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矿业工程专业学位硕士研究生培养方案

发布日期:2018-08-14 作者: 来源: 点击:

专业代码:430119 学科门类:工程硕士

Code of Specialty:430119 Department of Discipline:Master of Engineering

工程领域:矿业工程 学分要求:26

Engineering field:Mining Engineering Credit Setting:26

一、领域概况(FieldInstruction)

矿业工程是学校历史最悠久的优势学科,为辽宁省首批“双一流”建设学科,先后获批国家第二类特色专业、辽宁省矿业工程专业紧缺人才培养基地和辽宁省示范性专业,拥有煤炭资源安全开采与洁净利用工程中心、煤矿虚拟仿真实验教学中心等7个省级科研平台。1984年获硕士学位授予权,1993年获博士学位授予权,1999年获批设立博士后科研流动站,2003年获矿业工程一级学科博士学位授予权。

Mining engineering is one of the dominant discipline with long history in Liaoning Technical University. As the “Double First-Class” disciplines in Liaoning Province, it has been authorized to be National Second Category Specialty, Liaoning Mining Engineering Training Base andexemplarydisciplines in provincial level. It has 7 provincial-level scientific research platforms, such as, Coal Resource Safety Mining and Clean Utilization Engineering Center and Coal Mine Virtual Simulation Experiment Teaching Center. It was authorized to grant master’s degree in 1984. In 1993, it was authorized to grant doctoral degree. In 1999, it was authorized to set up Post-doctoral Scientific Research Station. It was authorized to grant doctoral degree for the first level discipline of Mining Engineering in 2003.

学科现有博士生导师39人、硕士生导师54人,拥有国家安全生产专家、国家“653”工程首席专家等学术造诣较深的学术带头人与结构合理的学术梯队,重点围绕矿井开采理论与技术、露天开采理论及技术、矿山压力与岩层控制、矿井动力灾害防治技术、矿井通风与安全、矿业经济与数字矿山、矿物加工理论与技术和矿物资源综合开发利用理论与技术等方向开展研究工作,在矿井动力灾害防控、露天开采、矿井火灾防控等领域具有突出优势和鲜明特色。近5年,先后主持完成国家科技攻关项目、国家自然科学基金、“863计划”、“973计划”等国家级项目21项,其中获得国家科技进步二等奖2项、国家教学成果二等奖1项、省部级科技进步奖23项、辽宁省教学成果奖6项;培养博、硕士及留学生研究生共计682名,为煤炭行业输送了大批高层管理及高级工程技术人才,为我国经济建设和煤炭工业的发展做出了突出贡献。

There are currently 39 doctoral and 54 master advisors. They are experts for national safety production, chief experts of national "653" project, national coal mine engineering experts and academic leaders, forming a well-structured academic group. The research work is mainly focused on mine mining theory and technology, surface mining theory and technology, mine pressure and ground control, mine safety and disaster prevention and control, mine environmental engineering and mineral resources processing and utilization. The studies in prevention and control of mine dynamic disasters, surface mining and mine fire prevention and control have special outstanding advantages and distinctive features. In the past 5 years, over 21 national scientific research projects including the National Science and Technology Research Project, the National Natural Science Foundation, the “863 Program” and the “973 Program”, have been accomplished. 2 national second prizes for scientific and technological progress, 1 second prize for national teaching achievements, 23 provincial level awards for scientific and technological progress, and 6 awards for Liaoning Province teaching achievements have been awarded.A total of 682 Ph.D., master and international students have been trained, and a large number of senior management and senior engineering and technical personnel have been delivered to the coal industry, making outstanding contributions to China's economic construction and the development of the coal industry.

二、培养目标(Objectives)

本学科把立德树人作为硕士研究生教育的根本任务,瞄准国际矿业工程领域发展前沿,以矿产资源安全绿色开发与洁净利用为主要研究内容,重点服务于矿井开采理论与技术、露天开采理论及技术、矿山压力与岩层控制、矿井动力灾害防治技术、矿井通风与安全、矿业经济与数字矿山、矿物加工理论与技术和矿物资源综合开发利用理论与技术等领域,培养德智体美全面发展、具备较强的工程实践能力和创新能力、较强的实际问题解决能力、良好的职业素养和具备国际竞争力的应用研究型拔尖人才。

This subject regards cultivating people withhighmoralvaluesas the fundamental task of doctoral education, aiming at the frontier of mining development worldwide, focusing on the safe development of green resources and clean utilization of mineral resources, serving the academic areas in mining theory and technology, surface mining theory and technology, mine pressure and ground control,mine disaster prevention technology, mine ventilation and safety, mining economy and digital mine, mineral processing theory and technology and mineral resources comprehensive development and utilization theory and technology. We cultivateapplied research-oriented talentswith a comprehensive development of morality, intelligence, beauty,strong engineering practice ability and innovation ability, strong practical problem-solving ability, good professional quality and international competitiveness.

三、培养要求(Requirements)

(1)应较好地掌握马克思主义、毛泽东思想、邓小平理论、“三个代表”重要思想、科学发展观及习近平新时代中国特色社会主义思想理论,拥护党的基本路线和方针、政策,热爱祖国和人民,遵纪守法,品行端正,具有良好的职业道德和奉献精神,积极为我国经济建设和社会发展服务,身心健康。

Students should have a good grasp of Marxism, Mao Zedong Thought, Deng Xiaoping Theory, the important thinking of the "Three Represents", the scientific development concept, and Xi Jinping's new era of socialist ideological theory with Chinese characteristics, support the party's basic line, principles, and policies, and love the motherland and the people. Compliance with laws and regulations, good conduct, good professional ethics and dedication, and actively serve economic construction and social development, with physical and mental health.

(2)应掌握所从事的程领域的坚实基础理论和宽广专业知识;掌握解决复杂矿业工程问题的先进技术方法和现代技术手段;具有与学位相匹配的创新意识及能力和独立担负矿井开采理论与技术、露天开采理论及技术、矿山压力与岩层控制、矿井动力灾害防治技术、矿井通风与安全、矿业经济与数字矿山、矿物加工理论与技术和矿物资源综合开发利用理论与技术等工程技术或工程管理工作的能力。

Students should grasp the solid basic theory and broad professional knowledge of the field of work; master advanced technical methods and modern technical means to solve complex mining engineering problems; have the innovative consciousness and ability to match the degree and independently take the theory and technology of mining, surface mining theory and technology, mine pressure and ground control, mine dynamic disaster prevention technology, mine ventilation and safety, mining economy and digital mining, mineral processing theory and technology and mineral resources comprehensive development and utilization theory and technology engineering or engineering management work ability.

(3)应掌握至少一门外国语,能较为熟练地阅读与矿业工程领域有关的外文资料,具有一定的写作和翻译能力,并具备一定的国际学术交流水平;掌握至少一种计算机语言及编程方法,能熟练运用计算机技术进行设计、模拟、分析等,解决矿业工程领域中有关问题。

Studentshould have at least one foreign language, be able to read foreign language materials related to the mining engineering field, have certain writing and translation skills, and have a certain level of international academic exchange; master at least one computer language and programming methods, be proficient to use computer technology to design, simulate, analyze to solve related problems in the field of mining engineering.

四、研究方向(Research Orientation)

序号

No.

名称

Name

研究方向的范围及特点概述

Research Orientation and Characteristic

1

矿井开采理论及技术

Underground mining theory and technology

矿井开拓开采基本原理与方法,绿色开采技术,放顶煤开采技术,充填技术,三下开采技术,深矿井开采技术和特殊开采技术;煤层气资源勘查及综合评价,煤层气井下、地面抽采与综合利用;浆体管道参数,管道内浆体流态及其水力坡度,非均质流的浓度分布,速度分布和迁移速度等。

Fundamental principle and methods of mine development and mining, green mining technology, top coal caving mining technology, stowing technology, mining technology under buildings, water bodies and railways, mining technology in deep mine and untraditional mining technology; coalbed methane resources exploration and comprehensive evaluation, drainage and complex utilization of coal bed gas; slurry pipeline parameter, flow state and hydraulic gradient of slurry in pipeline, concentration distribution, velocity distribution and migration velocity of non-homogeneous flow.

2

露天开采理论及技术

Surface Mining Theory and Technology

露天开采工艺、边坡工程、智能(绿色)露天开采、计算机辅助设计、系统仿真技术与应用,露天矿爆破技术,系统可靠性分析。

Surface mining technology, slope engineering, technology and application of computer aided design and system simulation, blasting technology in surface mine, systems reliability analysis.

3

矿山压力与

矿井动力灾害防治技术

Rock Pressure and Control Technology of Shaft Dynamic Disaster

岩层变形、破坏与失稳规律及控制技术,采场与巷道及围岩矿山压力显现规律和支护技术,岩土工程应力分析;地质动力区划及在矿业中的应用,煤矿地下采掘活动诱发的煤与瓦斯突出、冲击地压、矿震等矿井动力灾害的防治理论与技术。

Law of deformation, destruction anddestabilizationand control technology of rock strata, strata behaviors law and supporting technique of stope, roadway and surrounding rock, stress analysis of geotechnical Engineering; geo-dynamic division and its application in the mining, preventing theory and technology of such dynamic disaster as coal and gas outburst, pressure bump andshock bump caused by underground mining activities.

4

矿井通风与安全

Mine Ventilation and Safety

空气流动基本理论、通风阻力和动力、风量分配与调节、通风系统与通风设计及矿井瓦斯、火灾、粉尘和水灾等的防治技术。

Basic theory of air flow, ventilation power and resistance, air flow distribution and regulation, ventilation system and its design, control technology of gas, fire, dust and water disaster.

5

矿业经济与数字矿山

Mining Economics and Digital Mine

矿业投资与成本、煤炭项目与资产评估及企业管理信息系统;建立三维矿区地质模型、开采模型的理论与方法、生产系统仿真与监控技术、矿井安全监测技术,采矿计算机辅助设计技术、矿山虚拟开采技术、信息管理系统和办公自动化开发技术。

Mining investment and cost, coal project and assets evaluation and enterprise management information system; theory and method of establishing 3D geological model and mining model of coal mine, technology of production system simulation and monitoring, monitoring technology of mine safety, computer aided design technique, virtual mining technology, information management system and OA developing technology.

6

矿物加工理论与技术

Theory and Technology of Mineral Processing

研究现代分析测试技术及工艺矿物学中的应用;研究重选、浮选、磁选、电选、化学选、湿法冶金与生物选矿等工艺理论和技术;多学科交叉,研究新工艺、新技术、新材料、新产品和新设备;重点开展应用技术和应用基础理论的研究。

研究矿物材料计算与设计及其改性药剂分子设计。

Study the application of the modern analytical and testing techniques and process mineralogy; Study the theory and technology of gravity concentration, flotation, magnetic separation, electrostatic separation, chemical selection, hydrometallurgy and biobeneficiation, etc.; Study the new technologies, new materials, new products and new equipments by multidisciplinary research; Focus on the application technology and application fundamental theory.

Study the calculation and design of the mineral materials and the modification agents for the molecule design thereof.

7

矿物资源综合开发利用

理论与技术

Mineral resources utilization theory and technology

以矿物岩石学为基础,矿物加工工程技术为手段,以矿物岩石材料为目标,研究金属矿、化石能源、非金属矿产等低品位、共伴生矿产、矿山固体废弃物及尾矿等工艺矿物学;研究高效、环保的资源化理论与产业化技术,研究煤系共伴生矿物开发利用,包括:有价元素提取、有益组分及有用矿物的分离、富集、直接利用或组合利用,实现无尾排放、无废排放的清洁生产。研究“城市矿山”技术。

Study the process mineralogy of metal ores, fossil energy, nonmetallic minerals, such as low-grade,ancillary and associated minerals,tailings and other solid waste. Study the theory and industrial technology on the highly efficient and environment-friendly resource recovery, including the valuable elements extraction, the separation, concentration and directly comprehensive utilization of the beneficial components and the usful minerals, so as to realize the clean production withouttailings and wastes. Study the technologies of “city mines”.

五、学制与学习年限(Program duration)

学制2.5年,最长学习年限一般4年。2.5 years of schooling with 4 years of maximum duration.

六、培养方式与方法(Modes and Methods)

(1)全日制专业学位硕士研究生采取学校和实践基地联合培养方式,部分研究生采取与实践基地合作的定单式培养模式。

The full-time professional degree master students adopt the joint training mode of the school and the practice base, and some graduate students adopt the order-based training mode of cooperation with the practice base.

(2)全日制专业学位硕士研究生实行双导师制。以校内导师为主,聘请企业内具有高级技术职称的专业工程技术人员担任副导师。校内导师负责制订研究生培养计划,组织开题、中期考核和学位论文答辩,指导项目研究和学位论文等工作,同时对研究生的思想品德、学术道德有引导、示范和监督责任;校外导师提供源于实际且具有应用价值的研究课题,协助解决学生开展学位论文工作所需的研究条件,参与实践实训和学位论文的指导、学位论文质量监督和答辩等各个环节,充分发挥双方优势,提高专业学位硕士研究生的综合素质和能力。

Full-time professional degree master students implement a double advisor system. The school advisor is the major advisor, and professional engineering and technical personnel with advanced technical titles in the company is employed as the deputy advisor. The instructor of the school is responsible for formulating the postgraduate training plan, organizing the opening of the topic, the mid-term assessment and the thesis defense, guiding the project research and the dissertation, and at the same time guiding, demonstrating and supervising the moral character and academic morality of the graduate students; the external advisor provides research topic with application value from the field and the research conditions required for students to carry out the dissertation work. The external advisor participates in the practice training and the guidance of the dissertation, the quality supervision and defense of the dissertation. It gives full play to the advantages of both sides and improve the comprehensive qualities and abilities of master students.

七、课程设置(Curriculum)

课程类别

Course Type

课程

编号

Course No.

课程名称

Course Name

学分

Credit

学时Hour

课内/试验

Class/test

开课学期

semester classes

开课单位

Class Department

备注

Remarks

Obligatory Courses

必修课

Common Courses

公共课


科学社会主义理论与实践

Scientific Socialist Theoryand Practice

2

40

1

公共管理与法学院

8学分


自然辩证法概论

Natural Dialectics

1

20

1


第一外国语

First Foreign Language

4

80

1-2

外国语学院


科技英语翻译

Sci-tech English Translation

1

20

1


Basic Courses

基础课


数值分析

Numerical Analysis

2

40

1

理学院

2学分

Specialized Courses

专业课


现代采矿理论与方法

Modern Mining Theory and Method

2

40

2

矿业学院

任选3门,

6学分


非线性岩石力学

Non-linear Rock Mechanics

2

40

2

力学与工程学院


矿山灾害防治技术

2

40

2

矿业学院


系统工程理论

Theory of System Engineering

2

40

2


矿物深加工与矿物材料利用

Minerals Deep Processing and Material Utilization

2

40

2


材料工艺学

Material Technology

2

40

2

Selective Courses

选修课

Designated Courses

指选课


专业外语与文献阅读

Specialized Foreign

Language and Document Reading

1

20

2

矿业学院

2学分


创新能力培养

Training Innovation Ability

1

20

3

Optional Courses

任选课


矿井地质动力区划

Geo-dynamic Division

Method of Coal Mine

2

40

2

矿业学院

任选3门,6学分


采矿工程数值模拟

Numerical Simulation about Mining Engineering

2

40

2


现代支护技术

Modern Supporting Technology

2

40

2


矿井高产高效新技术

New Technology for High-production and High-efficiency Coal Mine

2

40

2


煤层气开发与利用技术

Coal bed Gas Development and Utilization Technology

2

40

2


边坡稳定性控制技术

Control Technology of Rock Slope Stability

2

40

2


矿井生产系统优化

Optimization for Mining Production System

2

40

2


专家系统设计技术

及其在矿山中的应用

Design Technique and Application of ES in the Mining

2

40

2


煤矿监测与控制技术

Monitoring and Control Technology of Coal Mine

2

40

2


数字矿山构建技术及应用

Conformation and

Application of Digitall Mine

2

40

2


矿业管理系统设计与应用

Design and Application of Mining’s Management System

2

40

2


煤炭企业资产评估

Assets Evaluation for Mining Enterprise

2

40

2


矿业信息技术

Information Technology in the Mining

2

40

2


煤矿地质信息系统及其应用

Geological Information System and Its Application in Coal Mine

2

40

2


矿山环境与现代采矿

Mining Environment and Modern Mining

2

40

2


实验设计与实验方法

Experimental Design and Method

2

40

2


现代仪器分析测试技术

Modern Instrument Analysis and Testing technology

2

40

2


生物技术

Biotechnology

2

40

2


矿物资源综合开发与

利用工艺学

Comprehensive Development and Utilization Technology of Mineral Resources

2

40

2


现代无机化学合成方法

Modern Synthetic Method of Inorganic Chemistry

2

40

2


胶体与界面化学

Colloid and Interface

Chemistry

2

40

2

Make-up Courses

补修课


煤矿地质学

Geosciences of Coal Mine


30

2

矿业学院

采矿工程方向


采矿学

Coal Mining Sciences


60

2


井巷工程

Openings and Development Engineering of Shaft


30

2


矿井通风与安全

Ventilation and Safety of Coal Mine


40

2


结晶学及矿物学

Crystallography and Mineralogy


40

2

矿业学院

矿物加工工程方向


矿物加工学

Minerals Processing Technology


40

2

必修环节

Obligatory Part


实践总结报告

Practice Summary Report

1

20

3

矿业学院

2学分


学术报告及学术活动

Academic Report and Activitie

1

20


合计

Total







26