿产普查与勘探”专业调整为“地质工程”专业。我校地质工程专业的特色，就是在保持非金属矿产地质与开发利用传统优势和特色的基础上，强化基础地质、拓宽专业方向，形成了在知识培养上注重基础性、宽广性、实用性，在能力培养上突出综合性、创新性的，具有创新潜能的人才培养体系。既突出特色，又适应市场对人才的多方位需求。I. Brief Introduction to

3、the MajorThe major of geological engineering is belong to engineering, and the discipline first level of geological resources and geological engineering. The major of geological engineering studys the mutual restrictive relationship between human engineering activities and geological environment, ho

4、w to obtain geological environment conditions for analyzing and studying the mutual restrictive forms between human engineering activities and geological environment, and the recognition, evaluation, transformation and protection of geological environment. Geological Engineeringis the earliest major

5、 of Mineral Survey and Exploration in our university. It is a national characteristic specialty and a pilot specialty of Comprehensive Professional Reform in the Ministry of Education. Undergraduates have been recruited since 1978. In 1998, the specialty of Survey and Exploration of Non-metallic Min

6、erals in our university has been adjusted to the specialty of Geological Engineering according to the Guiding Specialty Catalogue of Engineering Undergraduates promulgated by the Ministry of Education.On the basis of maintaining the traditional advantages and characteristics of non-metallic mineral

7、geology and development and utilization, our geological engineering specialty strengthens the basic geology and broadens its professional orientation, and forms a personnel training system which pays attention to the basics, extensiveness and practicability in knowledge training, highlights comprehe

8、nsiveness and innovation in ability training, and organically integrates mineral geology and Engineering geology. It not only highlights the characteristics, but also adapts to the multi-dimensional demand of the market for talents.培养目标(Education Objectives)本专业培养德、智、体、美、劳全面发展，具有良好思想道德修养、高度社会责任感，系统掌握

9、地质类专业的基本理论、基本方法和基本技能，知识、能力、素质协调发展，经过相关工程训练，具有较强创新实践能力以及良好的人文与职业素养、具备分析和解决复杂地质工程问题能力，能在地质工程相关领域承担工程勘察、资源开发、设计、施工、管理及研发等工作的高级复合型人才。毕业5年后经过持续学习和工程实践锻炼达到本行业工程师水平。本专业学生毕业5年后应达到以下预期目标：（1）具备良好的职业道德、地质工程师角色意识和强烈的社会责任感；（2）能够运用专业知识，研究和解决地质工程及相关领域的复杂工程问题，具有较强的工程实践能力；（3）具有较强的团队协作、组织管理能力，能够有效地进行交流合作；（4）具有自主学习和终身

10、学习的意识，有不断学习和适应发展的能力；（5）有较强的创新意识与创新能力，在专业领域具有一定的国际视野。.Education ObjectivesThis specialty trains all-round development of morality, intelligence, physique and beauty. It has good ideological and moral accomplishment and a high sense of social responsibility. It systematically grasps the basic theory,

11、basic methods and basic skills of geology specialty, and coordinates the development of knowledge, ability and quality. Through relevant engineering training, it has strong innovative practical ability, good humanistic and professional accomplishment, and has the ability to analyze and solve complex

12、 problems. Qualitative engineering problem ability, can undertake resources development, engineering survey, design, construction, management and research and development in the related fields of geological engineering senior compound talents.Students of this major should have the following abilitie

13、s after five years graduation,(1) Have good professional ethics, geological engineers role consciousness and strong sense of social responsibility;(2) Able to use professional knowledge to study and solve complex engineering problems in geological engineering and related fields, with strong innovati

14、on ability and engineering practice ability;(3) Strong organizational and management skillsforteam work, able to effectively communicate and cooperate;(4) Having the consciousness of self-learning and lifelong learning and the ability of continuous learning and adapting to development;(5) Having str

15、ong innovation consciousness and ability and a certain international vision in the professional field.三、毕业要求(GraduationRequirements)本专业学生通过人文社会科学类、自然科学类、工程基础类、专业基础类、专业类课程的学习和相关实践环节训练，毕业生应获得以下几个方面的知识和能力：（1）能够将数学、自然科学、工程基础和和专业知识用于解决复杂工程问题；（2）能够应用数学、自然科学和工程科学的基本原理，识别、表达、并通过文献研究分析地质工程、资源勘查及矿产资源开发利用等复杂工程

16、问题，并依据相关规范、规程等技术标准，获得有效结论；（3）通过系列课程设计，具备设计解决复杂地质问题方案的能力，并能够在设计环节中体现创新意识，考虑社会、健康、安全、法律、文化以及环境等因素；（4）能够基于科学原理并采用科学方法对地质工程、资源勘查及矿产资源开发利用等复杂工程问题进行研究，包括设计实验、分析与解释数据、并通过信息综合得到合理有效的结论；（5）针对复杂地质问题，能够开发、选择与使用恰当的技术、现代工程工具和信息技术工具，能够理解其适应性与局限性，对复杂地质问题进行预测与模拟；（6）能够基于工程相关背景知识进行合理分析，评价专业工程实践和复杂工程问题解决方案对社会、健康、安全、法律

17、以及文化的影响，并理解应承担的责任；（7）能够理解和评价针对复杂地质问题的的专业工程实践对环境、社会可持续发展的影响；（8）具有人文社会科学素养、社会责任感，能够在工程实践中理解并遵守工程职业道德和规范，履行责任；（9）能够在多学科背景下的团队中承担个体、团队成员以及负责人的角色；（10）能够就复杂地质问题与业界同行及社会公众进行有效沟通和交流，包括撰写报告和设计文稿、陈述发言、清晰表达或回应指令。并具备一定的国际视野，能够在跨文化背景下进行沟通和交流；（11）理解并掌握工程管理原理与经济决策方法，并能在多学科环境中应用；（12）：具有自主学习和终身学习的意识，有不断学习和适应发展的能力。.

18、Requirements for GraduationGraduates of this major should acquire the following knowledge and abilities through the study of Humanities and social sciences, natural sciences, engineering foundation, professional foundation, professional courses and related practice training:(1) Be able to apply math

19、ematics, natural science, engineering foundation and professional knowledge to solve complex engineering problems;(2) Applying the basic principles of mathematics, natural sciences and engineering sciences, we can identify, express and analyze complex engineering problems such as geological engineer

20、ing, resource exploration and mineral resources development and utilization through literature research, and obtain effective conclusions according to relevant technical standards such as codes and regulations.(3) Through a series of curriculum design, we have the ability to design solutions to comp

21、lex geological problems, and can embody innovative consciousness in the design process, taking into account social, health, safety, legal, cultural and environmental factors;(4) Based on scientific principles and using scientific methods to study complex engineering problems such as geological engin

22、eering, resource exploration and mineral resources development and utilization, including designing experiments, analyzing and interpreting data, and obtaining reasonable and effective conclusions through information synthesis;(5) For complex geological problems, we can develop, select and use appro

23、priate technology, modern engineering tools and information technology tools, understand their adaptability and limitations, and predict and simulate complex geological problems.(6) Be able to conduct reasonable analysis based on engineering-related background knowledge, evaluate the impact of profe

24、ssional engineering practices and complex engineering problem solutions on society, health, safety, law and culture, and understand the responsibilities to be undertaken;(7) To be able to understand and evaluate the impact of professional engineering practices on the sustainable development of the e

25、nvironment and Society for complex geological problems;(8) With humanities and Social Sciences literacy, social responsibility, can understand and abide by engineering professional ethics and norms in engineering practice, fulfill their responsibilities;(9) Be able to assume the roles of individuals

26、, team members and leaders in a multidisciplinary team;(10) Ability to effectively communicate and communicate with industry counterparts and the public on complex geological issues, including writing reports and designing manuscripts, presenting speeches, clearly expressing or responding to instruc

27、tions. It has a certain international vision, and can communicate and communicate in cross-cultural context.(11) Understand and master engineering management principles and economic decision-making methods, and can be applied in a multidisciplinary environment;(12) Have the consciousness of self-lea

28、rning and lifelong learning, and have the ability of continuous learning and adapting to development.培养目标实现矩阵（毕业要求与课程的对应矩阵）Realization Matrix of Educational Objectives (Matrix of Graduation Requirements and Courses)（一）毕业要求与课程的对应矩阵Matrix of Graduation Requirements and Courses毕业要求Requirements for Grad

29、uation 指标点（知识与能力要求）Index Point (Requirements for Competence and Knowledge)支撑课程或培养环节Supporting Courses or Training Parts1能够将数学、自然科学、工程基础和专业知识用于解决复杂工程问题。1 Can use mathematics, natural science, engineering foundation and professional knowledge to solve complexengineering problems.1.1掌握数学、自然科学的基本知识，领会数学

30、、物理、化学基本思想方法，能对地质工程问题进行建模和求解。1.1 Obtaining the basic knowledge of mathematics and natural science, understanding the basic ideas and methods of mathematics, physics and chemistry, and can model and solve geological engineering problems.高等数学B1及B2、线性代数、大学物理B1及B2、普通化学B。Advanced Mathematics B1 and B2, L

31、inear Algebra, College Physics B1 and B2, General Chemistry B.1.2掌握工程基础知识，能应用其基本概念、基本原理与方法，针对地质工程相关工程问题进行判别和分析。1.2 Obtaining the basic knowledge of engineering, and can apply its basic concepts, principles and methods to discriminate and analyze the related engineering problems of geological enginee

32、ring.工程力学、工程测量、结构力学、钢筋混凝土结构原理、工程（机械）制图、工程训练E。Engineering Mechanics, Engineering Survey, Structural Mechanics, Structural Principle of Reinforced Concrete, Engineering (Mechanical) Drawing, Engineering Training E.1.3掌握地质工程专业专业基础知识，能针对地质工程相关工程问题进行分析和处理。1.3 Obtaining the basic professional knowledge of

33、 geological engineering, and can analyze and deal with the related engineering problems of geological engineering.普通地质学、矿物学、岩石学、构造地质学、水文地质学、地貌与第四纪地质学、地质勘查技术。General Geology, Mineralogy, Petrology, Tectonic Geology, Hydrogeology, Geomorphology and Quaternary Geology, Geological Exploration Technology

34、.1.4掌握地质工程专业知识，能够综合应用并解决地质工程相关复杂工程问题。1.4 Obtaining the professional knowledge of geological engineering can comprehensively apply and solve the complex engineering problems related to geological engineering.工程地质学、土力学、岩石力学B、基础工程与地基处理、岩土测试技术、工程地质数值模拟、岩土支挡与锚固Engineering Geology, Soil Mechanics, Rock Me

35、chanics B, Foundation Engineering and Foundation Treatment, Geotechnical Testing Technology, Numerical Simulation of Engineering Geological, Geotechnical Support and Anchorage1.5掌握地质工程专业知识，能够综合应用并解决资源勘查相关复杂工程问题。1.5 Obtaining the professional knowledge of geological engineering can comprehensively ap

36、ply and solve the complex engineering problems related to resource exploration.地质勘查技术、矿床学、古生物地层学、勘探地球化学、矿相学、地球化学。Geological Exploration Technology, Mineralogy, Paleobiostratigraphy, Exploration geochemistry, Mineralogy, Geochemistry.2能够应用数学、自然科学和工程科学的基本原理，识别、表达、并通过文献研究分析地质工程、资源勘查及矿产资源开发利用等复杂工程问题，并依据

37、相关规范、规程等技术标准，获得有效结论。2Based on the basic principles of mathematics, natural sciences and engineering sciences, it can identify, express and analyze complex engineering problems such as geological engineering, resource exploration and mineral resources development and utilization through literature re

38、search, and obtain effective conclusions according to relevant technical standards and regulations.2.1能够应用数学和自然科学基本方法，将地质工程问题转化、表述为数学、力学问题进行分析。2.1 The basic methods of mathematics and natural science can be applied to transform and express geological engineering problems into mathematical and mechan

39、ical problems for analysis.概率论与数理统计、大学物理实验B1-B2、普通化学实验B、地球化学。Probability Theory and Mathematical Statistics, ColleagePhysics Experiment B1-B2, General Chemistry Experiment B, Geochemistry.2.2应用工程科学的基本原理，分析地质工程相关问题并获得其解决途径。2.2 Based on the basic principles of Engineering science, the problems related

40、 to geological engineering are analyzed and their solutions are obtained.工程力学、结构力学、土力学、岩石力学B。Engineering mechanics, structural mechanics, soil mechanics, rock mechanics B.2.3能通过文献调研，研究分析复杂工程地质问题，正确表达问题的解决方案，获得有效结果。2.3 Through literature research, research and analysis of complex engineering geologic

41、al problems, correct expression of the solution to the problem, and obtain effective results.基础工程与地基处理、地质工程专业认识实习、地质工程专业生产实习、地质工程专业毕业实习、地质工程专业毕业设计（论文）。Basic Engineering and Foundation Treatment, Understanding Practice of Geological Engineering, Production Practice of Geological Engineering, Graduati

42、on Practice of Geological Engineering and Graduation Design of Geological Engineering.2.4能通过文献调研，研究分析复杂资源勘查问题，正确表达问题的解决方案，获得有效结果。2.4 Through literature research, we can study and analyze complex resource exploration problems, correctly express the solutions to the problems, and obtain effective resu

43、lts.地质勘查技术、矿床学、地质工程专业毕业设计（论文）。Graduation design (thesis) of geological exploration technology, mineral deposit science and geological engineering.3通过系列课程设计，具备设计解决复杂地质问题方案的能力，并能够在设计环节中体现创新意识，考虑社会、健康、安全、法律、文化以及环境等因素。3Through a series of curriculum design, we have the ability to design solutions to com

44、plex geological problems, and can embody innovative consciousness in the design process, taking into account social, health, safety, legal, cultural and environmental factors.3.1能按照相关标准完成地质工程、资源勘查及矿产资源开发利用等工程项目的设计方案。3.1 It can complete the design plan of geological engineering, resource exploration

45、and mineral resources development and utilization projects according to relevant standards.钢筋混凝土课程设计、计算机地质制图课程设计、基础工程与地基处理课程设计、岩土支挡与锚固课程设计、地质勘查技术课程设计。Course design of reinforced concrete, computer geological mapping, basic engineering and foundation treatment, geotechnical support and anchorage, geo

46、logical exploration technology.3.2能针对地质工程、资源勘查及矿产资源开发利用等工程项目的设计、施工、报告编写等工作中的复杂工程问题提出解决方案。3.2 It can solve the complex engineering problems in the design, construction and report compilation of engineering projects such as geological engineering, resource exploration and mineral resources development

47、 and utilization.钢筋混凝土课程设计、计算机地质制图课程设计、基础工程与地基处理课程设计、岩土支挡与锚固课程设计、地质勘查技术课程设计。Course design of reinforced concrete, computer geological mapping, basic engineering and foundation treatment, geotechnical support and anchorage, geological exploration technology.3.3能够在地质工程相关设计中体现创新意识，考虑社会、健康、安全、法律、文化以及环境等

48、因素。3.3 It can embody innovative consciousness in relevant design of geological engineering, taking into account factors such as society, health, safety, law, culture and environment.创新创业基础、体育俱乐部、体育项目、灾害地质学、环境地质学。Innovation and entrepreneurship, sports clubs, sports events, disaster geology, environm

49、ental geology.4能够基于科学原理并采用科学方法对地质工程、资源勘查及矿产资源开发利用等复杂工程问题进行研究，包括设计实验、分析与解释数据、并通过信息综合得到合理有效的结论。4Based on scientific principles and using scientific methods, the complex engineering problems such as geological engineering, resource exploration and mineral resources exploitation and utilization can be s

50、tudied, including designing experiments, analyzing and interpreting data, and obtaining reasonable and effective conclusions through information synthesis.4.1能够运用科学方法针对地质工程相关问题进行实验设计并实施。4.1 It can use scientific methods to design and implement experiments for geological engineering related problems.

51、矿物学实验、岩石学实验、构造地质学实验、古生物地层学实验、岩土力学实验、材料力学实验、地质勘查技术实验、地质勘察工程训练。Mineralogy experiment, petrology experiment, tectonic geology experiment, paleobiostratigraphyexperiment, geomechanics experiment, material mechanics experiment, geological exploration technology experiment, geological exploration engineer

52、ing training.4.2基于地质工程科学原理，能合理分析与解释实验数据。4.2 Based on the scientific principle of geological engineering, the experimental data can be reasonably analyzed and interpreted.普通地质学实验、矿物学实验、岩石学实验、构造地质学实验、工程地质学实验、古生物地层学实验、岩土力学实验、材料力学实验、地质勘查技术实验、地质勘察工程训练。General geology experiment, mineralogy experiment, pe

53、trology experiment, tectonic geology experiment, engineering geology experiment, paleobiostratigraphy experiment, geotechnical mechanics experiment, material mechanics experiment, geological exploration technology experiment, geological exploration engineering training.4.3基于实验结果，通过信息综合，能针对复杂地质工程问题开展

54、研究，得到合理有效的结论。4.3 Based on the experimental results, through information synthesis, the complex geological engineering problems can be studied and reasonable and effective conclusions can be obtained.构造地质学实验、岩土力学实验、地质勘查技术实验、地质勘察工程训练、地质工程专业毕业设计（论文）。Tectonic geology experiment, geomechanics experiment,

55、 geological exploration technology experiment, geological exploration engineering training, graduation design of geological engineering specialty (thesis).5针对复杂地质问题，能够开发、选择与使用恰当的技术、现代工程工具和信息技术工具，能够理解其适应性与局限性，对复杂地质问题进行预测与模拟。5For complex geological problems, we can develop, select and use appropriate

56、technology, modern engineering tools and information technology tools, understand their adaptability and limitations, and predict and simulate complex geological problems.5.1能运用网络搜索工具等现代信息技术对地质学科相关文献进行检索和资料查询。5.1 It can use modern information technology such as network search tools to search and que

57、ry related documents of geology.大学计算机A、计算机基本技能训练A、计算机地质制图、岩土测试技术。University Computer A, Basic Computer Skills Training A, Computer Geological Mapping, Geotechnical Testing Technology.5.2能够运用现代工程工具和信息技术工具进行地质工程相关设计与技术开发。5.2 Can use modern engineering tools and information technology tools for geologi

58、cal engineering related design and technology development.遥感基础、岩土测试技术、勘探地球化学、地球物理勘察技术。Remote sensing foundation, geotechnical testing technology, exploration geochemistry, geophysical exploration technology.5.3能够综合运用地质工程基本原理、信息技术工具与现代工程工具对复杂地质工程问题进行预测和模拟，并能够理解其局限性。5.3 It can predict and simulate com

59、plex geological engineering problems by using the basic principles of geological engineering, information technology tools and modern engineering tools, and can understand its limitations.计算机地质制图、遥感基础、工程地质数值模拟、地球物理勘察技术、地理信息系统B。Computer Geological Mapping, Remote Sensing Foundation, Engineering Geolo

60、gical Numerical Simulation, Geophysical Survey Technology, Geographic Information System B.6能够基于工程相关背景知识进行合理分析，评价专业工程实践和复杂工程问题解决方案对社会、健康、安全、法律以及文化的影响，并理解应承担的责任。6Ability to conduct rational analysis based on engineering-related background knowledge, evaluate the impact of professional engineering pra