iden dtk@che.ui.ac.id +62-7863-3516

International Bachelor Program

Bachelor Program (S1) International Chemical Engineering

The International Bachelor Program in the Department of Chemical Engineering, University of Indonesia (double-degree program) has been established between the Faculty of Engineering, University of Indonesia and the Department of Chemical Engineering Monash University Faculty of Engineering, Queensland University of Technology (QUT) and Curtin University of Technology.

The International Bachelor Program (“International Class”) promotes quality technical education through international collaboration where students study in two institutions, the first two years in the Chemical Engineering Department of the Faculty of Engineering, University of Indonesia and the next two years in Australia. After completing studies in Australia, students obtain a Bachelor of Engineering degree from a university in Australia and a Bachelor of Engineering degree after returning to the Faculty of Engineering after fulfilling certain requirements.

Study Requirements Credit
University Courses 3
Basic Technical Courses 18
Chemical Engineering Basic Courses 51
Chemical Engineering Courses At a partner university
(72)
Elective courses
Final Thesis / Project Total
Total 144

Monash University

The University of Queensland

Curtin University of Technology

Program Specification

1. Awarding Institution

a. Regular and Parallel: Universitas Indonesia

b. International Program:

  • Double Degree: Universitas Indonesia and Partner University 
  • Single Degree: Universitas Indonesia
2. Host Institution

a. Regular and Parallel: Universitas Indonesia

b. International Program:

  • Double Degree: Universitas Indonesia and Partner University
  • Single Degree: Universitas Indonesia
3. Faculty Engineering
4. Program Tittle Undergraduate Program in Chemical Engineering
5. Vision and Mission

Vision

Becoming a superior and competitive Chemical Engineering Study Program, through efforts to educate the nation’s life to improve people’s welfare, thus contributing to the development of Indonesian and world society

Missions

  1. Providing broad and fair access, as well as quality education and teaching in Chemical Engineering;
  2. Organizing quality Tridharma activities that are relevant to national and global challenges;
  3. Creating graduates of Chemical Engineering who are of high quality, noble character, and able to compete globally;
  4. Creating an academic climate that can support the realization of the vision of the Department
6. Class Regular, Parale, International
7. Final Award

a. Regular and Parallel: Sarjana Teknik (S.T)

b. International Program:

  • And Bachelor of Engineering (B.ENG)
  • Single Degree: Sarjana Teknik (S.T)
8. Accreditation / Recognition

Accredited: BAN-PT (Excellent), JABEE and IABEE

Assessment: AUN QA

9. Language(s) of Instruction

Regular and Parallel: Bahasa Indonesia

International Program: English

10. Study Scheme (Full Time / Part Time) Full Time
11. Entry Requirements
  • Regular and Parallel: Bahasa Indonesia
  • Regular and International Program: High Shool / equivalent
  • Parallel: High School /Equivalent, or D3 / Polytechnique / Equivalent, and Pass The Entrance Exam.
12. Study Duration 8 (eight) Semesters or 4 (Four) years
  Type of Semester Number of Semester Number of weeks / semester
  Regular 8 16
  Short (optional) 3 8
13.

Aims of the program is to provide the highest quality education so that graduates have:

  1. Able to apply their knowledge in working in the field of chemical process technology
  2. Able to develop themselves as industrial planners and managers
  3. Able to contribute to science and technology
14.

Graduate Profile:

Graduates of The Undergraduate Program of PSTK-FTUI should be able to contribute to the field of chemical engi- neering by applying chemical engineering principles with careful consideration of the engineering, economic, social, health and safety, energy, environment, sustainability, and ethical aspects; able to think critically, communicate effectively, and work in together in a multidisciplinary team.

15.

Expected Learning Outcomes:

  1. Able to communicate effectively, using spoken and written languages in Indonesian and English both for academic and non-academic activities
  2. Able to work in a multidisciplinary team.
  3. Capable of critical, creative, and innovative thinking, and also have the intellectual ability to solveproblems independently and interdependently.
  4. Capable of utilizing communication information technology
  5. Able to apply knowledge of mathematics and science in solving engineering problems.
  6. Able to apply mass and energy balances, thermodynamics, transport phenomena, and chemicalreaction engineering concepts in solving chemical engineering problems.
  7. Able to use modern chemical engineering tools.
  8. Able to conducts experiments and analyze the data obtained.
  9. Able to design components, systems, processes, and products related to the chemical engineering profession with careful consideration of the engineering, economic, social, health and safety,energy, environment, sustainability, and ethical aspects.
  10. Able to provide solutions to various problems that occurred wherever they live and work.
  11. Able to identify the kind of entrepreneurial approach needed based on innovation, self-reliance, and ethics.
  12. Continuously develop oneself to contribute in solving local and global problems.
16. Classification of Courses
No. Classification Credit Hours (SKS) Percentage
i University General Subjects 29 6,25%
ii Basic Engineering Subjects 25 17,36%
iii Core Subjects 75 52,08%
iv Elective Subjects 26 18,06%
v Special Subject (Internship, Seminar, Undergraduate Thesis or Skripsi) 9 6,25%
  Total 144 100%
Total Credit Hours to Graduate 144 SKS   

 

Employment Prospects

A graduate of the Chemical Engineering Study Program at UI can be described as a “Universal Engineer” as they learn the basics of engineering such as thermodynamics, reaction kinetics, and reactor design, separation processes, as well as transport phenomena (momentum, energy, and mass). Graduates of Chemical Engineering Department at UI have contributed in the following areas: energy (oil and gas industry), engineering contractor companies (engineering, procurement, construction, and trial operation), chemical industry (petrochemicals, bulk, and specialty chemicals), research and development of process and/or chemical products, and processing and synthesis of food products and pharmaceuticals.

Mapping Table for Achieving ELO in the Chemical Engineering Undergraduate Program

 

 

Courses Structure of Undergraduate Program in Chemical Engineering for International Class

 

  COURSES  
Code 1st Semester  Credits
UIGE600004 Religion Studies 2
ENGE610003 Calculus  4
ENGE610007 Physics (Electric, Magnet, Wave & Optic) 3
ENGE610008 Physics (Electric, Magnet, Wave & Optic) Laboratory 1
ENGE610009 Basic Chemistry 2
ENCH610001 Introduction to Chemical Engineering 2
ENCH610002 Communication Skills  2
ENCH610006 Mass and Energy Balances  3
  Subtotal 19
Code 2nd Semester Credits
UIGE600002 Academic Writing 2
ENGE610004 Linear Algebra 4
ENGE610005 Physics (Mechanics and Thermal) 3
ENGE610006 Physics(Mechanics and Thermal) Laboratory 1
ENCH610003 Organic Chemistry 3
ENCH610004 Basic Chem. and Org. Chem. Lab. 1
ENCH610005 Physical Chemistry 3
ENGE610010 Statistics and Probabilistic 2
   Subtotal 19
Code 3rd Semester Credits
ENCH610007 Numerical Computation 3
ENCH610008 Instrumental Analytical Chemistry 3
ENCH610009 Phys. Chem. and Anal. Chem. Lab. 1
ENCH610010 Transport Phenomena 3
ENCH610011 Fluid and Particle Mechanics 3
ENCH610012 Chemical Engineering Thermodynamics 4
ENCH610013 Material Science and Corrosion 3
   Subtotal 20
Code 4th Semester Credits
ENGE610012 Health, Safety and Environmental Protection  2
ENCH610014 Chemical Chemical Engineering Modeling 3
ENCH610015 Heat Transfer 3
ENCH610016 Mass Transfer 4
ENCH610017 Process Engineering Drawing 2
ENCH610018 Chemical Process Simulation 3
  Elective 1 3
   Subtotal 20
Code 5th Semester Credits
ENGE610011 Engineering Economics 3
ENCH610020 Unit Operation Laboratory 1 1
ENCH610021 Chemical Reaction Engineering 1 3
  Elective 2 3
  Elective 3 3
  Elective 4 3
  Elective 5 3
   Subtotal 19
Code 6th Semester Credits
UIGE600006 Integrated Character Building 5
ENCH610023 Process Control  3
ENCH610024 Unit Operation Laboratory 2 1
ENCH610025 Chemical Reaction Engineering 2 3
ENCH610026 Process Equipment Design 3
ENCH610027 Chemical Product Design 4
  Subtotal  19
Code 7th Semester Credits
ENCH610028 Industrial Project Management 2
ENCH610029 Plant Design 4
ENCH610030 Capita Selecta 2
ENCH610031 On the Job Training (Internship) 2
ENCH610032 Research Methodology and Seminar 2
  Elective 6 3
  Elective 7 3
  Subtotal  18
Code 8th Semester Credits
ENCH610033 Undergraduate 5
Elective 8 3
Elective 9 2
  Subtotal  10
  Total  144

 

List of Elective Courses in Odd Semester 
KODE/CODE MATA AJARAN COURSES CREDITS
ENCH800014 Industri Oleokimia Oleochemical Industry 3
ENCH800015 Teknologi Pangan Food Technology 3
ENCH800016 Rekayasa Protein Protein Engineering 3
ENCH800017 Teknologi Herbal  Herbal Technology 3
ENCH800018 Material Komposit Composite Material 3
ENCH800019 Termodinamika Terapan Applied Thermodynamics 3
ENCH800020 Sistem Dinamik Dynamic System 3
ENCH800021 Sifat Termodinamika Hidrokarbon Thermodynamic Properties of Hydrocarbon 3
ENCH800022 Teknologi Pelumas Lubricant Technology 3
ENCH800023 Teknologi Kriogenik Cryogenic Technology 3
ENCH800024 Teknik Pembakaran Combustion Technology 3
ENCH800025 Teknologi Plasma dan Ozon Plasmaand Ozone Technology  3
ENCH800026 Katalisis Heterogen Heterogeneous Catalytic 3
ENCH800027 Energi Berkelanjutan Sustainable Energy 3
ENCH800028 Manajemen Resiko Risk Management 3
ENCH800029 Teknologi Elektrokimia Electrochemical Technology 3
ENCH800030 Teknologi Ekstraksi dan Isolasi Bahan Alam Extraction Technology & Isolation for Natural Products  3
ENCH800031 Topik Khusus 1 Special Topic 1 3
ENCH800032 Biokimia Biochemistry 3
ENCH800033 Pengolahan Gas Bumi Natural Gas Processing 3
       
List of Elective Courses in Even Semester
KODE/CODE MATA AJARAN COURSES CREDITS
ENCH800034 Teknologi Penyimpanan dan Pengemasan Storage and Packing Technology 3
ENCH800035 Bioinformatics Bioinformatics 3
ENCH800036 Teknologi Obat dan Kosmetik Drugs and Cosmetics Technology 3
ENCH800037 Pengolahan Minyak Bumi Petroleum Processing 3
ENCH800038 Proses Petrokimia Petrochemical Processing 3
ENCH800039 Teknologi Fotokatalisis Photocatalytic Technology 3
ENCH800040 Eksplorasi dan Produksi Hidrokarbon Hydrocarbon Exploration and Production 3
ENCH800041 Pencegahan Pencemaran Waste Management and Prevention 3
ENCH800042 Teknologi Pengembangan dan Pemanfaatan Mikroalga Microalgae Cultivation and Development Technology 3
ENCH800043 Utilitas dan Pemeliharaan Pabrik Plant Utility and Maintenance 3
ENCH800044 Transportasi dan Pemanfaatan Gas Bumi Transportation and Utilization of Natural Gas 3
ENCH800045 Teknologi Pencampuran  Mixing Technology 3
ENCH800046 Kecakapan Pemecahan Masalah Problem Solving Skills 3
ENCH800047 Teknologi Polimer Polymer Technology 3
ENCH800048 Modifikasi Genetik Makhluk Hidup Genetically Modified Organism 3
ENCH800049 Teknologi Pelepasan terkendali Obat Controlled Drug Release Technology 3
ENCH800050 Topik Khusus 2 Special Topic 2 3
ENCH800051 Teknologi Konversi Termokimia Biomassa Biomass Thermochemical Conversion 3
ENCH800052 Dasar Pemrograman Basic Computer Programming 3

Courses Structure of Undergraduate Program in Chemical Engineering at Partner Universitys

Couse Structure in Chemical Engineering at Monash University

 

3rd Year Semester 5 (in July) Tahun 3 Semester 6 (in February)
Code Courses Credits Code Courses Credits
CHE3162 Process control 6 CHE3162 Chemistry and chemical thermodynamics 6
CHE3164 Reaction engineering 6 CHE3164 Sustainable processing I 6
CHE3166 Process design 6 CHE3166 Separation processes 6
  Choose one stream 6   Transport phenomena and numerical methods 6
  Subtotal 24   Subtotal 24
  
4th Year Semester 7 (in July) 4th Year Semester 8 (in February)
Code Courses Credits Code Courses Credits
CHE4162 Particle technology 6 CHE4161 Engineers in society 6
CHE4170 Design project 12 CHE4180 Chemical engineering project 12
  Choose one stream 6   Choose one stream 6
  Subtotal 24   Subtotal 24

 

Elective Courses

3rd Year 4th Year
Code Courses Credits Code Courses Credits

 

Biotechnology Stream

CHE3171 Bioprocess technology 6 BCH2011 Structure and function of cellular biomolecules 6
CHE4171 Biochemical engineering 6

 

Nanotechnology and Materials Stream

CHE3172 Nanotechnology and materials I 6 CHE4172 Nanotechnology and materials 2 6
MTE2541 Nanostructure of materials 6

 

Sustainable Processing Stream

CHE3175 Process engineering 6 CHE4173 Sustainable processing II 6
ENE3608 Environmental impact and management systems 6

Couse Structure in Chemical Engineering at Curtin University

3rd Year Semester 5 (in July) Tahun 3 Semester 6 (in February)
Code Courses Credits Code Courses Credits
CHE 223 Thermodynamics 25 ChE 322 Process Plant Engineering 25
CHE 324 Fluid & ParticleProcesses 25 ChE 312 Proc Syn & Design 1 12.5
CHE 325 ReactionEngineering 25 ChE 479 Advanced Special Topics 12.5
CHE 328 ProcessInstrumentation & Control 25 CHE Mass TransferOperations 25
      ChE 421 Risk Management 25
  Subtotal 100   Subtotal 100
 
4th Year Semester 7 (in July) 4th Year Semester 8 (in February)
Code Courses Credits Code Courses Credits
ChE 423 Process Economics & Management 25 ChE 481 Process Laboratory Projects 25
ChE 422 Advanced Separation Processes 25 ChE 414 Proc Syn & Design II 12.5
ChE 499 Design Project (Lectures/Feasibility Studies) 50 ChE 411 Advanced Process Control 12.5
      ChE 491  Research Project 12.5
    ChE 493 Research Project 12.5
      Optional Unit 12.5
      Optional Unit 12.5
  Subtotal 100   Subtotal 100

Elective Courses

 
Code Courses Credits
CHE374 Mineral processing 12.5
CHE475 Petroleum processing 12.5
CHE39 Special topics (biochemical engineering 12.5
CHE493 Research project 12.5
CHE477 Computational fluid dynamics 12.5
CHE313 Fundamentals of ari pollution control 12.5

Couse Structure in Chemical Engineering at University of Queensland.

 

3rd Year Semester 5 (in July) Tahun 3 Semester 6 (in February)
Code Courses Credits Code Courses Credits
CHEE3004 Unit operations 2 CHEE4002 Environmental risk assessment 2
CHEE3005 Reaction engineering 2 CHEE4009 Transport phenomena 2
CHEE3006 Process and control system synthesis 2 CHEE1001 Principles of biological engineering 2
CHEE3007 Process modeling and dynamics 2   Part B2 Advanced Elective 2
  Subtotal 8     8
 
4th Year Semester 7 (in July) 4th Year Semester 8 (in February)
Code Courses Credits Code Courses Credits
CHEE4001 Process engineering design project 4   Part B2 Advanced Elective 2
  Part B2 Advanced Elective 2   Part B2 Advanced Elective 2
  Part B2 Advanced Elective 2   Part B3 Advanced Elective 2
  Subtotal 8     6

Elective Courses

 
Code Courses Credits
Part B2 Advanced Electives
CHEE4003 Special Topics A 2
CHEE4005 Polymer rheology & processing 2
CHEE4006 Individual inquiry A 2
CHEE4007 Individual inquiry B 2
CHEE4012 Industrial wastewater & solid waste management 2
CHEE4015 Special Topics VII 2
CHEE4020 Biomolecular engineering 2
CHEE4021 Particle design & processing  2
CHEE4022 Principles of adsorption 2
CHEE4024 Energy systems in sustainable development 2
CHEE4028 Metabolic engineering 2
CHEE4301 Cell & tissue engineering 2
CHEE4302 Nanomaterials and their characterization 2
CHEE4101 Electrochemistry and corrosion 2
CHEE4102 Systems engineering & design management 2
CHEE4103 Advanced product design method 2

Part B3 Process Engineering Electives

CHEE2005 Chemical product design 2
CHEE3008 Special Topics C 12.5
CHEE3301 Polymer engineering 12.5
CHEE3305 Biomaterials: Materials in Medicine 12.5
CHEM2002 Biophysical chemistry  
CIVL3150 Modeling of environmental systems  
MINE2201 Physical & chemical processing of minerals  

Transition Guidance from Curriculum 2016 to 2020 for International Undergraduate Class

  1. New curriculum 2020 will be applied effectively from Odd Semester 2020/2021. In principle, after curriculum 2020 is implemented, then only courses from this new curriculum will be opened.
  2. For class 2019 and above will follow these transition rules.
  3. The enforcement of the transitional period is one year. During this transition period, if a course in curriculum 2020 is in odd Semester while in the previous curriculum in even Semester (vice versa), then this course can be held (if necessary) in both semesters.
  4. For students who have not passed the compulsory courses in curriculum 2016, are required to take the same course or equivalent in curriculum 2020.
Name of Courses in Curriculum
2016
Semester Credits
2016
Name of Courses in Curriculum
2020
Semester Credits
2020
Integrated Character Building A 6 6 Integrated Character Building 5 5
Integrated Character Building B 5 6
Academic Writing 1 2 Academic Writing 2 2
Introduction to Chemical Engineering 2 3 Introduction to Chemical Engineering 1 2
Molecular Biology 4 3 Biomistry Elective (Odd) 3
Natural Gas Processing 7 3 Natural Gas Processing Elective (Odd) 3
Sport/Art 1 1 Sport/Art
Undergraduate Thesis 8 4 Undergraduate Thesis 8 5
  1. When there is a change in the course credits, then the number of graduation credits counted in is the number of credits when it was taken. The same or equivalent courses, when are equated with different credits, if retaken, or just taken will be acknowledged under a new name and credits.
  2. When a compulsory subject in the curriculum 2016 is deleted, and there is no equivalence in the curriculum 2020 then:
    1. For students who have passed these subjects, the credits that are achieved will be counted in the calculation of graduation 144 credits.
    2. For students who did not pass these courses, they can take new compulsory courses or choose elective subjects in the curriculum 2020 to complete 144 credits.
  3. In addition to changes in curriculum structure from 2016 to 2020, there are also the addition of several elective courses: Teknologi Elektrokimia), Teknologi Pencampuran (Mixing Technology), Teknologi Pengembangan dan Pemanfaatan Mikroalga (Microalgae Cultivation and Development Technology), Teknologi Ekstraksi dan Isolasi Bahan Alam (Extraction & Isolation Technology for Natural Products), Konversi Termokimia Biomassa (Biomass Termochemical Conversion Technology), Modifikasi Genetik Makhluk Hidup (Genetically Modified Organism), dan Dasar Pemrograman Computer (Basic Computer Programming).

Curriculum 2020 for Fast-Track Undergraduate to Master in Chemical Engineering Study Program

Code Subject SKS
  7th Semester  
ENCH600027 Natural Gas Processing 3
ENCH600028 Industrial Project Management 2
ENCH600029 Plant Design 4
ENCH600031 Internship 2
ENCH600032 Research Methodology & Seminar 2
ENCH800001 Advanced Chemical Engineering Termodynamics 3
  Elective 5 3
  Elective 6 3
  Total 22
  8th Semester  
ENCH600033 Undergraduate Thesis 4
ENCH600030 Capita Selecta 2
ENCH800002 Advanced Transport Phenome- non 3
ENCH800003 Advanced Chemical Reaction Engineering 3
ENCH800004 Advanced Chemical Engineering Modelling 3
  Elective 7 3
  Total 18
  9th Semester  
ENCH800005 Research Methodology 3
ENCH800006 Pre-Thesis 4
  Elective 8 3
  Elective 9 3
  Total 13
  10th Semester  
ENCH800007 Thesis 4
ENCH800008 Research Publication 2
  Total 6

Curriculum 2020 for Fast-Track Undergraduate to Doctor in Chemical Engineering Study Program

Placement of Fast Track Undergraduate to Doctor Courses in Chemical Engineering Study Program from Chemical Engineering Undergraduate Program
Code Subject SKS
  7th Semester  
ENCH600027 Natural Gas Processing 3
ENCH600028 Industrial Project Management 2
ENCH600029 Plant Design 4
ENCH600031 Internship 2
ENCH600032 Research Methodology & Seminar 2
ENCH800001 Advanced Chemical Engineering Termodynamics 3
  Elective 5 3
  Elective 6 3
  Total 22
  8th Semester  
ENCH600033 Undergraduate Thesis 4
ENCH600030 Capita Selecta 2
ENCH800002 Advanced Transport Phenome- non 3
ENCH800003 Advanced Chemical Reaction Engineering 3
ENCH800004 Advanced Chemical Engineering Modelling 3
  Elective 7 3
  Total 18
  9th Semester  
ENCH800005 Research Methodology 3
ENCH800006 Pre-Thesis 4
  Elective 8 3
  Elective 9 3
ENCH900001 Periodic Seminar in Research Group 8
  Total 21
  10th Semester  
ENCH800007 Thesis 4
ENCH800008 Research Publication 2
ENCH900002 Research Proposal 6
  Total 12
  11th Semester  
ENCH900003 Publication 1 – International Conference 6
  Total 6
  12th Semester  
ENCH900004 Research Defense 10
  Total 10
  13th Semester  
ENCH900005 Publication 2 – International Journal 8
  Total 8
  14th Semester  
ENCH900006 Publication 3 – International Journal 8
ENCH900007 Doctoral Promotion 6
  Total 14
     

Placement of Fast Track Undergraduate to Master Courses in Chemical Engineering Study Program from Bioprocess Engineering Undergraduate Program

Code Subject SKS
  7th Semester  
ENCH600027 Natural Gas Processing 3
ENCH600028 Industrial Project Management 2
ENCH600029 Plant Design 4
ENCH600031 Internship 2
ENCH600032 Research Methodology & Seminar 2
ENCH800001 Advanced Chemical Engineering Termodynamics 3
  Elective 5 3
  Elective 6 3
  Total 22
  8th Semester  
ENBE600035 Undergraduate Thesis 4
ENBE600032 Capita Selecta 2
ENCH800003 Advanced Chemical Reaction Engineering 3
ENCH800002 Advanced Transport Phenome- non 3
ENCH800004 Advanced Chemical Engineering Modelling 3
ENCH80000X Elective 7 3
  Total 18
  9th Semester  
ENCH800005 Research Methodology 3
ENCH800006 Pre-Thesis 4
ENCH80000X Elective 8 3
ENCH80000X Elective 9 3
  Total 13
  10th Semester  
ENCH800007 Thesis 4
ENCH800008 Research Publication 2
  Total 6
     
Placement of Fast Track Undergraduate to Doctor Courses in Chemical Engineering Study
Code Subject SKS
  7th Semester  
ENBE600029 Bioprocess Waste Treatment 3
ENBE600030 Industrial Project Management 2
ENBE600031 Plant Design 4
ENBE600033 Internship 2
ENBE600034 Research Methodology & Seminar 2
ENCH800001 Advanced Chemical Engineering Termodynamics 3
  Elective 5 3
  Elective 6 3
  Total 22
  8th Semester  
ENBE600035 Undergraduate thesis 4
ENBE600032 Capita Selecta 2
ENCH800003 Advanced Chemical Reaction Engineering 3
ENCH800002 Advanced Transport Phenome- non 3
ENCH800004 Advanced Chemical Engineering Modelling 3
ENCH80000X Elective 7 3
  Total 18
  9th Semester  
ENCH800005 Research Methodology 3
ENCH800006 Pre-Thesis 4
ENCH80000X Elective 8 3
ENCH80000X Elective 9 3
ENCH900001 Periodic Seminar of Research Group 8
  Total 21
  10th Semester  
ENCH800007 Thesis 4
ENCH800008 Research Publication 2
ENCH900002 Research Proposal 6
  Total 12
  11th Semester  
ENCH900003 Publication 1 – International Conference 6
  Total 6
  12th Semester  
ENCH900004 Research Defense 10
  Total 10
  13th Semester  
ENCH900005 Publication 2 – International Journal 8
  Total 8
  14th Semester  
ENCH900006 Publication 3 – International Journal 8
ENCH900007 Doctoral Promotion 6
  Total 14