Net Zero-Carbon Fuels

Course Overview

Course Title: Net Zero-Carbon Fuels

Relevant SDGs: SDG 7- Clean and Affordable Energy

Credit(s): 2 credits (32 hours)

Course Description:

As nations bind together to tackle global climate change, one of the urgent needs is the energy sector’s transition from being fossil-fuel reliant to embracing sustainable carbon-free solutions. Through a multi-national collaboration, this course aims to introduce a redefined perspective of fuel utilisation for the power and transportation sectors, placing emphasis on alternative fuels derived from renewable resources that are essential contributors to the goals of carbon neutrality. Some of the low or zero-carbon fuels such as hydrogen, ammonia, biofuels and emerging low carbon fuels adaptable to current or new energy systems will be explored in the context of production, utilisation, economics and sustainability. The impacts of future fuels on the environment, resource availability and social well-being need to be holistically considered and supported by diverse solutions, in alignment with the Sustainable Development Goals of Affordable and Clean Energy (SDG 7) and other related SDGs as put forth by the United Nations. From this course, the students will grasp the broad concept of alternative fuel production, application and challenges faced in moving towards a net zero-carbon society.   

What skills will students get?

Upon completion of the course, the students will be able to:

  1. Describe the roles of alternative fuels for power and transportation sectors in the context of carbon neutrality in China and relate to the sustainable development goals.
  2. Describe the production process, potential application and limitations of alternative fuels in the context of power and transportation sectors.
  3. Assess the impact of alternative fuel usage on the local resources, society and nation in alignment of the sustainable development goals

Each student will receive an E-certificate from Shanghai Jiao Tong University. The credits (2) are transferable depending on the credit arrangements policy of the student’s university.

Mode of Teaching

Teaching mode: Synchronous

Type: Online lecture + Group discussion + Group project

Grading

  1. Attendance: 20%;
  2. Assignments: 40%;
  3. Group Presentation: 40%.

Course-specific Restrictions

  1. Full-time undergraduate students of all disciplines from universities around the world are welcome.
  2. Participants are required to attain a passing mark of ≥60, attend 70% of the course live online (including the final day presentation) to be eligible for the graduating E-certificate.
  3. Refer to the detailed schedule attached to ensure your availability for the course before registering.
  4. Limited slots are available. Participants will receive a confirmation email if the registration is successful.

Class Schedule

Net Zero-Carbon Fuels (SDG Summer Course 2023)

Week

Date

Day

Time

Topic

Credit hours

Teaching mode

Lecturer-in-charge

1

19/6

Mon

16:00-18:45 (UTC+8)

L1: Introduction to SDG with emphasis on SDG 7

3

Online lecture + discussion

CCT

20/6

Tue

16:00-18:45 (UTC+8)

L2:Advancements of biofuels

Biodiesel, bioethanol and biogas production, application

3

Online lecture + discussion

NJH

21/6

Wed

16:00-18:45 (UTC+8)

L3: Biofuels sustainability: EWF + SDG perspectives

3

Online lecture + discussion

NJH

22/6

Thu

16:00-17:40 (UTC+8)

T1:Topical review 1 (Biofuels)

2

Group discussion

NJH

2

26/6

Mon

16:00-18:45 (UTC+8)

L4:Sustainable aviation propulsion

Production, application and sustainability

3

Online lecture + discussion

CCT

27/6

Tue

16:00-18:45 (UTC+8)

L5:Green hydrogen as energy carrier

Production, use (fuel cells and combustion) and vectors (inc. ammonia)

3

Online lecture + discussion

AVM

28/6

Wed

16:00-18:45 (UTC+8)

L6:Green ammonia as energy carrier

Production, distribution, fuel cells, combustion

3

Online lecture + discussion

AVM

29/6

Thu

16:00-17:40 (UTC+8)

T2:Topical review 2 (H2 vectors)  

2

Group discussion

AVM

3

3/7

Mon

16:00-18:45 (UTC+8)

L7:Electrification

Power-to-X, transport electrification

3

Online lecture + discussion

CCT

4/7

Tue

16:00-17:40 (UTC+8)

L8:Emerging zero-carbon fuels

Production of methanol, waste-derived fuel, solar fuel

2

Online lecture + discussion

NJH

5/7

Wed

16:00-17:40 (UTC+8)

T3:Topical review 3 (Elec + EF)

2

Group discussion

CCT

6/7

Thu

16:00-18:45 (UTC+8)

Group project presentations

3

Group presentation

CCT/NJH/AVM

Total

32

 

Instructors

Agustin Valera-Medina
Professor at Cardiff School of Engineering. He has participated as PI/Co-I on 30 industrial projects with multi-nationals including PEMEX, Rolls-Royce, Siemens, Ricardo, Airbus and EON (>£35M). He has published 212 papers (h-index 32), 82 of these specifically concerning ammonia power. Prof. Valera-Medina led Cardiff’s contribution to the Innovate-UK ‘Decoupled Green Energy’ Project (2015-2018) led by Siemens and in partnership with STFC and the University of Oxford, which aims to demonstrate the use of green ammonia produced from wind energy. He is currently PI of various projects (Endeavr Green Propulsion, SAFE-AGT (EP/T009314/1), FLEXnCONFU (884157), OceanREFuel, etc.) to demonstrate ammonia power in turbine engines, Internal Combustion Engines and furnaces. He has been part of various scientific boards, chairing sessions in international conferences and moderating large industrial panels on the topic of “Ammonia for Direct Use”. He has supported two Royal Society Policy Briefings related to the use of ammonia as energy vector, and he is principal authors of the book “Techno-economic challenges of ammonia as energy vector”. He is Co-Director of the Institute of Net Zero Innovation, Cardiff University and Director of the Centre of Excellence on Ammonia Technologies (CEAT).
Dr. Jo-Han Ng
Dr. Jo-Han Ng is an Associate Professor and currently the Head of Research at the University of Southampton Malaysia, after relinquishing his previous duties as the Head of Academic Quality & Innovation, Director of the Foundation Programme and Head of Quality Assurance. He obtained his Bachelor of Mechanical Engineering (First-class Honours) and PhD from the University of Nottingham. His research interests cover renewable fuel productions, chemical kinetics of transesterification reaction, combustion reaction mechanisms, biodiesel lubricity, CFD simulation of diesel engines, and energy-water-food nexus for sustainability. As such, he considers himself a Green Engineer (or Greengineer as he would like to call it) as they link to green technologies. He also serves as an Associate Editor for Carbon Neutrality (Springer) and two other journals. He is also a Fellow of the Advance Higher Education Academy (UK) and previously served the faculty by providing training to new academics as the USMC Leader of Postgraduate Certificate for Academic Practice. Dr. Ng has published over 80 original peer-reviewed research articles (h-index 22), involved in 18 research grant/industrial projects and won 33 awards including from SEAMEO (ASEAN), Royal Society of Chemistry (UK), TORAY Foundation (Malaysia), World Federation of Scientists (Switzerland), Autoliv (Sweden-USA) and Elsevier (Netherlands). 
Dr. Chong Cheng Tung
Dr. Chong Cheng Tung is an Associate Professor at the China-UK Low Carbon College, Shanghai Jiao Tong University. He holds a bachelor’s degree in Aeronautical Engineering from Universiti Teknologi Malaysia, and a PhD in the field of Energy & Fuels from University of Cambridge, UK. He has published 135 SCI papers with h-index of 33 and over 3500 citations, 5 highly cited papers and two research books. He is listed as the Top 2% researcher in the world (2020, 2021) in the Stanford University’s Scientist List. He has participated in over 15 research projects as PI/Co-PI related to the area of fuel and energy, gas turbine, biomass and waste valorization. Dr. Chong has won over 30 research awards, among them are Royal Society-Newton Advanced Fellowship, PYRO ASIA Young Researcher Award and ASEAN Science Diplomat Award. His innovation “Catalytic Microwave Pyrolysis Technology for Climate Positive Environment, CLYMATE+” was listed as the finalist of the global Omnipreneurship Awards 2020: Sustainability Branch. He has served as the editorial board member of FUELS (MDPI), guest editors of ENERGY (Elsevier), Journal of Biotechnology (Elsevier) and Jurnal Teknologi, and review editor of Frontiers in Energy Research. He serves as the board member of the 6th and 7th International Conference on Low Carbon Asia, a Scientific Committee Member of 1st Symposium on Ammonia Energy.

Course website

http://netzerocarbon.sjtu.edu.cn/

Course Contact

Prof. Agustin Valera-Medina: ValeraMedinaA1@cardiff.ac.uk

Dr. Ng Jo-Han: J.Ng@soton.ac.uk

Dr. Chong Cheng Tung: ctchong@sjtu.edu.cn