测控技术与仪器专业(080301)
Measurement Control Technology and Instrument Specialty
表一
一、培养目标(Educational Aims):
本专业培养具备热工参数检测、化学成分检测及自动控制等基础理论和专业知识,掌握现代测控技术及仪器研发相关技能,具有较强的创新能力和创业精神,具备良好素质和科学基础及工程实践能力,适应国家、行业和地方经济社会发展需要,德智体美劳全面发展,能在电力等相关领域从事设计制造、技术开发、运行管理等方面工作的高素质应用型专门人才。
Graduates need to master basic theories and professional knowledge such as thermal parameter detection, chemical composition detection and automatic control. On the other hand, graduates master modern measurement and control technology and instrument research and development related skills, have strong innovation ability and entrepreneurial spirit, and have good quality and scientific foundation and engineering practical ability. This program aims to cultivate high-quality application-oriented specialized talents who could adapt to the needs of national, industrial and local economic and social development. Graduates would be well developed in morality, intelligence, physique and art, and be innovative, entrepreneurial, qualified and with good scientific basis. Graduates can be engaged in designing, manufacturing, development of technology and operating maintenance in the related fields of energy power.
预期学生毕业 5 年左右达到如下目标:
1.能够运用包括电子电路、机械、化学、能源电力、测量与控制等测控专业知识,具有测控技术与仪器系统的应用设计与开发能力,并在工作中展示出良好的创新素养。
2. 能够运用热工参数检测、化学成分检测及自动控制技术等方面的专业知识与工程技能,发现、研究、解决现实中电力等相关领域复杂工程问题。
3.具有适应不断变化的国内外环境、形势的能力和较高的人文科学修养、外语综合能力,洞悉行业发展方向,具备全球化的意识和国际视野;
4.有在团队中分工协作、交流沟通的能力,能胜任技术负责、经营与管理等工作,达到领导及带动团队开展协同创新的水平;
5.具有良好的人文社会科学素养、良好的职业道德、敬业精神和社会责任感;能够通过继续教育或其他学习渠道更新知识,实现能力和技术水平的提升,具备成为高素质人才的潜力。
二、培养要求(Outcomes):
本专业毕业生应获得以下几方面的知识、能力和素质:
1.工程知识:能够将数学、自然科学、工程基础和测控技术与仪器专业知识用于解决电力等行业生产过程中的复杂工程问题。
2.问题分析:能够应用数学、自然科学基本原理和测控技术与仪器专业知识,结合文献研究,识别、表达、分析电力等行业生产过程中的测量与控制等复杂工程问题,以获得有效结论。
3.设计/开发解决方案:能够设计针对电力等行业生产过程中测量与控制等复杂工程问题的解决方案,通过综合运用基本理论和专业知识,设计满足电力生产过程中的系统、单元或工艺流程,并能够在系统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.能够综合运用计算机技术、检测技术、控制理论等,采用科学方法对电力等行业生产过程中的测量与控制等复杂工程问题设计实验、分析与解释数据、并通过信息综合得到合理有效的结论。
5.使用现代工具:能够针对电力等行业生产过程中的测量与控制等复杂工程问题,开发、选择与使用恰当的技术、资源、现代工程工具和信息技术工具,进行计算、分析、设计、仿真,并能够理解其局限性。
6.工程与社会:能够基于工程相关背景知识进行合理分析,评价电力系统复杂工程问题的解决方案对社会、健康、安全、法律以及文化的影响,并理解应承担的责任。
7.环境和可持续发展:能够理解和评价电力等行业生产过程中测量与控制环节的设计、运行及管理等工程实践对环境、社会可持续发展的影响。
8.职业规范: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.个人和团队:具有良好的团队协作精神,能够在多学科背景下的团队中承担个体、团队成员或负责人的角色。
10.沟通:能够就电力等行业生产过程复杂工程问题与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.项目管理:理解并掌握工程项目管理原理和经济决策方法,并能够在多学科环境中应用。
12.终身学习: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。
On completion of this program, students will be able to:
1.Solve engineering problems in power production with knowledge of mathematics, natural science, engineering basics and automation expertise.
2.Obtain an effective conclusion by applying basic principles of mathematics, natural science and automation professional knowledge to identify, summarize and analyze the measurement and control problems in the electric power production process.
3.Design solutions to measure and control problems in power production, to design the system, unit, or process with the basic theory and professional knowledge such as modern control, signal acquisition and processing, power electronics, process control, and to embody innovation in system design.
4.Apply computer technology, power electronics technology, testing technology, control theory, etc integrally to obtain reasonable results scientifically in the field of measurement and control.
5.Develop, select and use appropriate technologies and resources to solve the measurement and control problems in the process of electric power production.
6.Conduct reasonable analysis, evaluate the impact of engineering on social, health, safety, law and culture, and understand the responsibilities that should be undertaken based on the knowledge of control system and power production process.
7.Solve the measurement and control problem in the process of electric power production using the principles of engineering management and methods of economic decision-making, and evaluate its impact on environment and social sustainable development.
8.Fulfill the humanities social science accomplishment, the social responsibility, and understand and follow engineering ethics and norms in engineering practice.
9.Take on different roles of individuals, team members, and principals in a multi-disciplinary team
10.Communicate with peers and the public on the questions of complicated project problems of software, such as report writing, manuscript design, presentation, clarity expression and response. Moreover, it is necessary to have international knowledge so that communications and discusses could be done in cross-cultural background.
11.Understand and master the principles of engineering management and economic decision-making.
12.Have the consciousness of self-directed learning lifelong learning and adaptability to development.
三、主干课程(Core Courses):
电路原理、模拟电子、数字电子、自动控制原理、微型计算机原理及接口技术、热力设备及辅机、集散控制系统、发电厂成份分析检测仪表、误差理论与数据分析、现代分析仪器及应用、传感器原理及应用。
Electric Circuits, Analog Electronics, Digital Electronics, Principles of Automatic Control, Distributed Control System, Principles and Interface Technology of Microcomputer, Equipment & Auxiliary Apparatus, Error theory and data analysis, Component Analysis and Tests Instrument of Power Plant, The modern analytical instruments and Application, Sensor Principles and Applications.
四、主要实践性教学环节(Main Practical Courses):
入学教育、军训、金工实习、毕业实习、课程设计、毕业设计、毕业教育等。
Enrollment and Mental Health Education, Military Theory and Training, Metalworking Practice, Graduation Practice, Curriculum Design, and Graduation Education.
五、专业特色(Program Features):
全国唯一的以电厂热工自动化和化学分析检测技术为背景的测控技术与仪器专业。培养掌握测量和控制基本理论,了解学科发展最新动态,掌握电力行业热工参数监测、化学参数监测和新能源装置监测的工程技术,获得电子技术、计算机技术、仪器仪表设计等方面的专门训练,具有较宽的知识面和较强的工程实践能力的高素质应用型人才。
With special emphasis on Chemical Analysis for Power Plant, this major aims at cultivating high-quality applied talents with a good mastery of theories of Measurement Principles and Control Engineering, and advanced technologies of thermal, chemical and new energy parameters monitoring. Graduates are expected to be trained in electrical engineering, instrument and computer science and be capable of keeping up with the latest trend in the industry. They should also have extensive knowledge and practical ability.
六、毕业合格标准(Graduation Qualification Requirements):
学制:4年,允许学生延期毕业,延期最多不得超过2年。
学位:学生平均学分绩点≥65,授予工学学士学位。
毕业合格标准:完成教学计划所要求的教学过程,毕业生获得的总学分应不少于180学分,其中理论教学不少于134学分,实践环节不少于42学分,课外培养不少于4学分,并应参加全国大学外语等级考试达到学校规定的相关标准。
Duration: 4 years. Graduation could be deferred for no more than 2 years.
Final Award: Bachelor of Engineering will be conferred on students with at least 65 credits on average.
Minimum requirements for graduation: Graduates should meet the requirements of this program, complete no less than 180 credits (no less than 134 credits for theoretical courses, no less than 42 credits for practical courses, and no less than 4 credits for extra-curriculum activities), participate in the College English Test and meet the relevant minimum requirement of the university.
七、专业课群组说明(Professional Course Packages):
学科基础课群:电路原理、模拟电子、数字电子、自动控制原理、创新创业教育、微型计算机原理及接口技术;
专业课群:专业英语、集散控制系统、热力设备及辅机、发电厂成份分析检测仪表、误差理论与数据分析、现代分析仪器及应用、传感器原理及应用;
基础课选修课群:无机及分析化学、工程力学与精密机械基础、电力电子技术、信号与系统;
专业课选修课群:可编程逻辑控制器及开关量控制技术、光电检测技术、测控软件技术、智能仪器、面向对象程序设计、电力经济与管理、计算机网络技术、发电厂热工过程控制。
Basic disciplinary curricula group: Electric Circuits, Analog Electronics, Digital Electronics, Principles of Automatic Control, Education for Innovation and Entrepreneurship, Principles and Interface Technology of Microcomputer.
Professional curricula group: Professional English, Distributed Control System, Equipment & Auxiliary Apparatus, Error theory and data analysis, Component Analysis and Tests Instrument of Power Plant, The modern analytical instruments and Application, Sensor Principles and Applications.
Basic elective curricula group: Inorganic and Analytical Chemistry, Fundamentals of Engineering Mechanics and precision machinery, Technologies of Power Electronics, Signals and Systems.
Professional elective curricula group: Programmable Logic Controller and Switching Variable Control Technology, Optoelectric Measurement Technology, Measurement & Control Software Technology, Intelligent Instrument, Object-oriented Programming Design, Electric Power Economy and Management, Technology of Network Application, Thermal Process Control for Power Plant .