培养计划-Curriculum-市政与测绘工程学院

2021 Edition of the Training Program for Water Supply and Drainage Science and Engineering

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I. Objectives of Professional Training
This major aims to cultivate individuals who are adaptable to China's new urbanization
construction and rural revitalization strategy, align with the needs of regional economic and
social development, achieve comprehensive development in morality, intelligence, physical
fitness, aesthetics, and labor skills. Students will acquire fundamental theoretical knowledge, engineering skills, and management methods related to the benign social circulation process
of urban water systems. They will possess the ability to collaborate in teams, innovate, and
engage in self-directed learning. Furthermore, they will uphold the core socialist values, demonstrate a sense of social responsibility and a concept of sustainable development, exhibit
humanistic qualities, professional ethics, and entrepreneurial awareness. Graduates will be
capable of engaging in design, construction, operation, management, and preliminary
research and development in areas such as water quality security, sewage treatment and
resource utilization, comprehensive water environment governance, building water supply
and drainage, smart water services, and engineering management. They will serve as
high-quality applied engineering and technical personnel in the field of water supply and
drainage science and engineering, as well as related industries. Within approximately five years after graduation, students of this major are expected to
achieve the following goals:
I. Embrace the core socialist values, uphold the concept of sustainable development, actively fulfill social responsibilities, possess a sound personality, and exhibit good
humanistic and social science literacy while adhering to professional ethics and engineering
ethical standards. II. Adapt to the development requirements of the water supply and drainage science and
engineering field, possess a comprehensive understanding of relevant professional
knowledge, engage in design, construction, operation, management, and preliminary
research and development in related fields, demonstrate the capacity for engineering and
technical leadership roles. III. Demonstrate strong teamwork spirit and effective communication skills, capable of
assuming team and management roles in water engineering project teams in areas such as
engineering planning, design, construction, operation, and management. IV. Possess a consciousness of innovation, entrepreneurship, self-directed learning, and
lifelong learning, continuously acquire and apply new theories, methods, technologies, and
equipment in the field of water supply and drainage science and engineering to address
complex engineering challenges. II. Basic Graduation Requirements
Graduates of this major should meet the following graduation requirements:
Embrace the leadership of the Communist Party of China, love the socialist
motherland, master Marxist, Mao Zedong Thought, and the theoretical system of socialism
with Chinese characteristics, possess correct worldviews, outlooks on life, values, abide by
laws and regulations, foster unity, cooperation, dedication to work, and a willingness to
contribute. 1. Engineering Knowledge:
Acquire mathematical, natural science, engineering fundamentals, and professional
knowledge to solve complex engineering problems in the field of water supply and
drainage science and engineering related to engineering planning, design, construction, operation, and management. 1.1 Master mathematical knowledge related to water supply and drainage science and
engineering to understand basic principles of the profession. 1.2 Apply physics, chemistry, biology, and other knowledge to describe and explain
important phenomena in complex water supply and drainage science and engineering
problems. 1.3 Utilize mechanics, engineering knowledge in engineering planning, design, construction, and operation management. 1.4 Apply professional knowledge in the field of water supply and drainage science and
engineering and engineering management to solve complex engineering problems in water
supply and drainage projects. 2. Problem Analysis:
Apply mathematical, natural science, engineering, and basic principles of water
supply and drainage science and engineering to identify and analyze complex problems in
the field. Propose feasible solutions through literature research to obtain effective
conclusions. Problem Analysis: Being able to apply the fundamental principles of
mathematics, natural sciences, engineering, and water supply and drainage science and
engineering, and through literature review, identify and analyze complex issues in water
supply and drainage science and engineering, propose feasible approaches to obtain
effective conclusions. 2.1 Capable of integrating the principles and methods of mathematics, natural sciences, engineering, and water supply and drainage science and engineering, possessing the ability
to identify, assess, analyze, and articulate complex engineering problems. 2.2 By consulting literature databases, standards, regulations, and manuals, comprehensively analyze complex engineering issues in water engineering planning, design, construction, and operation management, propose economical and effective strategies to
obtain practical solutions and conclusions. 3. Design/Development of Solutions:
Capable of proposing effective and rational design solutions for complex issues in the
field of water supply and drainage science and engineering, designing systems, process
flows, or process units that meet specific requirements, demonstrating innovation in the
design process, and considering the impact of factors such as societal, health, safety, legal, cultural, and environmental aspects. 3.1 Proficient in the analysis and design methods of units or process flows, developing
rational solutions based on the specific requirements of water supply and drainage science
and engineering, and meeting the specific needs of practical engineering projects. 3.2 Considering the impact of societal, health, safety, legal, cultural, and environmental
factors on solutions, and demonstrating a certain level of innovation in the design process. 4. Research:
Capable of designing experiments, acquiring, analyzing, and interpreting data, and
deriving rational and effective conclusions for complex issues in water supply and
drainage science and engineering based on the fundamental principles of the discipline.
4.1 Proficient in utilizing the fundamental principles of natural science and engineering, mastering methods and skills for engineering basic experimental design, testing, and
detection, designing experiments based on engineering problems, selecting appropriate
research platforms, correctly applying analytical testing and detection methods, conducting
scientific experiments accurately, and collecting, analyzing, and interpreting experimental
data correctly. 4.2 When addressing complex water supply and drainage engineering issues, able to
comprehensively analyze data using the fundamental principles of water supply and
drainage science and scientific methods to arrive at valid conclusions. 5. Utilization of Modern Tools:
Capable of developing, selecting, and utilizing appropriate technologies, resources, modern engineering tools, and information technology tools for addressing complex issues
in water supply and drainage science and engineering. Proficient in applying
mathematical, engineering, and management models and methods for the simulation, analysis, prediction, and optimization of complex engineering problems, while
understanding their limitations. 5.1 Mastery of the usage methods of modern engineering tools, information technology
tools, engineering technologies, and resources, and the ability to make rational selections of
modern tools based on complex engineering problems. Proficiency in the fundamental
methods of engineering technology and modern engineering tool development. 5.2 Ability to apply technical, engineering, economic, and management models and
methods for the development, selection, and utilization of modern tools in simulation, analysis, prediction, and optimization to address complex engineering problems. Capable of
understanding the limitations associated with these tools. 6. Engineering and Society: Capable of conducting rational analysis and evaluation, based on the background knowledge of water supply and drainage science and
engineering, of the impact of professional engineering practices and solutions to complex
engineering problems on society, health, safety, law, and culture, and understanding the
responsibilities that need to be assumed. 6.1 Able to utilize knowledge of water engineering-related laws and regulations, industry policies, technical standards systems, etc., to rationally analyze and evaluate the
impact of solutions to complex water supply and drainage engineering problems on society, health, safety, law, and culture. 6.2 Capable of understanding the responsibilities that needed to be assumed throughout
the entire process of implementing engineering solutions. Environment and Sustainable
Development:
7. Environment and Sustainable
Development: Possessing an awareness of harmonious development between humans
and nature, environmental protection knowledge, and adhering to the concept of social
sustainable development. Capable of understanding and evaluating the impact of
engineering practices in solving complex engineering problems on social, environmental, and economic sustainable development. 7.1 Understanding the essence and significance of the environment and sustainable
development, and being able to evaluate the impact of water engineering practices on the
environment and nature. 7.2 Using professional knowledge to analyze and evaluate the impact of water
engineering practices on social, environmental, and economic sustainable development. 8. Professional Ethics:
Upholding the core socialist values, possessing humanistic and social science literacy, and a sense of social responsibility. Being able to understand and adhere to professional
ethical norms and engineering ethical principles in engineering practice within the
profession, and fulfill responsibilities. 8.1 Practicing the core socialist values, possessing humanistic literacy and legal
awareness, and consciously complying with them in water engineering practice. 8.2 Understanding the engineer's responsibility for the safety, health, welfare of the
public, and environmental protection, and being able to adhere to professional ethical norms
and engineering ethical principles, and conscientiously fulfill responsibilities. 9. Individual and Team:
Being able to take on roles as an individual, team member, and leader in a
multidisciplinary team, possessing strong collaborative spirit and some organizational
management skills. 9.1 Understanding the inherent connections among various disciplines in the field of
water engineering, having team awareness and collaborative spirit, and correctly
understanding one's role and responsibilities within the team. 9.2 Having a sense of responsibility as a leader and organizational management skills in
a multidisciplinary team. 10. Communication:
Being able to effectively communicate and interact with industry peers and the
general public on complex issues in the field of water science and engineering, including
writing reports and design documents, creating drawings, making presentations, and
responding to instructions. Having proficiency in a foreign language, possessing listening, speaking, reading, and writing abilities, and having an international perspective to
communicate and interact in a cross-cultural context. 10.1 Addressing complex issues in water science and engineering through design
drawings, design documents, research reports, presentations, etc., for professional
communication. Being able to correctly understand the relationship between water science
and engineering and various disciplines, while providing clear and accurate responses to
queries from industry peers and the general public. 10.2 Mastering a foreign language, understanding international trends and research
advancements in urban and rural water engineering fields. Being able to comprehend and
respect the impact of different cultural backgrounds on engineering practices and effectively
communicate and interact in a cross-cultural context. 11. Project Management:
Understanding and mastering the principles of water engineering project
management and economic decision-making methods, and being able to apply them in a
multidisciplinary environment. Possessing a certain level of organizational and
management skills. 11.1 Mastering the principles and methods of engineering management, operations
management, and economic decision-making related to water engineering. 11.2 Being able to apply the principles and methods of engineering management, operations management, and economic decision-making in water engineering practices
within a multidisciplinary context, and having the ability to organize and manage
engineering projects effectively. 12. Continuous Learning:
Having a sense of self-directed and lifelong learning, and the ability to continuously
learn and adapt to one's own developmental needs. 12.1 Recognizing the importance of self-directed learning and staying updated with new
knowledge. Having a sense of self-directed learning, understanding avenues and methods for
expanding knowledge and enhancing skills.
12.2 Possessing the ability for self-directed and lifelong learning, being able to integrate
industry developments with personal developmental needs, and continuously learning and
adapting to both societal and personal growth. III Special Features
1 Aligning with the forefront of the new urbanization, focusing on the integration of
industry and education, cultivating applied talents with equal emphasis on design and
management. 2 Aligning with the national rural revitalization strategy, focusing on "urban-rural water
supply integration," and cultivating high-quality applied talents in the field of urban
construction. IV. Main Discipline
Civil Engineering
V. Core Courses  Water Resources Utilization and Protection
 Water Supply and Drainage Network Systems (Part One)  Water Supply and Drainage Network Systems (Part Two)  Building Water Supply and Drainage Engineering
 Water Quality Engineering (Part One)  Water Quality Engineering (Part Two)  Water Engineering Construction
 Basics of Water Treatment Equipment  Instrumentation and Control of Water Supply and Drainage Engineering
VI. Key Practical Teaching Components  Major Professional Experiments: University Physics Experiment, Water
Analysis Chemistry Experiment, Water Treatment Biology Experiment, Hydraulics Experiment, Water Quality Engineering Experiment.  Major Professional Internships and Training: Introductory Internship, Electrical and Electronic Training A, Surveying Internship, Metalworking
Internship, Production Internship, Graduation Internship.  Major Professional Course Design (Thesis): Pump and Pumping Station
Course Design, Building Water Supply and Drainage Engineering Course
Design, Water Supply Network Systems Course Design, Drainage Network
Systems Course Design, Water Treatment Course Design, Wastewater
Treatment Course Design, Water Engineering Economics and Budgeting
Course Design, Graduation Comprehensive Training. VII. Duration and Degree Conferment
Standard Duration: 4 years, with a study period of 3-6 years; for those who meet the
requirements of the "Regulations on the Conferring of Bachelor's Degrees by Hunan City
College," a Bachelor of Engineering degree will be conferred. VIII. Graduation Credit Requirements
The minimum credit requirement for graduation in this major is 230 credits, with the
graduation comprehensive training requirement being: Pass.
IX. Talent Development Program Schedule
Note: The comprehensive graduation training refers to the graduation project. Students are required to
choose one of the following directions: urban water supply, urban drainage, or building water supply
and drainage engineering, to complete their graduation project. For water supply and drainage
directions, students need to complete the design of pipeline networks and water treatment plants. In the
building water supply and drainage direction, the focus is on the design of building water supply
systems, building drainage systems, building fire protection systems, building hot water systems, and
other related system

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Everysemestercourseschedule
First year
Th
e
one
stu
dy
Per
iod
Course code Course Name
Total
credit
hours
Contac
t
credit
hours
Self�study
credit
hours
credit
The
two
stud
y
Peri
od
Course
code Course Name
Total
credit
hours
Contac
t
credit
hours
Self-study
credit hours
c
r
e
d
i
t
9123311031 Ideology, Morality, and
LawGovernance 90 48 42 3 9124311041 Outline of Modern and
Contemporary Chinese History 90 48 42 3
9054311011 College English (1） 75 40 35 2.5 9054311021 College English (2) 105 56 49
3
.
5
9051111050 Application writing 45 32 13 1.5 9131311010 Mental Health Education for
College Students 45 32 13
1
.
5
9132311020 Military Theory for College
Students 60 36 24 2 9163311010 Foundation of Innovation and
Entrepreneurship 45 32 13
1
.
5
9063311011 Basic Computer Skills for
College Students 45 32 13 1.5 9063311021 Computer Language（C
Language）
90 32 58 3
9103811010 University Sports and Health
(1） 45 32 13 1.5 9103811020 University Sports and Health
(2） 45 32 13
1
.
5
9092112011 Advanced MathematicsA
（1）
135 72 63 4.5 9092112021 Advanced MathematicsA（2） 150 80 70 5
9112112111 Engineering drawing 75 40 35 2.5 9065112011 University PhysicsA（1） 90 48 42 3
9021312371 General Chemistry 60 32 28 2 9021312381 Organic Chemistry 45 24 21 1
.
5
9021112010
Introduction to Water Supply
and Drainage Science and
Engineering
60 16 44 2 9125111050 Situation and Policy (2） 15 8 7
0
.
5
9125111050 Situation and Policy (1） 15 8 7 0.5 9021324170 AutoCADBasics 45 32 13
1
.
5
9122311030 Entrance education and
military training 120 96 24 4 9141315010 Social practice and volunteer
service 30 16 14 1
9123315010 Labor 30 16 14 1 795 440 355
2
6
.
5
855 500 355 28.5
Second year
Th
e
one
stu
dy
Per
iod
Course code Course Name
Total
credit
hours
Con
t
tac
credit
hours
s
S
tu
el
d
f
y
-
credit
hours
credit
The
two
study
Perio
d
Course code Course Name
Total
credit
hours
Contact
credit hours
Self�study
credit
hours
c
r
e
d
i
t
9121311011 Basic Principles of Marxism 90 48 42 3 9122311021
Introduction to Mao Zedong
Thought and the Theoretical
System of Socialism with
Chinese Characteristics
150 80 70 5
9054311031 University English Expansion
Series Course (1） 45 24 21 1.5 9125111050 Situation and Policy（4） 15 8 7
0
.
5
9103811030 University Sports and Health
(3）
30 20 10 1 9054311041 University English Expansion
Series Course (2)
45 24 21
1
.
5
9092112051 Linear Algebra 60 32 28 2 9151311010
Career Development and
Employment Guidance for
College Students (1）
30 20 10 1
9065212030 University Physics
Experiment 45 16 29 1.5 9103811040 University Sports and Health (4) 30 20 10 1
9065112021 University PhysicsA（2） 90 48 42 3 9092112061 Probability Theory and
Mathematical Statistics
75 40 35 2
.
5
9021312391 Physical Chemistry 60 32 28 2 9021312401 Water Analytical Chemistry 75 48 27
2
.
5
9061312300 Electrical and Electronic
Engineering 60 32 28 2 9021112361 Hydrology and Hydrogeology 60 32 28 2
9034112101 Engineering Mechanics 90 40 50 3 9021312041 Pumps and pump stations 60 32 28 2
9021312021 Hydraulics 90 56 34 3 9021112410 Civil engineering foundation 60 24 36 2
9024312821 Engineering Surveying 60 32 28 2 9021113431 Utilization and Protection of
Water Resources 60 32 28 2
9161715010 Electronic Electrical
TrainingA
60 32 28 2 9021615470 Internship 60 32 28 2
9024715810 Measurement internship 60 32 28 2 9021415250 Pump and Pump Station Course
Design 60 32 28 2
9125111050 Situation and Policy (3) 15 8 7 0.5 780 424 356 2
6
855 452 403 28.5
Third year
Th
e
one
stu
dy
Per
iod
Course
code Course Name
Total
credit
hours
Contac
t
credit
hours
Self�study
credit
hours
credit
The
two
stud
y
Peri
od
Course
code Course Name
Total
credit
hours
Contac
t
credit
hours
Self-study
credit hours
c
r
e
d
i
t
9021113081
Water Supply and Drainage
Pipeline Network System
(1）
90 48 42 3 9151311020
Career Development and
Employment Guidance for
College Students (2)
30 18 12 1
9021113091 Water Supply and Drainage
Pipeline Network System (2)
90 48 42 3 9021213140 Water Quality Engineering
Experiment 45 16 29
1
.
5
9021313101 Building Water Supply and
Drainage Engineering 90 48 42 3 9021113111 Water Quality Engineering(1) 90 40 50 3
9021324190
Basic Computer Applications
in Water Supply and Drainage
Engineering (includingBIM)
60 32 28 2 9021113121 Water Quality Engineering(2) 90 40 50 3
9021312051 Water Treatment Biology 75 48 27 2.5 9021113130 Water engineering construction 60 32 28 2
9021824210
Interpretation and
Application of Water Supply
and Drainage Design
Standards
30 16 14 1 9021113440 Water engineering equipment
foundation 60 32 28 2
9021415260 Building Water Supply and
Drainage Course Design 120 64 56 4 9021112421 Water Engineering Economics
and Budgeting 60 32 28 2
9021415270 Water Supply Pipeline
Network Course Design 120 64 56 4 9021415300
Water Treatment Course Design
(Including Practical Training in
Water Supply Plant
Engineering)
120 64 56 4
9031415280 Drainage Pipe Network
Course Design 120 64 56 4 9021415310
Sewage Treatment Course
Design (Including Practical
Training in Sewage Plant
Engineering)
120 64 56 4
9128311071
Introduction to Xi Jinping's
Thought on Socialism with
Chinese Characteristics for a
New Era
90 48 42 3 9021415480
Water Engineering Economics
and Budgeting Course
Design
60 32 28 2
885 480 405 29.5 735 370 365
2
4
.
5
Fourth year
Th
e
one
Course
code Course Name
Total
study
hours
Contac
t
credit
hours
Self�study
credit
hours
credit
The
two
Course
code Course Name
Total
study
hours
Contact
credit hours
Self�study
credit
hours
c
r
e
d
i
t
stu
dy
Per
iod
stud
y
Peri
od
9021113160 Water Supply and Drainage
Engineering Instruments and
Control
45 24 21 1.5 9021515350 Graduation Comprehensive
Training
780 416 364 2
6
9041124010 Project Management 45 24 21 1.5 Graduate education 60 32 28 2
9021113200 Professional English 30 16 14 1 840 448 392 2
8
9021824430
Water Engineering
Operations and Smart
Management
45 32 13 1.5
9021715450 Metalworking internship 120 64 56 4
9021615440 Production internship 480 256 224 16
9021615340 Graduation internship 120 64 56 4
885 480 405 29.5

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