HCMC UNIVERSITY OF TECHNOLOGY AND EDUCATION
FACULTY OF CHEMICAL AND FOOD TECHNOLOGY
---oOo---
The Programme Specification
CHEMICAL ENGINEERING TECHNOLOGY
1. Awarding institution: HCMC University of Technology and Education
2. Name of final award: Bachelor of Engineering
3. Name of program: CHEMICAL ENGINEERING TECHNOLOGY
4. Training degree: Bachelor of Engineering
5. Programme code: 7510401
6. Training time: 4 years (The normal period of study is four years and the maximum period is eight years).
7. Admission criteria
Admission is based on their high school academic achievement (maximum 50% of the total enrollment), GPA of 5 semesters (except the 2nd semester of grade 12) of 3 subjects in a group and based on their result of National High School Certificate Examination. Candidates can use their scores in groups of Mathematics, Physics, Chemistry (A00), or in groups of Mathematics, Chemistry, English (D07) or Mathematics, Chemistry, Biology (B00) or group of Mathematics, English, natural sciences (D90) to apply for admission to the CET programme. HCMUTE selects candidates based on quotation and the cut-off scores of Ministry of Education and Training (MOET). Candidates will be selected with priority from high to low according to their scores.
Besides, HCMUTE has many policies to attract talent students to elevate admission quality such as direct enrolling students who are awarded 1st, 2nd, 3th prizes in Olympic Competition at National level for high school students or STEM competence. The priority of admission is also considered for high school student awarded 1st, 2nd, 3th prizes in Olympic Competition at Province level; 4th or extra prizes Olympic awards organizing for high school students at National levels; good students from gifted high schools; top 200; enrolling students with good scores in English examinations (IELTS, SAT) and also applied for HCMUTE-linked high schools.
8. Programme objectives
The CET programme is to prepare students:
PO1. Graduates will be able to apply the scientific and technological knowledge to achieve career success in the chemical engineering
technology or other related fields, and being a responsible citizen in the society.
PO2. Graduates will be able to become competent team leader or qualified team member who can solve practical scientific and technical challenges
PO3. Graduates will be able to participate in further education or research to pursue their professional development.
9. Expected learning outcomes
After successful completion the CET Programme, graduates will be able to demonstrate and attain the following ELOs:
ELO1. an ability to identify, formulate, and solve complex engineering problems in field of the Chemical Engineering Technology by applying principles of engineering, science, and mathematics.
ELO2. an ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions in field of the Chemical Engineering Technology.
ELO3. an ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts.
ELO4. an ability to acquire and apply new knowledge as needed, using appropriate learning strategies.
ELO5. an ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives.
ELO6. an ability to communicate effectively with a range of audiences, and to communicate in English language.
ELO7. an ability to apply engineering design to produce solutions that meet specified needs in field of the Chemical Engineering Technology with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors.
ELO8. an ability to implement engineering systems in field of the Chemical Engineering Technology.
ELO9. an ability to operate and manage engineering systems in field of the Chemical Engineering Technology.
10. Programme structure
Name
|
Credit
|
Total
|
Compulsory
|
Elective
|
General knowledge block
|
63
|
59
|
4
|
Plolitics and Law
|
13
|
13
|
0
|
Science and Maths
|
28
|
28
|
0
|
Social Sciences
|
4
|
0
|
4
|
Foreign Languages
|
12
|
12
|
0
|
Introduction to Chemical Engineering Technology
|
3
|
3
|
0
|
Informatics
|
3
|
3
|
0
|
Professional knowledge block
|
87
|
75
|
12
|
Fundametal courses
|
49
|
49
|
0
|
Specialized courses
|
10
|
0
|
10
|
Practical courses
|
14
|
12
|
2
|
Internship
|
4
|
4
|
0
|
Graduation thesis
|
10
|
10
|
0
|
11. Programme content (name and required course structure)
11.1 General knowledge block (63 credits)
11.1.a Compulsory Courses (59 credits)
No.
|
Course Code
|
Course name
|
Credit
|
Note
|
I.
|
|
Politics and Law
|
13
|
|
|
LLCT130105
|
The philosophy of Marxism - Leninism
|
3
|
|
|
LLCT120205
|
Political Economics of Marxism and Leninism
|
2
|
|
|
LLCT120405
|
Sicience socialist
|
2
|
|
|
LLCT120314
|
Ho Chi Minh’s Ideology
|
2
|
|
|
LLCT220514
|
History of Vietnamese communist party
|
2
|
|
|
GELA220405
|
General Laws
|
2
|
|
II.
|
|
Science and Maths
|
28
|
|
|
MATH132401
|
Caculus 1
|
3
|
|
|
MATH132501
|
Caculus 2
|
3
|
|
|
MATH132601
|
Caculus 3
|
3
|
|
|
PHYS130902
|
Physics 1
|
3
|
|
|
PHYS131002
|
Physics 2
|
3
|
|
|
GCHE130603
|
General chemistry
|
3
|
|
|
TEDG130120
|
Technical drawing - Basic course
|
3
|
(2+1)
|
|
ELEE220144
|
Electrical Engineering
|
2
|
|
|
ICHE231003
|
Inorganic Chemistry
|
3
|
|
|
TSCL120803
|
Safety and techniques in chemistry lab
|
2
|
|
III.
|
|
Foreign Language
|
12
|
|
|
ENGL130137
|
English 1
|
3
|
|
|
ENGL130237
|
English 2
|
3
|
|
|
ENGL130337
|
English 3
|
3
|
|
|
ENGL130437
|
English 4
|
3
|
|
|
|
Introduction
|
3
|
|
|
ICHE130703
|
Introduction to Chemical Enginering Technology
|
3
|
(2+1)
|
|
|
Informatics
|
3
|
|
|
ADMO138685
|
Advanced microsoft office
|
3
|
(2+1)
|
|
|
Physical Education
|
5
|
|
|
PHED110513
|
Physical Education 1
|
1
|
|
|
PHED110613
|
Physical Education 2
|
1
|
|
|
PHED130715
|
Physical Education 3 (Sttudent register)
|
3
|
|
|
|
National Defense Education
|
|
|
|
|
National Defense Education
|
165 hours
|
Ministry of
Education and
Training
|
Total
(Physical Education and National Defense Education courses are not included)
|
59
|
|
11.1.b Elective Courses (4 credits)
No.
|
Course Code
|
Course name
|
Credit
|
Note
|
I.
|
|
Social Sciences
|
4
|
|
|
GEFC220105
|
General Economics
|
2
|
Choose 4 credits
|
|
IQMA220205
|
Quality Management
|
2
|
|
INMA220305
|
Introduction to Management
|
2
|
|
WOPS120390
|
Workplace Skills
|
2
|
Total
|
4
|
|
11.2 Professional knowledge block
11.2.a Compulsory Courses (75 credits)
No.
|
Course Code
|
Course name
|
Credit
|
Note
|
I.
|
|
Fundametal courses
|
49
|
|
|
FLUI220132
|
Fluid mechanics
|
2
|
|
|
APME221021
|
Applied mechanics
|
2
|
|
|
OCHE231403
|
Organic chemistry
|
3
|
|
|
ACHE231203
|
Analytical chemistry
|
3
|
|
|
IANM323303
|
Instrumental analytical methods
|
2
|
|
|
PCHE221603
|
Physical Chemistry 1
|
2
|
|
|
PCHE221703
|
Physical Chemistry 2
|
2
|
|
|
THER222932
|
Thermal Engineering
|
2
|
|
|
HTPE231903
|
Heat Transfer Operations
|
3
|
|
|
MTPE232003
|
Mass transfer Operations
|
3
|
|
|
MPRO232103
|
Mechanical proces and equipments
|
3
|
|
|
POCH323103
|
Polymer Chemistry
|
2
|
|
|
SEPC232503
|
Statistics and experimental planning in chemical technology
|
3
|
|
|
PWPD322703
|
Design project of Chemical engineering
|
2
|
|
|
ENCO326503
|
Enterprise collaboration
|
2
|
|
|
TINO322903
|
Technology of inorganic substances
|
2
|
|
|
FMSE222803
|
Fundamentals of materials science and engineering
|
2
|
|
|
CREN222203
|
Chemical reaction engineering
|
2
|
|
|
FDMF232603
|
Fundamentals of Chemical Engineering Design
|
3
|
|
|
ELET323203
|
Electrochemical technology
|
2
|
|
|
TORS323003
|
Technology of organic substances
|
2
|
|
II.
|
|
Practical courses
|
12
|
|
|
EGCH110903
|
Experiment in general chemistry
|
1
|
|
|
EICH221103
|
Experiments in inorganic chemistry
|
2
|
|
|
EACH221303
|
Experiment in analytical chemistry
|
2
|
|
|
EOCH221503
|
Experiment in organic chemistry
|
2
|
|
|
EPCH221803
|
Experiments in physical chemistry
|
2
|
|
|
ERPD222303
|
Experiment on processes and equipments
|
2
|
|
|
EAAM416903
|
Experiments For Modern Analysis Methods
|
1
|
|
III.
|
|
Internship
|
4
|
|
|
GRAP446703
|
Internship
|
4
|
|
IV.
|
|
Graduation thesis
|
10
|
|
|
GRAS436603
|
Seminar for graduation
|
3
|
|
|
GRAT476803
|
Graduation Thesis
|
7
|
|
Total
|
75
|
|
11.2.a Elective Courses (12 credits)
No.
|
Course Code
|
Course name
|
Credit
|
Note
|
I
|
|
Specialized courses
(Choose 1 groups)
|
10
|
|
I.1.
|
|
Group of Organic Chemical Engineering Technology
|
10
|
|
|
TDET423503
|
Technology of detergents
|
2
|
Choose 10 credits
|
|
IORP423603
|
Industrial organic pigments
|
2
|
|
FSTE423703
|
Fragrance science & technology
|
2
|
|
TECP423803
|
Technology of cosmetic products
|
2
|
|
SIOC423903
|
Spectroscopic identification of organic compounds
|
2
|
|
PSTE424003
|
Papermaking science and technology
|
2
|
|
TAGP424103
|
Technology of agrochemical products
|
2
|
|
TEDY424203
|
Dyeing and finishing technologies
|
2
|
|
MCHE424803
|
Medicinal chemistry
|
2
|
I.2.
|
|
Group of Inorganic Chemical Engineering Technology
|
10
|
Choose 10 credits
|
|
TFER424403
|
Technology of fertilizer
|
2
|
|
TCER424503
|
Ceramic Technology
|
2
|
|
TCEM424603
|
Technology of cement
|
2
|
|
PCSI424703
|
Physical chemistry of the silicate
|
2
|
|
SCIM424903
|
Structural characterization of inorganic materials
|
2
|
|
TMIP425003
|
Technology of mineral processing
|
2
|
|
TPIG425103
|
Technology of pigment
|
2
|
|
AIMA425203
|
Advanced inorganic materials
|
2
|
I.3.
|
|
Group of Polymer Chemical Engineering Technology
|
10
|
|
|
TPCM425403
|
Polymer composite materials
|
2
|
Choose 10 credits
|
|
TPLA425503
|
Technology of plastics manufacture
|
2
|
|
FRUT25603
|
Rubber technology
|
2
|
|
MAEP425703
|
The methods of analysis and evaluation polymer materials
|
2
|
|
TPOP425803
|
Techniques of polymer processing
|
2
|
|
TAPO425903
|
Technology of Adhesive Polymer
|
2
|
|
TTFP426003
|
Technology of plastic film
|
2
|
|
ADPO426103
|
Polymers with special features
|
2
|
|
TFIB426203
|
Technology of the manufacturing polymer fibers
|
2
|
|
TPAI426303
|
Technology of paint and vecni
|
2
|
II.
|
|
Practical courses
|
2
|
|
|
ESOC424303
|
Lab experiments for applied organic chemistry
|
2
|
Choose 2 credits
|
|
EICT425303
|
Specific Experiments in Inorganic Chemical Technology
|
2
|
|
ESPO426403
|
Lab experiments for polymers technology
|
2
|
Total
|
12
|
|
12. Curriculum planning (anticipated and applied for the main semesters: from 1st semester to 8th semester).
Courses that are not included in the curriculum plan, the AAO will open classes in every semesters for
students to make their own study plans:
No.
|
Course Code
|
Course name
|
Credit
|
Prerequisite
Course Code
|
|
LLCT120205
|
Political Economics of Marxism and Leninism
|
2
|
HT_LLCT130105
|
|
LLCT120405
|
Sicience socialism
|
2
|
HT_LLCT130105
|
|
LLCT120314
|
Ho Chi Minh’s ideology
|
2
|
HT_LLCT130105
|
|
LLCT220514
|
History of Vietnamese communist party
|
2
|
HT_LLCT130105, HT_LLCT120205, HT_LLCT120405
HT_LLCT120314
|
|
GELA220405
|
General law
|
2
|
|
|
PHED110613
|
Physical Education 2
|
1
|
|
|
PHED130715
|
Physical Education 3
|
3
|
|
|
|
National Defense Education
|
165 hours
|
|
Total
(Physical Education and National Defense Education courses are not included)
|
10
|
|
1st Semester
No.
|
Course Code
|
Course Name
|
Credit
|
Prerequisite
Course Code
|
|
LLCT130105
|
The philosophy of Marxism - Leninism
|
3
|
HT_LLCT120205
|
|
MATH132401
|
Calculus1
|
3
|
|
|
ICHE130703
|
Introduction to Chemical Enginering Technology
|
3 (2+1)
|
|
|
TSCL120803
|
Safety and techniques in chemistry lab
|
2
|
|
|
ADMO138685
|
Advanced Microsoft Office
|
3 (2+1)
|
|
|
GCHE130603
|
General Chemistry
|
3
|
|
|
PHYS130902
|
Physics 1
|
3
|
|
|
PHED110513
|
Physical Education 1
|
1
|
|
Total
(Physical Education 1 is not included)
|
20
|
|
2nd Semester
No.
|
Course Code
|
Course Name
|
Credit
|
Prerequisite
Course Code
|
|
MATH132501
|
Calculus 2
|
3
|
HT_MATH132401
|
|
EGCH110903
|
Experiment on general chemistry
|
1
|
HT_GCHE130603
HT_TSCL120803
|
|
ICHE231003
|
Inorganic chemistry
|
3
|
HT_GCHE130603
|
|
PHYS131002
|
Physics 2
|
3
|
HT_PHYS130902
|
|
PCHE221603
|
Physical Chemistry 1
|
2
|
HT_GCHE 130603
HT_MATH132401
HT_PHYS130902
|
|
OCHE231403
|
Organic chemistry
|
3
|
HT_GCHE130603
|
|
GEFC220105
IQMA220205
INMA220305
WOPS120390
|
Social Sciences (choose 4 credits)
General economics
Quality management
Introduction to management
Workplace skills
|
2
2
2
2
|
|
Tổng
|
19
|
|
3rd Semester
No.
|
Course Code
|
Course Name
|
Credit
|
Prerequisite
Course Code
|
|
MATH132601
|
Caculus 3
|
3
|
HT_MATH132501
|
|
FLUI220132
|
Fluid mechanics
|
2
|
HT_MATH132401
HT_MATH132501
HT_PHYS130902
HT_PHYS131002
|
|
ACHE231203
|
Analytical chemistry
|
3
|
HT_GCHE130603
|
|
EOCH221503
|
Experiment in organic chemistry
|
2
|
HT_OCHE231403
HT_TSCL120803
|
|
PCHE221703
|
Physical Chemistry 2
|
2
|
HT_GCHE 130603
HT_MATH132401
HT_PHYS130902
|
|
APME221021
|
Applied Mechanics
|
2
|
HT_MATH132401
HT_MATH132501
HT_PHYS130902
HT_PHYS131002
|
|
EICH221103
|
Experiments in inorganic chemistry
|
2
|
HT_ICHE231003
HT_TSCL120803
|
|
MPRO232103
|
Mechanical proces and equipments
|
3
|
HT_MATH132401
HT_MATH132501
HT_MATH132601
HT_PHYS130902
HT_PHYS131002
|
|
THER222932
|
Thermal Engineering
|
2
|
HT_MATH132401
HT_MATH132501
HT_PHYS130902
HT_PHYS131002
HT_GCHE130603
|
Tổng
|
21
|
|
4th Semester
No.
|
Course Code
|
Course Name
|
Credit
|
Prerequisite
Course Code
|
|
EACH221303
|
Experiment in analytical chemistry
|
2
|
HT_ACHE231203
HT_TSCL120803
|
|
EPCH221803
|
Experiments in physical chemistry
|
2
|
HT_PCHE221603
HT_PCHE221703
HT_TSCL120803
|
|
POCH323103
|
Polymer Chemistry
|
2
|
HT_OCHE231403
|
|
MTPE232003
|
Mass transfer Operations
|
3
|
HT_MPRO232103
|
|
HTPE231903
|
Heat Transfer Operations
|
3
|
HT_THER222932
HT_FLUI220132
HT_MATH132601
|
|
ELEE220144
|
Electrical Engineering
|
2
|
|
|
IANM323303
|
Instrumental analytical methods
|
2
|
HT_ACHE231203
|
|
TEDG130120
|
Technical drawing - Basic course
|
3
|
|
Tổng
|
19
|
|
5th Semester
No.
|
Course Code
|
Course Name
|
Credit
|
Prerequisite
Course Code
|
|
TINO322903
|
Technology of inorganic substances
|
2
|
HT_ICHE231003
|
|
FMSE222803
|
Fundamentals of materials science and engineering
|
2
|
HT_GCHE130603
HT_ICHE231003
|
|
CREN222203
|
Chemical reaction engineering
|
2
|
HT_MTPE232003
HT_HTPE231903
|
|
FDMF232603
|
Fundamentals of Chemical Engineering Design
|
3
|
HT_MTPE232003
HT_HTPE231903
HT_FLUI220132
HT_APME221021
HT_MPRO232103
|
|
ELET323203
|
Electrochemical technology
|
2
|
HT_PCHE221603
HT_PCHE221703
|
|
TORS323003
|
Technology of organic substances
|
2
|
HT_OCHE231403
|
|
SEPC232503
|
Statistics and experimental planning in chemical technology
|
3
|
HT_MATH132401
HT_MATH132501
|
Tổng
|
16
|
|
6th Semester
No.
|
Course Code
|
Course Name
|
Credit
|
Prerequisite
Course Code
|
6A. Compulsoty Courses
|
|
|
ERPD222303
|
Experiment on processes and equipments
|
2
|
HT_DOHT231903
HT_TSEP232003
HT_MPRO232103
HT_TREA222203
|
|
PWPD322703
|
Design project of Chemical engineering
|
2
|
HT_DOHT231903
HT_TSEP232003
HT_MPRO232103
HT_TREA222203
HT_FDMF232603
HT_TEDG130120
|
6B. Elective courses
|
|
|
6B1. Group of Organic Chemical Engineering technology: (choose 10 credits)
|
(10)
|
|
|
TDET423503
|
Technology of detergents
|
2
|
HT_OCHE231403
|
|
IORP423603
|
Industrial organic pigments
|
2
|
HT_OCHE231403
|
|
FSTE423703
|
Fragrance science & technology
|
2
|
HT_OCHE231403
|
|
TECP423803
|
Technology of cosmetic products
|
2
|
HT_OCHE231403
|
|
SIOC423903
|
Spectroscopic identification of organic compounds
|
2
|
HT_OCHE231403
|
|
PSTE424003
|
Papermaking science and technology
|
2
|
HT_OCHE231403
|
|
TAGP424103
|
Technology of agrochemical products
|
2
|
HT_OCHE231403
|
|
TEDY424203
|
Dyeing and finishing technologies
|
2
|
HT_OCHE231403
|
|
MCHE424803
|
Medicinal chemistry
|
2
|
HT_OCHE231403
|
6B2. Group of Inorganic Chemical Engineering technology: (choose 10 credits)
|
(10)
|
|
|
TFER424403
|
Technology of fertilizer
|
2
|
HT_ICHE231003
HT_TINO322903
|
|
TCER424503
|
Ceramic Technology
|
2
|
HT_ICHE231003
HT_TINO322903
|
|
TCEM424603
|
Technology of cement
|
2
|
HT_ICHE231003
HT_TINO322903
|
|
PCSI424703
|
Physical chemistry of the silicate
|
2
|
HT_PCHE221603
HT_PCHE221703
|
|
SCIM424903
|
Structural characterization of inorganic materials
|
2
|
HT_FMSE222803
HT_ICHE231003
|
|
TMIP425003
|
Technology of mineral processing
|
2
|
HT_ICHE231003
HT_TINO322903
|
|
TPIG425103
|
Technology of pigment
|
2
|
HT_ICHE231003
HT_TINO322903
|
|
AIMA425203
|
Advanced inorganic materials
|
2
|
HT_ICHE231003
HT_FMSE222803
|
6B3. Group of Polymer Chemical Engineering technology: (choose 10 credits)
|
(10)
|
|
|
TPCM425403
|
Polymer composite materials
|
2
|
HT_POCH323103
|
|
TPLA425503
|
Technology of plastics manufacture
|
2
|
HT_POCH323103
|
|
FRUT425603
|
Rubber technology
|
2
|
HT_POCH323103
|
|
MAEP425703
|
The methods of analysis and evaluation polymer materials
|
2
|
HT_POCH323103
|
|
TPOP425803
|
Techniques of polymer processing
|
2
|
HT_POCH323103
|
|
TAPO425903
|
Technology of Adhesive Polymer
|
2
|
HT_POCH323103
|
|
TTFP426003
|
Technology of plastic film
|
2
|
HT_POCH323103
|
|
ADPO426103
|
Polymers with special features
|
2
|
HT_POCH323103
|
|
TFIB426203
|
Technology of the manufacturing polymer fibers
|
2
|
HT_POCH323103
|
|
TPAI426303
|
Technology of paint and vecni
|
2
|
HT_POCH323103
|
Tổng
|
14
|
|
7th Semester
No.
|
Course Code
|
Course Name
|
Credit
|
Prerequisite
Course Code
|
7A. Compulsory Courses
|
|
|
|
EAAM416903
|
Experiments For Modern Analysis Methods
|
1
|
HT_IANM323303
|
|
GRAP426703
|
Internship
|
4
|
HT_PWPD312703
|
|
ENCO326503
|
Enterprise collaboration
|
2
|
HT_ICHE130703
|
7B. Elective Courses
|
|
|
ESOC424303
|
Lab experiments for applied organic chemistry
|
2
|
10 credits of 6B1 group
|
|
EICT425303
|
Specific Experiments in Inorganic Chemical Technology
|
2
|
10 credits of 6B2 group
|
|
ESPO426403
|
Lab experiments for polymers technology
|
2
|
10 credits of 6B3 group
|
Tổng
|
9
|
|
8th Semester
No.
|
Course Code
|
Course Name
|
Credit
|
Prerequisite
Course Code
|
|
GRAT476803
|
Graduation Thesis
|
7
|
HT_EAAM416903
HT_GRAP426703
|
|
GRAS436603
|
Seminar for graduation
|
3
|
HT_GRAP426703
|
Tổng
|
10
|
|
13. Progression points
Students must obtain a mark of 5.0 out of 10.0 for all courses (for class of 2021 is 4.0)
In case where a student fails to accumulate a GPA (scales of 10) of 3.0 for the first year, or 3.5
for the second year, or 4.0 for the third year or 4.5 from the fourth year or over allowable study
time, he or she will be required to withdraw from the programme.
14. The modification of programme structure from 2023
The department of Chemical Engineering Technology has decided to modify some courses and their syllabuses from 2023 onwards. The detailed can be found here.
14. Special features
A five-day introduction programme in the first week of the first year
A eight-week internship at companies in some companies related to chemical engineering technology.
The last semester for a capstone project that is orally defended
One course’s projects
Many courses related to experiments and practices.
15. Job Opportunities
The CET programme equips graduates with competences to meet various of requirement of different labor market, especially in some main sectors including: operate production system, production management, quality assurance, quality control, R&D, technical sale, technical service… Job opportunities are listed as below:
(i) Factories in the field of Inorganic, Organic and Polymer Chemical Engineering.
- Design, supervise and operate the production system.
- Quality Assurance: evaluate and assure the quality of the production system.
- Quality Control: inspect and evaluate quality of final products.
- R & D: research and develop new product to meet customer’s requirements.
- Sale Technical: technical advice
- Technical service: solve technical problems for customers
(ii) Univerities: Teach on Chemical Engineering Technology fields.
(iii) Research Institutions: Research in the field of Chemistry.
16. Facilities and infrastructure
16.1. Laboratory: organic chemistry laboratory, analytical chemistry laboratory, inorganic chemistry laboratory, polymer chemistry laboratory, machine and equipment laboratory.
16.2. Librabry, website
The library of HCMUTE includes various types of reference books in Vietnamese, reference books in foreign languages mainly in English, textbooks, various types of dictionaries, technical standards, scientific research reports, theses and projects of undergraduate students. 374,695 Textbooks; 122,129 Vietnamese Literature Books; 10,158 foreign language books; 7801 graduation projects, 7205 master thesis - scientific research reports; and more than 35 newspaper and magazine titles and 50 externally linked electronic libraries for all disciplines.
Websites:
- Sciencedirect.com
- Spigerlink.com
- Wiley.com
- http://vinacel.hcmute.edu.vn
- http://thuvien.hcmute.edu.vn
17. Date of issue: 1st June 2015
18. Date of last revision: 1st June 2020
Rector of HCMUTE
Assoc. Prof. DO VAN DUNG
|
Dean of FCFT
Assoc. Prof. NGUYEN TAN DUNG
|