专业代码:0819 学科门类:工科
Code of Specialty:0819 Department of Discipline:Engineering
一级学科:矿业工程 学分要求:22
First-grade Discipline:Mining Engineering Credit Setting:22
一、学科概况(Disciplines Instruction)
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、重点实验室等7个省级科研平台。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, Coal Mine Virtual Simulation Experiment Teaching Center and Key Laboratory. In 1993, it was authorized to grant. 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,拥有国家安全生产专家、国家“653”工程首席专家、国家煤炭工业专家等学术造诣较深的学术带头人和结构合理的学术梯队,重点围绕矿井开采理论及技术、露天开采理论与技术、矿山压力与岩层控制、矿山安全与灾害防控、矿山环境工程和矿物资源加工与利用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,先后主持完成了国家科技攻关项目、国家自然科学基金、“863计划”、“973计划”等国家重大科研计划项目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 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 are 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.
二、培养目标(Objectives)
本学科把立德树人作为博士研究生教育的根本任务,瞄准国内、外矿业发展前沿,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及技术、露天开采理论与技术、矿山压力与岩层控制、矿山安全与灾害防控、矿山环境工程和矿物资源加工与利用等领域,培养德智体美全面发展、具备较强的批判性思维和创新性思维、具有国际视野和家国情怀的高层次复合型人才和高级管理者。
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 safety and disaster prevention and control, mine environmental engineering and mineral resource processing and utilization. We cultivate high-level compound talents and senior managers with a comprehensive development of morality, intelligence, beauty, strong critical and innovative thinking and an international perspective.
三、培养要求(Requirements)
(1)思想品德素质:坚持正确政治方向,拥护中国共产党的领导,热爱祖国和人民,树立正确的人生观、世界观、价值观;遵纪守法、品行端正、诚实守信,具有良好的职业道德和奉献精神,具有强烈的事业心和创新精神;恪守学术道德,崇尚学术诚信,热爱科学研究,具有严谨的科研作风和锲而不舍的钻研精神。
Ideological and moral quality: Adhere to the correct political direction, support the leadership of the Communist Party of China, love the motherland and the people, establish a correct outlook on life, world outlook, values; obey the law, behave well, be honest and trustworthy, have good professional ethics and dedication, with strong professionalism and innovative spirit; abide by academic ethics, advocate academic integrity, and love scientific research, with a rigorous research style and perseverance.
(2)业务知识结构:适应科技进步和社会经济发展的需要,掌握矿业工程学科领域坚实宽广的基础理论和系统深入的专门知识,深入了解矿业工程学科国内外研究发展现状和态势,能利用先进技术方法和现代技术手段解决矿业工程学科科学问题及技术难题并具有创新性。
Knowledge structure: adapt to the needs of scientific and technological progress and social and economic development, master the solid and broad basic theories and systematic in-depth expertise in the field of mining engineering, and gain an in-depth understanding of the status and situation of research and development worldwide in mining engineering disciplines, and can use advanced technology methods and modern technology means to solve the scientific problems and technical problems of mining engineering disciplines creatively.
(3)基本能力素质:掌握至少一门外国语。能熟练地阅读矿业工程学科的外文资料,具有较强写作和翻译能力,具备瞄准国际学术前沿开展国际学术研究和学术交流能力;掌握至少一种计算机语言及编程方法,能熟练应用矿业工程领域高级分析软件的能力。
Basic ability: Master at least one foreign language. Proficiency in reading foreign language materials in mining engineering disciplines, with strong writing and translation skills, capable of international academic research and academic communication at the forefront of international academics; master at least one computer language and programming method, capable of applying advanced analyzing software in 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 Characteristics |
1 |
矿井开采理论及技术 Under Ground Mining Theory and Technology |
矿产资源开采理论与方法、绿色开采技术与装备、智能开采技术与装备、特殊条件开采技术、矿业经济与企业管理。 Theory and methods of mining mineral resources, green mining technology and equipment, intelligent mining technology and equipment, special condition mining technology, mining economy and enterprise management |
2 |
露天开采理论与技术 Surface Mining Theory and Technology |
露天开采理论、露天开采工艺与装备、边坡灾害预测预警与控制技术、智能开采技术与装备。 Surface mining theory, surface mining technology and equipment, slope disaster prediction and early warning and control technology, intelligent mining technology and equipment |
3 |
矿山压力与岩层控制 Mining Pressure and Roof Control |
地质动力区划理论及应用、采动岩体力学与工程加固技术、巷道围岩控制理论与技术、矿山压力监测技术。 Theory and application of geodynamic zoning, mining rock mechanics and engineering reinforcement technology, roadway surrounding rock control theory and technology, mine pressure monitoring technology |
4 |
矿山安全与灾害防控Control Technique of Mine Dynamic disaster |
矿井通风理论与技术、煤岩动力灾害预测与防治技术、矿井火灾防治理论与技术、矿井瓦斯抽采理论与技术、矿井粉尘防治理论与技术、矿井热害防治技术。 Mine ventilation theory and technology, coal and rock dynamic disaster prediction and prevention technology, mine fire prevention theory and technology, mine gas drainage theory and technology, mine dust prevention theory and technology, mine heat damage prevention technology |
5 |
矿山环境工程 Mine Environmental Engineering |
矿山工程环境评价、矿区土壤修复与生态重建、矿山环境灾害控制、矿山污染控制技术。 Mine engineering environmental assessment, mining area soil restoration and ecological reconstruction, mine environmental disaster control, mine pollution control technology |
6 |
矿物资源加工与利用 Mineral Resources Processing and Utilization |
矿物加工理论与技术、矿物资源综合利用、矿物材料、复合材料、洁净能源与煤化工。 Mineral processing theory and technology, comprehensive utilization of mineral resources, mineral materials, composite materials, clean energy and coal chemical industry |
五、学制与学习年限(Program duration)
学制3年,学习年限3~5年,其中硕博连读研究生学制为5年,一般学习年限不超过6年。
3 years of schooling with 3 to 5 years duration. Program duration for a M.S.-Ph.D. degree is 5 years. A general study period is no more than 6 years.
六、培养方式与方法(Modes and Methods)
博士研究生的培养主要采取课程学习、科学研究、学术交流和社会实践相结合的方式,实行导师负责制或以导师为主的指导小组制。导师(组)负责根据培养方案的要求制订和调整博士生个人学习计划,组织参与研究生的开题、中期考核、预答辩、答辩等各个环节,指导科学研究和学位论文撰写等。实施多主体协同育人机制,校企联盟,深入推进产学研联合培养、多学科交叉融合培养,组建跨学科教学团队。
The training of doctoral students mainly adopts the combination of course study, scientific research, academic exchange and social practice, and implements the advisor responsibility system or the advisor-oriented guidance group system. The advisor (group) is responsible for formulating and adjusting the individual study plan for doctoral students according to the requirements of the training program, organizing participation in the graduate's proposal, mid-term assessment, pre-defense and defense, guiding scientific research and writing thesis. Implement multi-agent collaborative education mechanism, school-enterprise alliance, deepen the joint training of production, education and research, multi-disciplinary cross-integration training, and establish an interdisciplinary teaching team.
七、课程设置与学分要求(Curriculum and credit requirements)
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 公共必修课 |
|
中国马克思主义与当代 Marxism and Chinese Modern |
2 |
40 |
1 |
公共管理与法学院 |
8学分 |
|
第一外国语 First Foreign Language |
3 |
60 |
1-2 |
外国语学院 |
|
第二外国语 Second Foreign Language |
2 |
40 |
2 |
|
科技英语翻译 Technical English Translation |
1 |
20 |
2 |
矿业学院 |
Basic Courses 基础必修课 |
|
应用数学 Applied Mathematics |
2 |
40 |
1 |
理学院 |
按研究方向选择2门, 4学分 |
|
高等岩体力学 Advanced Rock Mechanics |
2 |
40 |
1 |
力学与工程学院 |
|
环境生态学 Environmental Ecology |
2 |
40 |
1 |
环境科学与工程学院 |
|
环境界面化学 Environmental Interface Chemistry |
2 |
40 |
1 |
|
矿物岩石学基础 Mineral Petrology Basis |
2 |
40 |
1 |
矿业学院 |
|
材料热力学与动力学 Materials Thermodynamics and Kinetics |
2 |
40 |
1 |
材料科学与工程学院 |
Specialized Courses 专业必修课 |
|
现代采矿理论与技术 Modern Mining Theory and Technique |
2 |
40 |
2 |
矿业学院 |
按研究方向选择2门, 4学分 |
|
矿山灾害防治新技术 Mine Disaster Prevention and Control Technology |
2 |
40 |
2 |
|
地理信息系统Geo-information System |
2 |
40 |
2 |
环境科学与工程学院 |
|
现代环境分析测试技术 Advanced Environmetal Analysis Methods |
2 |
40 |
2 |
|
高等选矿学 Advanced Mineral Processing |
2 |
40 |
2 |
矿业学院 |
|
粉体技术 Powder Technology |
2 |
40 |
2 |
Selective Courses 选修课 |
|
现代矿压理论与 支护技术 Modern Mine Pressure and Supporting Technology |
2 |
40 |
2 |
矿业学院 |
按研究方向选择2门, 4学分 |
|
煤矿智能开采安全技术与装备 Safety Technology and Equipment for Coal Mine Intelligent Mining |
2 |
40 |
2 |
|
特殊煤层开采 Special Coal Seam Mining |
2 |
40 |
2 |
|
矿井绿色开采 Environment-friendly Mining Method |
2 |
40 |
2 |
|
系统工程理论与方法 System Engineering Theory and Methods |
2 |
40 |
2 |
|
安全管理学 Safety Management |
2 |
40 |
2 |
|
地质动力区划 Geo-dynamic Division |
2 |
40 |
2 |
|
现代通风安全理论 Modern Ventilation and Safety Theory |
2 |
40 |
2 |
|
数字矿山理论与技术 Digital Mining Theory and Technique |
2 |
40 |
2 |
|
矿业经济学 Mining Economics |
2 |
40 |
2 |
|
边坡稳定与监测技术 Slope Stability and Onitoring Technology |
2 |
40 |
2 |
|
智能控制基础矿山资源开发决策支持系统 Intelligent Control Basic Mine Resource Development Decision Support System |
2 |
40 |
2 |
电子与信息工程学院 |
|
矿山机电设备 Mine Electromechanical Equipment |
2 |
40 |
2 |
|
矿山环境工程前沿技术 Advanced Mining Environmetal Engineering Technology |
2 |
40 |
2 |
环境科学与工程学院 |
|
污染土壤修复技术 Remediation Techniques for Contaminated Soil |
2 |
40 |
2 |
|
材料复合理论与技术 Material Composite Theory and Technology |
2 |
40 |
2 |
矿业学院 |
|
功能材料 Functional Materials |
2 |
40 |
2 |
|
材料计算与模拟 Material Calculation and Simulation |
2 |
40 |
2 |
材料科学与工程学院 |
|
材料改性理论与技术 Material Modification Theory and Technology |
2 |
40 |
2 |
Make-up Courses 补修课 |
|
矿山地质学 Mining Geology |
2 |
40 |
1 |
矿业学院 |
按研究方向选择2门, 4学分 |
|
采矿学 Coal Mining Science |
2 |
40 |
2 |
|
水污染控制工程 Water Pollution Control Engineering |
2 |
40 |
1 |
环境科学与工程学院 |
|
固体废物处理与处置 Solid Waste Treatment and Disposal |
2 |
40 |
2 |
|
矿物加工利用工艺学 Mineral Processing Technology |
2 |
40 |
1 |
矿业学院 |
|
矿物材料学 Mineral Materials |
2 |
40 |
2 |
Obligatory Courses 必修环节 |
|
马克思主义经典著作选读 Selected Readings of Marxist Classics |
1 |
20 |
2 |
公共管理与法学院 |
2学分 |
|
学术报告及学术活动 Academic Reports and Academic Activities |
1 |
20 |
2 |
|
|
矿业工程领域博士学科专题讲座、学术报告 Doctoral Lectures and Academic Reports in the Field of Mining Engineering |
|
|
|
|
|
合计 Total |
|
|
|
|
|
|
22 |