Print Email Facebook Twitter Modelling diesel-ammonia two-stroke engines Title Modelling diesel-ammonia two-stroke engines Author van Duijn, Joël (TU Delft Mechanical, Maritime and Materials Engineering; TU Delft Ship Design, Production and Operations) Contributor de Vos, P. (mentor) de Vries, N. (graduation committee) Visser, K. (graduation committee) Sui, C. (graduation committee) Degree granting institution Delft University of Technology Programme Marine Technology | Marine Engineering Date 2021-05-26 Abstract The goal of this thesis is to characterise diesel-ammonia combustion using a mean value first principle approach, and to implement this characterisation of diesel-ammonia combustion in a time domain two-stroke engine model. This model will be used to indicate the technical feasibility of diesel-ammonia as a marine fuel. The main research question of this project is: How does the performance of the main engine of a deep-sea cargo vessel fuelled with diesel-ammonia compare to one fuelled by diesel only? The TU Delft engine B model is chosen to model the behaviour of an engine of an ocean going cargo vessel. The model has been adapted to simulate the behaviour of diesel-ammonia engines. The adapted model is used to compare the performance of a diesel only engine with a diesel-ammonia engine. The main conclusion from this study is that diesel-ammonia engine compared to diesel only engines have a higher specific fuel consumption because of the lower heating value of ammonia. Newly designed diesel-ammonia engines can potentially be more power dense because of stoichiometric air-fuel ratio of ammonia. However, the combustion efficiency could be a limiting factor. The diesel-ammonia engine emits significantly less CO2 and SOx emissions. However, ammonia emissions, caused by incomplete combustion, and an increase in NOx emissions, caused by the nitrogen in ammonia, are a concern. Furthermore, diesel-ammonia engines operate at lower maximum pressures and temperatures, therefore the mechanical limits of the engine are not exceeded. Lastly, diesel-ammonia engines do not require a different turbo charger system. Subject ammoniatwo-stroke enginemarine enginemodellingalternative fuelsdual fuel To reference this document use: http://resolver.tudelft.nl/uuid:2be63cac-85e7-4367-99a8-e811e3248936 Part of collection Student theses Document type master thesis Rights © 2021 Joël van Duijn Files PDF Msc_Thesis_JSvanDuijn_Final.pdf 2.23 MB Close viewer /islandora/object/uuid:2be63cac-85e7-4367-99a8-e811e3248936/datastream/OBJ/view