Outputs (79)

Engine performance and emissions from a fumigated hydrogen/ammonia compression ignition engine with a hydrogen peroxide pilot (2024)
Journal Article
Paterson, G., Tingas, E., Hardalupas, Y., & Taylor, A. M. (2024). Engine performance and emissions from a fumigated hydrogen/ammonia compression ignition engine with a hydrogen peroxide pilot. International Journal of Hydrogen Energy, 67, 334-350. https://doi.org/10.1016/j.ijhydene.2024.04.151

The study investigates, numerically, the potential use of introducing aqueous HO as an ignition promoter in a statistically homogeneous NH/H fuelled, medium speed (1250 rpm), 4-stroke, 1.3 litre cylinder displacement, mildly boosted CI engine with a... Read More about Engine performance and emissions from a fumigated hydrogen/ammonia compression ignition engine with a hydrogen peroxide pilot.

Asymptotic analysis of detonation development at SI engine conditions using computational singular perturbation (2023)
Journal Article
Dimitrova, I. D., Luong, M., Sanal, S., Tingas, E., & Im, H. G. (in press). Asymptotic analysis of detonation development at SI engine conditions using computational singular perturbation. Combustion Theory and Modelling, https://doi.org/10.1080/13647830.2023.2281379

The occurrence and intensity of the detonation phenomenon at spark-ignition (SI) engine conditions is investigated, with the objective to successfully predict super-knock and to elucidate the effect of kinetics and transport at the ignition front. Th... Read More about Asymptotic analysis of detonation development at SI engine conditions using computational singular perturbation.

8th International Electric Vehicle Conference (EVC 2023) (2023)
Conference Proceeding
(2023). 8th International Electric Vehicle Conference (EVC 2023). In F. Muhammad-Sukki, N. Aini Bani, & E. (. A. Tingas (Eds.), 8th International Electric Vehicle Conference (EVC 2023)

Editorial: A glimpse of EVC2023 (2023)
Journal Article
Muhammad-Sukki, F., Bani, N. A., & Tingas, E. (2023). Editorial: A glimpse of EVC2023. Transportation Research Procedia, 70, 1-4. https://doi.org/10.1016/j.trpro.2023.10.001

The Editorial describes the main aim and results of the 8th International Electric Vehicle Conference (EVC2023) held in Edinburgh Napier University, Edinburgh, United Kingdom from 21 – 23 June 2023.

Hydrogen: Where it Can Be Used, How Much is Needed, What it May Cost (2023)
Book Chapter
Tingas, E., & Taylor, A. M. (2023). Hydrogen: Where it Can Be Used, How Much is Needed, What it May Cost. In E. Tingas (Ed.), Hydrogen for Future Thermal Engines (3-64). Cham: Springer. https://doi.org/10.1007/978-3-031-28412-0_1

Although the subject of this book is hydrogen in Thermal Engines, neither the fuel nor the engines are widely commercially available at the time of publication: nor is it likely that this situation will change before the end of this decade. This notw... Read More about Hydrogen: Where it Can Be Used, How Much is Needed, What it May Cost.

Hydrogen for Future Thermal Engines (2023)
Book
Tingas, E. (Ed.). (2023). Hydrogen for Future Thermal Engines. Cham: Springer. https://doi.org/10.1007/978-3-031-28412-0

Presents the fundamentals and applications of hydrogen combustion Covers both experiments and simulations Comprehensively includes many applications and future prospects

8th International Electric Vehicle Conference 2023: Book of Abstracts (2023)
Book
Muhammad-Sukki, F., Bani, N. A., & Tingas, E. (Eds.). (2023). 8th International Electric Vehicle Conference 2023: Book of Abstracts. Edinburgh: Edinburgh Napier University

Modelling the Transmission of Coxiella burnetii within a UK Dairy Herd: Investigating the Interconnected Relationship between the Parturition Cycle and Environment Contamination (2022)
Journal Article
Patsatzis, D. G., Wheelhouse, N., & Tingas, E. (2022). Modelling the Transmission of Coxiella burnetii within a UK Dairy Herd: Investigating the Interconnected Relationship between the Parturition Cycle and Environment Contamination. Veterinary Sciences, 9(10), Article 522. https://doi.org/10.3390/vetsci9100522

Q fever infection in dairy herds is introduced through the transmission of the bacterium Coxiella burnetii, resulting in multiple detrimental effects such as reduction of lactation, abortions and chronic infection. Particularly in the UK, recent evid... Read More about Modelling the Transmission of Coxiella burnetii within a UK Dairy Herd: Investigating the Interconnected Relationship between the Parturition Cycle and Environment Contamination.

Computational investigation of ammonia-hydrogen peroxide blends in HCCI engine mode (2022)
Journal Article
Shafiq, O., & Tingas, E. (2023). Computational investigation of ammonia-hydrogen peroxide blends in HCCI engine mode. International Journal of Engine Research, 24(5), 2279-2294. https://doi.org/10.1177/14680874221117686

The potential use of hydrogen peroxide as an ignition promoter to enable the use of ammonia in compression ignition engines is explored in the current study. A simplified numerical HCCI engine model within the Chemkin Pro suite is employed. The numer... Read More about Computational investigation of ammonia-hydrogen peroxide blends in HCCI engine mode.

Numerical analysis of zero-carbon HCCI engine fuelled with steam diluted H2/H2O2 blends (2022)
Journal Article
Fernie, O., Megaritis, T., Ganippa, L. C., & Tingas, E. (2022). Numerical analysis of zero-carbon HCCI engine fuelled with steam diluted H2/H2O2 blends. Fuel, 326, Article 125100. https://doi.org/10.1016/j.fuel.2022.125100

The addition of hydrogen peroxide and steam to a hydrogen-fuelled HCCI engine was investigated at various fuel lean conditions ( = 0.2–0.6) and compression ratios (15–20) using a 0-dimensional numerical model. The use of hydrogen peroxide as an ignit... Read More about Numerical analysis of zero-carbon HCCI engine fuelled with steam diluted H2/H2O2 blends.