Power and Energy Engineering

Program offered

 

Bachelor

080501 Energy and Power Engineering

Professional training objectives: This specialty aims to train advanced applied personnel with solid theoretical foundation knowledge as well as strong practice ability in energy conversion and utilization and the thermal field of environmental protection; it also offers adaptation and innovation consciousness training with high moral and cultural quality to meet the social demand for talent in the field of energy power and its related scientific research, design, teaching, and engineering technology.

Training requirements: The students should possess the broad theoretical foundation in natural science, humanities and social science knowledge, thermology, mechanical, electrical, machinery, automatic control and have professional knowledge and practical ability in thermal power engineering, also mastering computer application knowledge and automatic control technology.

Students in this major must have the following several aspects of the knowledge and ability.

Possess strong grounding in nature science, good background in humanities and social science, and good command of expressing and writing in the native language.

Systematically master the major's basic knowledge of technology and theory, mainly including engineering mechanics, mechanical engineering, engineering thermophysics, fluid mechanics, electrician and electronics, control theory and other basic knowledge.

Access to engineering practice by its professional field training, having strong computer and foreign language application ability.

Hold necessary professional knowledge in their field, understand the scientific frontier and developing trends.

Have Strong skill in self learning, and good sense of creation and innovation.

Main Courses:

Theoretical Mechanics

Material Mechanics

Mechanical Design

Electrical and Electronic Technology

Engineering thermodynamics

Engineering Fluid Mechanics

Heat Transfer

Automatic Control Theory

Measurement Technology

 Bachelor

 

090304 Marine Engineering

Major training objectives:This specialty aims to train advanced applied personnel with professional knowledge in Marine engineering with technology, creativity, ability to engage in the research of the marine engineering field by its design, management, inspection and supervision for national defense and national economic departments. That is, to conform to the country needs to promote social progress with excellent engineers and management personnel

Professional training requirements: This major is geared to the needs of manufacturing enterprises, management organizations, colleges and universities and research institutes. It is based on the shipping industry, marine engineering and marine equipment, to cultivate characteristic based on wide direction, to cultivate compound talents with comprehensive ability.

Students must have the following aspects of the knowledge and ability.

Master basic theory in mathematics, physics and mechanics, display strong logical thinking ability and high comprehensive quality.

Skilled in computer application technology, possess a good foreign language level.

Master the basic theoretical knowledge in thermal energy engineering, power engineering and systematic professional theoretical knowledge of Marine engineering.

Have strong supervision of turbine design, research and practice application ability, has strong ability of self-study and innovation.

Possess a certain collaboration communication and organizational management ability.

Graduate comprehensive level complies with the undergraduate graduation level requirements of the British Marine engineering institute of science and technology.

Main Courses:

Mechanical Drawing

Measurement Technology

Theoretical Mechanics

Calculational Methods

Material Mechanics

Introduction of Ship Power Plant

Mechanical Design

Marine Diesel

Electronics

Ship Auxiliary Machinery

Fundamentals of Mechanical Manufacture

Marine Electrical Equipment and System

Engineering thermodynamics

Marine Engine Automatization

Heat Transfer

Ship Principle

Automatic Control Theory

Power Plant Design

Vibration and Noise of Ship Machinery

Ship safety and management.

 Master

 

Power Engineering and Engineering Thermophysics(0807)

Major Research Direction

1. Heat and mass transfer                  

2. Power system control and testing

3. Power system vibration and noise control     

4. Dynamic performance of the system and structure

5. Strengthen the combustion and emission control 

6.special power and new energy

Core Courses

The First Foreign Language (Comprehensive English)

First Foreign Language (Russian)

First Foreign Language (Japanese)

B Mathematics method in physics

BNumerical Computation

BMatrix Theory

Advanced Fluid Mechanics

Advanced Heat Thansfer

Thermal System Analysis

Numerical Calculation on Heat Transfer, Fluid Dynamics and Combustion

Vibration Analysis

Modern Control Theory

Advanced Fluid Dynamics

Advanced Combustion Principle

Modern Measurement Technology

Engineering Acoustics and Noise Control

Practice Training

Writing Techniques of English for Science & Technology

Report of Literature Survey

Academic Activities

Master

Marine Engine Engineering(082402)

Course Introduction

Major Research Direction

1. Overall performance of ship power plant and system analysis   

2. Noise vibration control of ship power equipment

3. Marine power plant automation                       

4. Special power of the ship

Core Classes

The First Foreign Language (Comprehensive English)

First Foreign Language (Russian)

First Foreign Language (Japanese)

Mathematics method in physics

Numerical Computation

Advanced Fluid Mechanics

Thermal System Analysis

Vibration Analysis

Modern Control Theory

Advanced Fluid Dynamics

Practice Training

Writing Techniques of English for Science & Technology

Report of Literature Survey

Academic Activities 

Power Engineering Specialty

Course Introduction

Major Research Direction

1. Power plant in general and system design    

2. Power unit vibration and noise control technology

3. Power plant automation and testing technology 

4. Dynamic mechanical pneumatic thermodynamics and structure design

5. Combustion power machinery and technology for energy conservation and emissions reduction

6. New energy and special power

Core Courses

The First Foreign Language (Comprehensive English)

First Foreign Language (Russian)

First Foreign Language (Japanese)

Mathematics method in physics

Numerical Computation

Matrix Theory

Probability Theory and Stochastic Process

Applied mathematical statistics

Advanced Heat Thansfer

Advanced Fluid Mechanics

Modern Control Theory

Advanced Fluid Dynamics

Advanced Combustion Principle

Thermal System Analysis

Numerical Calculation on Heat Transfer, Fluid Dynamics and Combustion

Vibration Analysis

Modern Measurement Technology

Engineering Acoustics and Noise Control

Report of Literature Survey

Academic Activities

Engineering Practice

Intellectual Property Rights Basis and Practice

Engineering Information Resource Acquisition and Utilizing

Doctor

Power Engineering and Engineering Thermophysics(0807)

Course introduction

Main research direction

1. Heat and mass transfer                       

2. Power system control and testing

3. Power system vibration and noise control            

4. Power system performance and structure

5. Strengthen the combustion and emissions control     

6. Special power and new energy

Core Courses

An English Course for Doctoral Students

Oral Presentation for International Academic Exchange

Discourse Translation of English Scientific Texts

Practice of Advanced English Writing

English in International Current Affairs

First Foreign Language (Russian)

First Foreign Language (Japanese)

Altitude applied mathematics

Numerical Solution of Differential Equations

Computational Fluid Mechanics

Nonlinear Control Theory and  Application

Modern Noise & Vibration Control

Advanced Modeling and Simulation Technology

Combustion Theory Method and Application

Report of Literature Survey

Academic Activities and Report 

Marine Engine Engineering(082402)

Course Introduction

Main Research Direction

1. Overall performance of ship power plant and system analysis  

2. Noise vibration control of ship power equipment

3. Ship power plant automation                          

4. Ship special power

Core Courses

An English Course for Doctoral Students

Oral Presentation for International Academic Exchange

Discourse Translation of English Scientific Texts

Practice of Advanced English Writing

English in International Current Affairs

First Foreign Language (Russian)

First Foreign Language (Japanese)

Altitude applied mathematics

Numerical Solution of Differential Equations

Computational Fluid Mechanics

Nonlinear Control Theory and  Application     

Modern Noise & Vibration Control

Advanced Modeling and Simulation Technology

Report of Literature Survey

Academic Activities and Report


Marine Engineering.pdf

Thermal Energy and Power Engineering.pdf

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