1. What are the main courses of thermal energy and power engineering (power plant direction)?

The main courses of thermal energy and power engineering include: engineering thermodynamics, fluid mechanics, heat transfer, heat and mass transfer principles, principles and devices of low temperature technology, modern power station boilers, modern power station steam turbines, power station automation and computer utilization, power equipment and systems, computer technology (hardware, software, network and application), computer control system, energy and environmental protection, refrigeration and air conditioning, etc.

"Thermal Energy and Power Engineering" is a synthesis of many sciences and technologies, including modern energy science and technology, information science and technology and management technology. It mainly involves the design, operation, automatic control, information processing, computer application, environmental protection, refrigeration and air conditioning, efficient and clean energy utilization and new energy development, etc., and faces and cultivates compound senior talents with wide knowledge, solid foundation and strong innovation ability.

2. Professional courses of fashion design

Courses:

Professional core courses and main practical links: clothing structure design and production, clothing design, clothing CAD, clothing production management and marketing, layout and pushing board, clothing three-dimensional cutting, clothing English, fashion illustration techniques, fashion illustration basics, clothing color matching and pattern design, professional training, etc. , as well as the main characteristic courses and practical links of each school.

Fashion design major is a major in higher vocational colleges under the category of textile and food.

The first step to become a fashion designer is to take the certificate of assistant fashion designer.

Assistant Fashion Designer: (Meet one of the following conditions)

(1) Engaged in related work for more than one year, and passed the formal training of assistant fashion designers in this major, reaching the required standard hours.

(2) Technical secondary school degree in related major, and engaged in this occupation for more than three years.

(3) College degree or above in related major, and the probation period expires.

(2) The active major is expanding reading. The major of fashion design requires self-learners to learn the basic theories and knowledge of fashion discipline, carry out basic training in fashion design methods, fashion structure, fashion production patterns, fashion production technology and fashion marketing, and become advanced applied talents with professional skills such as fashion design, production management and marketing, who can work in the front line of fashion production technology and management positions.

3. What is the specialized course of mechanical design and automation?

The main courses of mechanical design and automation include mechanical drawing, metal technology, AutoCAD, engineering mechanics, mechanical design foundation, mechanical manufacturing technology and fixture design, reverse engineering and rapid prototyping technology, programming and machining of CNC milling machine, electrical and electronic technology and application, interchangeability and measurement technology, hydraulic and pneumatic technology, ug software, Cimatron software, machining training, reverse engineering and rapid prototyping training, CNC milling machine training, metalworking training, etc.

This major focuses on modern mechanical design and advanced manufacturing technology, with computers as auxiliary tools. On the basis of mastering the basic theories and methods of mechanical design and manufacturing, it learns advanced product design, manufacturing, rapid prototyping and quality control methods.

(3) actively expand the main courses of reading:

Students majoring in mechanical design and automation have a wide range of employment and can engage in mechanical design and product design in various production enterprises and scientific research units; Can also be engaged in process design, production management and quality management in automobile manufacturing, rail transit, shipbuilding industry, light industry, electronics and other industries.

In the field of mechanical manufacturing, engaged in the design, manufacture and equipment management of CAD/CAM. You can also engage in advanced vocational and technical work in the Department of Mechanical and Electrical Engineering.

4. What courses are there to study thermal energy and power engineering?

Main course:

Main subjects: power engineering and engineering planning, physics and mechanical engineering.

Main courses: engineering mechanics, mechanical design foundation, electrical engineering and electronic technology, engineering thermodynamics, fluid mechanics, heat transfer, control theory and testing technology.

Main practical teaching links: including military training, metalworking, electrician, electronic practice, cognitive practice, production practice, social practice, curriculum design, graduation design (thesis) and so on. , generally should be arranged for more than 40 weeks.

5. What courses are there to study thermal energy and power engineering?

1 professional basic courses

Advanced mathematics, linear algebra, probability theory and mathematical statistics, college physics, college physics experiments, general chemistry and experiments, engineering graphics △, microcomputer principle and interface technology, theoretical mechanics △, material mechanics △, fluid mechanics △;

Electrotechnics, metal technology, mechanical principle, mechanical design, interchangeability and technical measurement, manufacturing technology foundation, material forming technology foundation, computer control technology, single chip microcomputer principle and application, engineering thermodynamics, heat transfer and thermal testing technology.

2 specialized courses

(direction of heating and cooling) chemical engineering principle, chemical engineering principle experiment, thermal energy and power engineering foundation △, boiler principle and design △, refrigeration and air conditioning △, thermal process control △, thermal power generation project △; (Direction of internal combustion engine) Fuel and combustion △, mechanical optimization design, internal combustion engine principle △, internal combustion engine structure △, internal combustion engine design △ (some schools combine the two directions).

Three professional elective courses

CAD/CAE/CAM, aerodynamics, virtual prototyping technology, finite element method, automobile exhaust pollution and control, professional English, literature retrieval, turbine, internal combustion engine design method, new energy of internal combustion engine, environmental engineering, power machinery fault diagnosis technology;

Design basis of pressure vessel, fluid sealing technology, fluid machinery, noise and control of power machinery, principle and design of heat exchanger, energy-saving technology, heating engineering, new technology of automobile engine, test method of internal combustion engine, safety technology, corrosion and protection.

(5) Actively expand the main courses of reading:

Knowledge and ability that graduates should possess.

1, master the basic knowledge of energy and power engineering and its application;

2, master the basic theory and basic knowledge of mathematics, physics, mechanics, machinery, electrical electronics and automatic control;

3. Initially have the ability to comprehensively apply the knowledge learned, analyze and solve the problems encountered in the research, application, planning, design and manufacturing of energy and power machinery;

4, understand the national guidelines, policies and regulations on the design, development, environmental protection and safety of thermal energy and power devices;

5. Understand the current situation and development of the world's advanced technology level in this field, and have the basic ability to use and utilize the advanced technology provided by the international market;

6. Master the basic methods of literature retrieval and data query, and be able to use modern information technology to acquire relevant knowledge;

7. Master a foreign language, be proficient in reading foreign language books and periodicals of this major, and have certain computer application ability.

6. What courses should the major of electrical automation technology take? The more detailed, the better. Thank you.

Different schools have different courses in details, but in general, the mainstream courses include the following:

Professional basic courses: PLC programming, engineering mechanics, circuit, simulation, electronic technology, digital electronic technology, electrical engineering, power electronic technology, automatic control theory, etc.

Main professional courses: power system analysis, power system relay protection, modern electric drive control technology, computer control technology, circuit principle, electronic technology foundation, electrical engineering, power electronic technology, electric drive and control, computer technology, computer language, single chip microcomputer signal and system control theory, etc.

Professional experiments: motor and control experiments, electrical engineering system experiments, power electronics experiments, etc.

：

The employment prospect of electrical automation is very broad.

Automation belongs to the information industry. Information industry, known as "sunrise industry", has become the trend of science and technology development because of its rapid development, high demand for talents and high treatment. Therefore, as an important member of the information industry, automation specialty is also promising. Second, automation has a wide range of applications. At present, almost all industrial sectors can be linked with automation, and modern agriculture and national defense are also closely related to automation. Third, this major is very beneficial to personal development. The courses of this major cover a wide range, and what you learn overlaps with other disciplines. This is also related to the origin of this major, most of which originated from the automatic control major of computer or electronic engineering department.

With the continuous development of China's economy and modern industry, the talent market of electrical automation technology has great potential. Especially in Guangdong, the continuous improvement of automation production technology, the continuous popularization of automation products, the application of intelligent buildings and smart homes, and the continuous development of intelligent transportation provide broad development prospects for electrical automation technology specialty.

Power electronics technology and microcomputer control technology are important parts of high-tech industry. Intelligent control appliances and electrical control equipment, automatic control systems and production lines are widely used in industry, agriculture, national defense and other fields, and play an important role in the national economy. Usually graduates can choose state-owned quality and technical supervision departments, scientific research institutes, industrial and mining enterprises, etc. It can also be some foreign-funded and private enterprises, and the treatment is of course considerable. If students are strong enough and have accumulated good research results during their studies, they can start their own businesses and create their own sky. It should be pointed out that, because the research essentials of this major are ahead of us abroad, it is a good choice to go abroad for further study if you want to have further development and establish your leading position in this direction in China.

7. What are the main courses of animation design?

1, painting basis

Sketch, modeling, basic painting, composition, color and other parts transform what you see in front of you into the noumenon style of art, into the modeling language of painting or the visual language of design.

2、AutoCAD

Three-dimensional and two-dimensional drawing and editing, solid modeling, coloring and rendering, customization and development of AutoCAD, data management of AutoCAD files, network functions of AutoCAD, etc. Including architectural engineering and mechanical design, drawing architectural plans, industrial engineering drawings, landscape design drawings, interior design drawings, etc.

3. Painters

Painters are used to make animations and movies, and painters and Photoshop jointly complete the setting and drawing of movie characters, scenes and props.

4、Photoshop

Image editing, image synthesis, color contrast and special effects production, image synthesis, image shooting and processing, artistic creation and other operational technologies. , covering images, graphics, video, publishing, etc.

5. Flash

Frame-by-frame animation, motion animation, deformation animation, mask animation, orientation animation, sound animation, programming animation production technology and drawing skills; Multimedia webpage, greeting card, MTV, short play, teaching software, advanced interactive action, Flash menu and form making, etc.

6、3dsMax

Object selection and basic operation, basic body modeling, two-dimensional to three-dimensional modeling examples, three-dimensional modeling processing, animation production, environment and special effects, "VideoPost" post-synthesis, product modeling design.

7. Maya

Get to know Maya7 for the first time, understand its interface, NURBS modeling, basic and advanced applications of polygon modeling, lighting and shadows, optical effects, cameras and views, rendering, rendering indoor scenes with MentalRay renderer, and making vector images with vector renderer.

8. Main courses of energy and power engineering.

Engineering mechanics, mechanical design basis, mechanical drawing, electrical and electronic technology, engineering thermodynamics, fluid mechanics, heat transfer, control theory, testing technology, combustion science, etc.

9. What are the main courses of the School of Energy and Power of 9.Xi Jiaotong University?

The courses for freshmen and sophomores are the same. Junior and senior students take professional courses and their own small professional courses respectively.

The courses before sophomore year are all public basic courses, and everyone has to take them, such as advanced mathematics, college physics, complex variable function, linear algebra, probability theory, engineering chemistry foundation, college English and so on. The courses in the first two years are very heavy. At that time, we were studying in the master class, and we were under great pressure. We teach ourselves all the year round.

After my junior year, I was divided into small majors, and all of them took professional courses. The most important ones were three cornerstone courses: engineering thermodynamics (I think it was the second semester of my sophomore year, I can't remember), heat transfer and fluid mechanics. Later, I learned advanced engineering heat, advanced heat transfer and advanced fluid force, which is the basic course of energy and power research and application and is very important. After my research, I only studied the two-dimensional problem into a three-dimensional problem, but my science is still the foundation. Of course, if you can learn high numbers, complex variables and so on, it would be better to deduce formulas easily.

Jiaotong University can be divided into three modules: thermal module, cooling module and new energy module, and each module has several different majors, so the courses are different. For example, in the fluid machinery of cold module, there are specialized courses such as centrifugal compressor, axial compressor, laminar flow and turbulent flow. And in the turbine major of thermal module, I mainly study the professional knowledge of turbine. Although the specialized courses are different, they are all about heat and mass transfer, and they are all based on the three cornerstone courses mentioned above. Even if you are a cold module, you can read books on the hot module. Study the problem of heat dissipation module, just read professional books yourself, anyway, the basic principles are similar. The process of compressor and turbine is just the opposite. A compressor compresses gas, and in turn, the expanded gas does work and becomes a turbine. Are all connected.

Jiao Tong University is one of the best universities in China, with a strong foundation and solid teaching. Specific courses are not easy to find. I can help you find it if you really need it.

10. What courses are there to study thermal energy and power engineering?

Main course:

Main subjects: power engineering and engineering planning, physics and mechanical engineering.

Main courses: engineering mechanics, mechanical design foundation, electrical and electronic technology, engineering thermodynamics, fluid mechanics, heat transfer, control theory and testing technology.

Main practical teaching links: including military training, metalworking, electrician, electronic practice, cognitive practice, production practice, social practice, curriculum design, graduation design (thesis) and so on. , generally should be arranged for more than 40 weeks.

Ha, I study heat energy, not from the University of Mining and Technology. My research direction is aero engines.

It should be said that the employment rate of our major is definitely not a problem, and the employment rate is 300%! ^_^

However, it is not difficult to find a job, and it is difficult to find a good job. Many of them went to research institutes, Jiangyou 624 Research Institute, Pengzhou 57 19 Factory and Shenyang 606 Factory. I didn't find a job well in my senior year, and I didn't prepare for the postgraduate entrance examination. They are also hungry when they look for jobs next semester, and all 430 factories in Xi 'an have gone. The better ones went to airlines and auto companies, and some went to Shenzhen Energy Group (power plant group, which is said to have a high salary), but the best one was CNPC. They work a little hard, but their wages are higher than ours.

The main courses of thermal energy specialty include engineering thermodynamics, heat transfer, refrigeration principle, air conditioning, boiler, energy-saving technology, fluid mechanics, combustion principle, heat exchanger principle and so on.

In fact, heat energy is widely used, not only for national defense and military products, but also for civilian use, such as air conditioners (refrigeration technology and fresh air technology) and heat exchangers (like our heating pipes, car radiators and so on). ), central heating, household heat meters and other high-tech. For example, at present, everyone collects heating fees uniformly, but some people use them more and some people use them less. Can you develop a heat meter similar to an electric meter to calculate how much heat energy is used by families in order to collect heating fees? Isn't this a high-tech technology?

Of the 36 students in our class, 5 failed to repeat their studies (these disappointing guys), 13 was admitted to the graduate school (not all of them were admitted to this major, some were admitted to the Institute of Aeronautics and Astronautics, and one was admitted to the graduate school in Tsinghua), and the rest were employed. As far as I know, the minimum wage is 65438+.

So heat energy is not a very cold major. Compared with the heat of computers and electronic information, it is a little cold, but its application can be seen everywhere in life, don't you think?

If your research direction is oil exploration, you will be really happy. If you can design a water vapor dryness meter, you will have money to eat, drink and be merry all your life.

Each school may have a slightly different breakdown of the training direction of this major. For example, the major of thermal energy and power engineering in Hefei University of Technology covers 9 majors, including primary heat engine, refrigeration and low temperature technology, and thermal energy engineering.

Now I take Jiangsu University as an example, and my major has three directions:

1, thermal energy and power engineering (fluid machinery and its automatic control direction), graduates can engage in research, design, planning, production, teaching and management in scientific research units, companies, enterprises, universities and management departments related to fluid machinery, fluid engineering, power station operation management, hydraulic pneumatic, aerospace, water supply and drainage, energy utilization and other industries.

2. Thermal energy and power engineering (thermal energy engineering of power plant and its automation direction). Graduates can engage in related research, teaching, development, planning, management, marketing and other work in power system design and research institute, thermal power plant, thermal power plant, power equipment manufacturing enterprises, universities, energy and environmental protection related companies and * * * management departments.

3. Thermal energy and power engineering (engineering thermophysical process and its automatic control direction), graduates can engage in related research, development, teaching, planning, management and marketing in energy utilization, combustion equipment, thermal process automatic control system, microelectronic devices, environmental protection and air pollution control, heat exchange equipment, power machinery and other related scientific research institutes, enterprises, colleges and universities, and * * * management departments.

Moreover, the development situation of machinery industry (such as diesel engine industry) is very good now, and there is a great demand for talents in this field. I think this major is very good, but when studying, we should pay equal attention to theory and practice, strengthen the study of professional practice, pay attention to all-round training and improve our practical ability in an all-round way.

Ha, I study heat energy, not from the University of Mining and Technology. My research direction is aero engines.

It should be said that the employment rate of our major is definitely not a problem, and the employment rate is 300%! ^_^

However, it is not difficult to find a job, and it is difficult to find a good job. Many of them went to research institutes, Jiangyou 624 Research Institute, Pengzhou 57 19 Factory and Shenyang 606 Factory. I didn't find a job well in my senior year, and I didn't prepare for the postgraduate entrance examination. They are also hungry when they look for jobs next semester, and all 430 factories in Xi 'an have gone. The better ones went to airlines and auto companies, and some went to Shenzhen Energy Group (power plant group, which is said to have a high salary), but the best one was CNPC. They work a little hard, but their wages are higher than ours.

The main courses of thermal energy specialty include engineering thermodynamics, heat transfer, refrigeration principle, air conditioning, boiler, energy-saving technology, fluid mechanics, combustion principle, heat exchanger principle and so on.

In fact, heat energy is widely used, not only for national defense and military products, but also for civilian use, such as air conditioners (refrigeration technology and fresh air technology) and heat exchangers (like our heating pipes, car radiators and so on). ), central heating, household heat meters and other high-tech. For example, at present, everyone collects heating fees uniformly, but some people use them more and some people use them less. Can you develop a heat meter similar to an electric meter to calculate how much heat energy is used by families in order to collect heating fees? Isn't this a high-tech technology?

Of the 36 students in our class, 5 failed to repeat their studies (these disappointing guys), 13 was admitted to the graduate school (not all of them were admitted to this major, some were admitted to the Institute of Aeronautics and Astronautics, and one was admitted to the graduate school in Tsinghua), and the rest were employed. As far as I know, the minimum wage is 65438+.

So heat energy is not a very cold major. Compared with the heat of computers and electronic information, it is a little cold, but its application can be seen everywhere in life, don't you think?

If your research direction is oil exploration, you will be really happy. If you can design a water vapor dryness meter, you will have money to eat, drink and be merry all your life.

Each school may have a slightly different breakdown of the training direction of this major. For example, the major of thermal energy and power engineering in Hefei University of Technology covers 9 majors, including primary heat engine, refrigeration and low temperature technology, and thermal energy engineering.

Now I take Jiangsu University as an example, and my major has three directions:

1, thermal energy and power engineering (fluid machinery and its automatic control direction), graduates can engage in research, design, planning, production, teaching and management in scientific research units, companies, enterprises, universities and management departments related to fluid machinery, fluid engineering, power station operation management, hydraulic pneumatic, aerospace, water supply and drainage, energy utilization and other industries.

2. Thermal energy and power engineering (thermal energy engineering of power plant and its automation direction). Graduates can engage in related research, teaching, development, planning, management, marketing and other work in power system design and research institute, thermal power plant, thermal power plant, power equipment manufacturing enterprises, universities, energy and environmental protection related companies and * * * management departments.

3. Thermal energy and power engineering (engineering thermophysical process and its automatic control direction), graduates can engage in related research, development, teaching, planning, management and marketing in energy utilization, combustion equipment, thermal process automatic control system, microelectronic devices, environmental protection and air pollution control, heat exchange equipment, power machinery and other related scientific research institutes, enterprises, colleges and universities, and * * * management departments.

Moreover, the development situation of machinery industry (such as diesel engine industry) is very good now, and there is a great demand for talents in this field. I think this major is very good, but when studying, we should pay equal attention to theory and practice, strengthen the study of professional practice, pay attention to all-round training and improve our practical ability in an all-round way.

Ha, I study heat energy, not from the University of Mining and Technology. My research direction is aero engines.

It should be said that the employment rate of our major is definitely not a problem, and the employment rate is 300%! ^_^

However, it is not difficult to find a job, and it is difficult to find a good job. Many of them went to research institutes, Jiangyou 624 Research Institute, Pengzhou 57 19 Factory and Shenyang 606 Factory. I didn't find a job well in my senior year, and I didn't prepare for the postgraduate entrance examination. They are also hungry when they look for jobs next semester, and all 430 factories in Xi 'an have gone. The better ones went to airlines and auto companies, and some went to Shenzhen Energy Group (power plant group, which is said to have a high salary), but the best one was CNPC. They work a little hard, but their wages are higher than ours.

The main courses of thermal energy specialty include engineering thermodynamics, heat transfer, refrigeration principle, air conditioning, boiler, energy-saving technology, fluid mechanics, combustion principle, heat exchanger principle and so on.

In fact, heat energy is widely used, not only for national defense and military products, but also for civilian use, such as air conditioners (refrigeration technology and fresh air technology) and heat exchangers (like our heating pipes, car radiators and so on). ), central heating, household heat meters and other high-tech. For example, at present, everyone collects heating fees uniformly, but some people use them more and some people use them less. Can you develop a heat meter similar to an electric meter to calculate how much heat energy is used by families in order to collect heating fees? Isn't this a high-tech technology?

Of the 36 students in our class, 5 failed to repeat their studies (these disappointing guys), 13 was admitted to the graduate school (not all of them were admitted to this major, some were admitted to the Institute of Aeronautics and Astronautics, and one was admitted to the graduate school in Tsinghua), and the rest were employed. As far as I know, the minimum wage is 65438+.

So heat energy is not a very cold major. Compared with the heat of computers and electronic information, it is a little cold, but its application can be seen everywhere in life, don't you think?

If your research direction is oil exploration, you will be really happy. If you can design a water vapor dryness meter, you will have money to eat, drink and be merry all your life.

Each school may have a slightly different breakdown of the training direction of this major. For example, the major of thermal energy and power engineering in Hefei University of Technology covers 9 majors, including primary heat engine, refrigeration and low temperature technology, and thermal energy engineering.

Now I take Jiangsu University as an example, and my major has three directions:

1, thermal energy and power engineering (fluid machinery and its automatic control direction), graduates can engage in research, design, planning, production, teaching and management in scientific research units, companies, enterprises, universities and management departments related to fluid machinery, fluid engineering, power station operation management, hydraulic pneumatic, aerospace, water supply and drainage, energy utilization and other industries.

2. Thermal energy and power engineering (thermal energy engineering of power plant and its automation direction). Graduates can engage in related research, teaching, development, planning, management, marketing and other work in power system design and research institute, thermal power plant, thermal power plant, power equipment manufacturing enterprises, universities, energy and environmental protection related companies and * * * management departments.

3. Thermal energy and power engineering (engineering thermophysical process and its automatic control direction), graduates can engage in related research, development, teaching, planning, management and marketing in energy utilization, combustion equipment, thermal process automatic control system, microelectronic devices, environmental protection and air pollution control, heat exchange equipment, power machinery and other related scientific research institutes, enterprises, colleges and universities, and * * * management departments.

Moreover, the development situation of machinery industry (such as diesel engine industry) is very good now, and there is a great demand for talents in this field. I think this major is very good, but when studying, we should pay equal attention to theory and practice, strengthen the study of professional practice, pay attention to all-round training and improve our practical ability in an all-round way.