Simulation model of combustion engine with direct injection of hydrogen

• Autorzy: Blažek J. , Brabec P.
• Języki publikacji: EN

Abstrakty

EN

Fuel mixture formation inside a cylinder has become used more frequently in spark ignition engines in recent years. gas internal combustion engines can also benefit from this concept as direct injection into an engine 's cylinder during the compression stroke not only increases its volumetric efficiency but also eliminates adverse anomalies in the combustion process. This paper focuses on the development of a simulation model for a spark ignition engine with direct hydrogen injection into a cylinder. The Wave software was used for the simulation. A part of the paper depicts the model's verification. The study utilized a three-cylinder internal combustion engine with the total cylinder volume of 1.2 dm3. The concept of the engine is based on new, high-pressure injectors with 10 MPa inlet pressure (gas-hydrogen injection directly into the engine cylinder). Utilization of internal fuel mixture formation can be beneficial due to its enabling the control of the combustion process and gaseous emission generation. From the viewpoint of the engine's design, however, internal fuel mixture utilisation is more complicated as injectors have to be built into the cylinder head. The actual engine construction is housed in laboratories of the Technical University of Liberec, Department of Vehicles and Engines.

Słowa kluczowe

EN

Simulation model of combustion engine; direct hydrogen injection; Ricardo Wave; combustion process; spark ignition engine

• Wydawca: Łukasiewicz Research Network - Institute of Aviation ; European Science Society of Powertrain and Transport KONES Poland ; Wydawnictwo Instytutu Technicznego Wojsk Lotniczych
• Czasopismo: Journal of KONES
• Rocznik: 2009
• Tom: Vol. 16, No. 3
• Strony: 15--21
• Opis fizyczny: Bibliogr. 7 poz., rys.

Twórcy

autor

Blažek J.

autor

Brabec P.

• Technical University of Liberec, Department of Vehicles and Engines Studentska 2, 461 17 Liberec, Czech Republic tel.: +420 485 353 159,fax: +420 485 353 139,

Bibliografia

• [1] Rau, S., Compressed Hydrogen Storage for Vehicle Applications, In.: 1st Hydrogen Internal Combustion Engines. TU Graz, Graz 2006.
• [2] Podklady fy Hoerbiger Valve Tec, Vien 2006.
• [3] Šiman, J., Zástavba vysokotlakých injektoru plynného paliva do motoru 1.2dm3, Diplomová práce KSD – 351, TUL Liberec 2007.
• [4] Scholz, C., Výzkum a vývoj vodíkového motoru, Mezinárodní konference Road Transport & Environment RT&T 2007, Brno 2007.
• [5] Scholz, C., Brabec, P., Vnitrní tvorba smési vodíkového spalovacího motoru, XXVIII. medzinárodná vedecká konferencia pracovníkov katedier a pracovísk spal'ovacích motorov vysokých škôl na Slovensku a v Čechách, STU v Bratislavé, ISBN 978-80-227-2714-3, pp. 18, Bratislava 2007.
• [6] Help softwaru Wave.
• [7] Brabec, P., Blazek, J., Simulační model spalovacího motoru, In: International scientific konference: New trends in construction and exploitation automobiles „Vehicles 2008“. Sborník abstraktu, SPU Nitra, 22.-24.9, Nitra, ISBN 978-80-552-0105-4, pp. 10, Slovensko 2008.