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Pharmaceutical Engineering (International Students) Program Curriculum

发布时间:2026-07-16 点击数:

Pharmaceutical Engineering (International Students) Program Curriculum

 

1Program Objectives

Pharmaceutical Engineering is an interdisciplinary engineering program integrating chemistry, pharmacy, and engineering. It aims to cultivate high-quality applied research talents who have a certain understanding of contemporary Chinese culture and society, master solid fundamental knowledge, scientific theories, and professional skills in pharmaceutical engineering. Graduates will be competent in product R&D, engineering design, production management, quality control, and product services in the pharmaceutical and related fields, and able to participate in and promote friendly cooperative relations between China and their home countries.

 

2Graduation Requirements

In accordance with the requirements of engineering education professional certification and the program objectives, the graduation requirements for graduates of this program are as follows:

1. Engineering Knowledge: Possess knowledge of mathematics, natural sciences, engineering fundamentals, and professional expertise, and apply them to understand, analyze, and solve complex engineering problems in pharmaceutical engineering and related fields, such as product R&D, engineering design, production management, quality control, and product services.

2. Problem Analysis: Apply basic principles of mathematics, pharmacy, and engineering science, and effectively acquire, analyze, and research pharmaceutical literature to identify, formulate, and analyze complex engineering problems in pharmaceutical engineering and related fields, and obtain evidence-based valid conclusions.

3. Design/Development of Solutions: In accordance with GMP and EHS requirements, comprehensively consider factors such as laws, safety, health, culture, society, engineering ethics, and the environment to design solutions for complex engineering problems related to systems, units, and process flows in pharmaceutical engineering that meet specific needs. Innovation awareness should be reflected in the design solutions.

4. Research: Based on scientific principles and using scientific methods, develop reasonable research plans for complex pharmaceutical engineering problems, including experimental design and implementation, collection, collation, analysis, and interpretation of experimental data, and obtain reasonable and effective conclusions through information synthesis.

5. Use of Modern Tools: Scientifically develop, select, and use appropriate technologies, resources, modern engineering tools, and information technology tools to solve complex pharmaceutical engineering problems, including prediction and simulation of such problems. Understand the scope of application and limitations of various tools and methods.

6. Engineering and Society: Based on relevant background knowledge of pharmaceutical engineering, reasonably analyze and evaluate the impacts of pharmaceutical professional engineering practices and solutions to complex pharmaceutical engineering problems on society, health, safety, laws, and culture, and understand the responsibilities to be undertaken in the implementation of solutions.

7. Environment and Sustainability: In pharmaceutical engineering practices addressing complex pharmaceutical engineering problems, demonstrate an understanding of the concepts and connotations of environmental protection and social sustainable development, and evaluate the impacts of pharmaceutical engineering practices on the environment and social sustainable development.

8. Professional Ethics: Understand and abide by the engineering ethics norms of the pharmaceutical industry, observe engineering professional ethics and standards, and fulfill responsibilities in pharmaceutical engineering practices.

9. Individual and Team Work: Possess good interpersonal communication skills and team spirit, and be able to assume the roles of individual, team member, and leader in multidisciplinary pharmaceutical teams.

10.  Communication: Effectively communicate and interact with industry peers and the public on complex pharmaceutical engineering problems through various means, including writing reports, design documents, making presentations, and clearly expressing or responding to instructions. Possess a certain international perspective and be able to communicate and interact on complex pharmaceutical engineering problems in cross-cultural contexts.

11. Project Management: Understand and master the principles of pharmaceutical engineering management and economic decision-making methods, and be able to apply them in project management in multidisciplinary environments.

12.  Lifelong Learning: Have the awareness of independent learning and lifelong self-improvement, and the ability to continuously learn and adapt to career development.

3Academic System and Degree Awarded

Flexible Academic System: 4-6 years

Degree Awarded: Bachelor of Engineering

 

4Basic Graduation Requirements and Degree Awarding Conditions

Basic Graduation Requirements:

Complete all content specified in the professional training plan within the prescribed study period, obtain the required credits for various courses and a minimum of 110.5 graduation credits, and meet the graduation requirements in morality, intelligence, and physical fitness.

Degree Awarding Conditions:

Graduates of this program who meet the relevant provisions of the "Implementation Rules for the Award of Bachelor's Degrees at Wuhan Institute of Technology" and pass HSK Level 4 will be awarded the Bachelor of Engineering degree.

 

5Curriculum System Structure and Credit Requirements for Various Courses

Course Category

Compulsory

Elective

Total

Proportion

 

General Education Courses (GEC)

26

 

26

23.11%

 

Disciplinary Basic Courses (DBC)

37.5

2

39.5

35.11%

 

Professional Elective Courses (PEC)                                                                                               

15

 

15

13.33%

Practical Training Courses (PTC) 

32

 

32

28.45%

 

Minimum Graduation Credits

110.5

 

112.5

——

 

Proportion of Elective Courses

 

 

 

 

 

 

6Core Professional Courses

Course Name

English Name

Credits

Remarks

药物制剂

Pharmaceutical Formulation

4

 

药物化学

Medicinal Chemistry

4

 

现行良好制造规范

Current Good Manufacturing Practices

3

 

药理学

Pharmacology

4

 

 

7Curriculum Settings and Teaching Schedule

1General Education Courses (26 Credits) 

Course Name

Credits

Class Hours

Semester

Offering College

Teacher 1

Teacher 2

Remarks

Overview of China

3

48

1

International College

 

 

Compulsory

Comprehensive Chinese (Elementary)

2

32

1

International College

 

 

Compulsory

Comprehensive Chinese (Intermediate)

2

32

2

International College

 

 

Compulsory

Comprehensive Chinese (Advanced)

2

32

3

International College

 

 

Compulsory

HSK Training

2

32

3

International College

 

 

Compulsory

Chinese Listening, Speaking, Reading and Writing (Elementary)

4

64

1

International College

 

 

Compulsory

Chinese Listening, Speaking, Reading and Writing (Intermediate)

4

64

2

International College

 

 

Compulsory

Chinese Listening, Speaking, Reading and Writing (Advanced)

4

64

3

International College

 

 

Compulsory

Chinese Culture

2

32

2

International College

 

 

Compulsory

Modern China

1

16

2

International College

 

 

Compulsory

 

(2) Disciplinary Basic Courses (39.5 Credits)

Course Name

Credits

Class Hours

Semester

Offering College

Teacher 1

Teacher 2

Remarks

Statistics

2

32

3

School of Mathematics and Physics

 

 

 

Organic Chemistry

4

64

3/4

School of Chemistry and Environmental Engineering

 

 

 

Engineering Mathematics

4

64

2

School of Mathematics and Physics

 

 

 

Chemistry

4

64

2

School of Chemistry and Environmental Engineering

 

 

 

Mass and Energy Balance

2.5

40

3

School of Chemical and Pharmaceutical Engineering

 

 

 

Biomolecular Science I

2

32

5

School of Environmental and Biological Engineering

 

 

 

Biomolecular Science II

2

32

6

School of Environmental and Biological Engineering

 

 

 

Engineering Principles I (heat and mass transfer)

2.5

40

2

School of Chemical and Pharmaceutical Engineering

 

 

 

Engineering Principles II (Fluid Mechanics)

2.5

40

3

School of Chemical and Pharmaceutical Engineering

 

 

 

Engineering Principles III (Reaction Engineering)

2.5

40

4

School of Chemical and Pharmaceutical Engineering

 

 

 

Programming for Engineering

2.5

40

4

School of Chemical and Pharmaceutical Engineering

 

 

 

Engineering Thermodynamics

2.5

40

3

School of Chemical and Pharmaceutical Engineering

 

 

 

Introduction to Design Innovation

2.5

40

4

School of Chemical and Pharmaceutical Engineering

 

 

 

Scientific Writing

2

32

5

School of Chemical and Pharmaceutical Engineering

 

 

 

Research Training

2

32

3-7

School of Chemical and Pharmaceutical Engineering

 

 

 

 

(3) Professional Courses (15 Credits)

Course Name

Credits

Class Hours

Semester

Offering College

Teacher 1

Teacher 2

Remarks

Pharmaceutical Formulation

4

64

6

School of Chemical and Pharmaceutical Engineering

Liu Ziwei

Deng Jing

 

Medicinal Chemistry

4

64

7

School of Chemical and Pharmaceutical Engineering

Long Sihui

Gu Shuangxi

 

Current Good Manufacturing Practices

3

48

6

School of Chemical and Pharmaceutical Engineering

Liu Hui

Cao Shuang

 

Pharmacology

4

64

7

School of Chemical and Pharmaceutical Engineering

Liu Genyan

Wu Fengshou

 

 

(4) Practical Training Courses (32 Credits)

 

Course Name

Credits

Class Hours

Semester

Offering College

Teacher 1

Teacher 2

Remarks

Chinese Cultural Practice (1)

1

16

2

International College

 

 

 

Chinese Cultural Practice (2)

1

16

4

International College

 

 

 

Labor Education (1)

1

16

2

International College

 

 

 

Labor Education (2)

1

16

4

International College

 

 

 

Modern Chinese National Conditions Education Practice

1

16

2

International College

 

 

 

Organic Chemistry Experiment

1.5

24

4

School of Chemistry and Environmental Engineering

 

 

 

Chemical Engineering Principles Experiment

2.5

40

5

School of Chemical and Pharmaceutical Engineering

 

 

 

Cognitive Internship

1

1weeks

4

School of Chemical and Pharmaceutical Engineering

 

 

Intensive Practice

Production Internship

4

4weeks

6

School of Chemical and Pharmaceutical Engineering

 

 

Intensive Practice

Graduation Internship

4

4weeks

7

School of Chemical and Pharmaceutical Engineering

 

 

Intensive Practice

Graduation Design (Thesis)

14

14weeks

8

School of Chemical and Pharmaceutical Engineering

 

 

 

 


8Guided Study Plan

Year 1

Fall Semester

Spring Semester


Course Code

Course Name

Course Category

Course Nature

Credits

Course Code

Course Name

Course Category

Course Nature

Credits


 

Overview of China

GEC

CompulsoryC

3

 

Comprehensive Chinese (Intermediate)

GEC

CompulsoryC

2


 

Comprehensive Chinese (Elementary)

GEC

CompulsoryC

2

 

Chinese Listening, Speaking, Reading and Writing (Intermediate)

GEC

CompulsoryC

4


 

Chinese Listening, Speaking, Reading and Writing (Elementary)

GEC

CompulsoryC

4

 

Chinese Culture

GEC

CompulsoryC

2


 

 

 

 

 

 

Modern China

GEC

CompulsoryC

1


 

 

 

 

 

 

Engineering Mathematics

DBC

CompulsoryC

4


 

 

 

 

 

 

Chemistry

DBC

CompulsoryC

4


 

 

 

 

 

 

Engineering Principles I(heat and mass transfer)

DBC

CompulsoryC

2.5


 

 

 

 

 

 

Programming for Engineering

DBC

CompulsoryC

2.5


 

 

 

 

 

 

Chinese Cultural Practice (1)

PTC

CompulsoryC

1


 

 

 

 

 

 

Labor Education (1)

PTC

CompulsoryC

1


 

 

 

 

 

 

Modern Chinese National Conditions Education Practice

PTC

CompulsoryC

1


Minimum Compulsory Credit Requirement: 9 Credits

Minimum Compulsory Credit Requirement: 25 Credits


Study Requirements:

Study Requirements:


Year 2

Fall Semester

Spring Semester


Course Code

Course Name

Course Category

Course Nature

Credits

Course Code

Course Name

Course Category

Course Nature

Credits


 

Comprehensive Chinese (Advanced)

GEC

CompulsoryC

2

 

Organic Chemistry2

DBC

CompulsoryC

2


 

HSK Training

GEC

CompulsoryC

2

 

Engineering Principles III (Reaction Engineering)

DBC

CompulsoryC

2.5


 

Chinese Listening, Speaking, Reading and Writing (Advanced)

GEC

CompulsoryC

4

 

Introduction to Design Innovation

DBC

CompulsoryC

2.5


 

Statistics

DBC

CompulsoryC

2

 

Chinese Cultural Practice (2)

PTC

CompulsoryC

1


 

Organic Chemistry1

DBC

CompulsoryC

2

 

Labor Education (2)

PTC

CompulsoryC

1


 

Mass and Energy Balance

DBC

CompulsoryC

2.5

 

Organic Chemistry Experiment

PTC

CompulsoryC

1.5


 

Engineering Principles II (Fluid Mechanics)

DBC

CompulsoryC

2.5

 

Cognitive Internship

PTC

CompulsoryC

1


 

Engineering Thermodynamics

DBC

CompulsoryC

2.5

 

 

 

 

 


 

Research Training

DBC

CompulsoryC

2

 

 

 

 

 


Minimum Compulsory Credit Requirement: 21.5 Credits

Minimum Compulsory Credit Requirement: 11.5 Credits


Study Requirements:

Study Requirements:


Year 3

Fall Semester

Spring Semester


Course Code

Course Name

Course Category

Course Nature

Credits

Course Code

Course Name

Course Category

Course Nature

Credits


 

Biomolecular Science I

DBC

CompulsoryC

2

 

Biomolecular science II

DBC

CompulsoryC

2


 

Chemical Engineering Principles Experiment

PTC

CompulsoryC

2.5

 

Pharmaceutical Formulation

PEC

CompulsoryC

4


 

Scientific Writing

DBC

CompulsoryC

2

 

Current Good Manufacturing Practices

PEC

CompulsoryC

3


Minimum Compulsory Credit Requirement: 6.5 Credits

Minimum Compulsory Credit Requirement: 13  Credits


Study Requirements:

Study Requirements:


Year 4

Fall Semester

Spring Semester


Course Code

Course Name

Course Category

Course Nature

Credits

Course Code

Course Name

Course Category

Course Nature

Credits


 

Medicinal Chemistry

PEC

CompulsoryC

4

 

Graduation Design (Thesis)

PTC

CompulsoryC

14


 

Graduation Internship

PTC

CompulsoryC

4

 

 

 

 

 


 

Pharmacology

PEC

CompulsoryC

4

 

 

 

 

 


 

 

 

 

 

 

 

 

 

 


 

 

 

 

 

 

 

 

 

 


 

 

 

 

 

 

 

 

 

 


 

 

 

 

 

 

 

 

 

 


Minimum Compulsory Credit Requirement:12   Credits

Minimum Compulsory Credit Requirement: 14 Credits


Study Requirements:

Study Requirements:



 

Overall Credit Distribution by Semester

 

Academic Year

Semester

Classroom Teaching

Experiments

 

Practical Teaching

Subtotal

Total

Remarks

One

1

9

 

 

9

34

 

2

22

 

3

25

Two

3

21.5

 

 

21.5

33

 

4

7

1.5

3

11.5

Three

5

4

2.5

 

6.5

19.5

 

6

9

 

4

13

Four

7

8

 

4

12

26

 

8

 

 

14

14

Total

80.5

4

28

112.5

112.5