Experimental investigation of methanol compression ignition in a high compression ratio HD engine using a Box-Behnken design

Autor:	Can Haşimoğlu, Martin Tuner, Sam Shamun, Öivind Andersson, Per Tunestål, Ahmet Murcak
Rok vydání:	2017
Předmět:	Common rail Materials science 020209 energy General Chemical Engineering Organic Chemistry Energy Engineering and Power Technology 02 engineering and technology Automotive engineering law.invention Cylinder (engine) Ignition system chemistry.chemical_compound Piston Fuel Technology chemistry law Compression ratio 0202 electrical engineering electronic engineering information engineering Methanol NOx Bar (unit)
Zdroj:	Fuel. 209:624-633
ISSN:	0016-2361
Popis:	Methanol is an alternative fuel offering a lower well-to-wheel CO2 emission as well as a higher efficiency, given that the fuel is derived from biomass. In addition to reduced CO2, methanol does not emit soot particles when combusted which is a great advantage when attempting to reduce NOX levels due to the effectively non-existing NOX-soot trade-off. The engine setup used was a Scania D13 engine modified to run on one cylinder, utilizing a high compression piston with a rc of 27:1. This study analyzes the effects of four control parameters on gross indicated efficiency and the indicated specific emissions; CO, THC and NOX. The control parameters chosen in this work was common rail pressure (PRAIL), EGR, λ and CA50, running at 6 bar IMEPG and 1200 rpm. The effects of the control parameters on performance and emissions was analyzed using a surface response method of the Box-Behnken type. Predictive mathematical models were obtained from regression analysis performed on the responses from the experiments. The highest gross indicated efficiency achieved was ∼53%, when a high level of EGR was applied together with the combustion phasing set to its low level at CA50 = 6 CAD ATDC. The control parameters influencing the CO emissions are λ and the interaction between PRAIL and λ, while THC is only controlled by PRAIL and EGR. NOX emissions was, as expected, influenced mainly by EGR and λ, although PRAIL and CA50 also had minor effects. The effect of increased PRAIL, increased THC emissions which in its turn reduced the gross indicated efficiency. Throughout the experiment, THC concentration never decreased below ∼150 ppm due to utilization of high rc in combination with the volatility of methanol. It was also concluded that a rc = 27 is rather high if operation flexibility is required, especially at the higher load range.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::4ec40b38136b725bb4646af88a16840f https://doi.org/10.1016/j.fuel.2017.08.039 Zobrazit plný text záznamu Full Text from ScienceDirect