Details page | Paper / Information search system

Search

Search help

Summary & Details

Effect of Injection Parameters on the Premixed Charge Compression Ignition Combustion in a Small-Bore Light Duty Diesel Engine - A CFD Study

Delivery: Provide download link

Format: PDF

Price: Non-members (tax incl.)：￥6,600 Members (tax incl.)：￥5,280

Paper/Info type: SAE Paper

No.2021-01-1174

Pages: 1-18(Total 18 p)

Date of publication: Sep 2021

Publisher: SAE International

Language: English

Event: SAE Powertrains, Fuels & Lubricants Digital Summit

Detailed Information

Author(E)	1) V Pradeep, 2) Anand Krishnasamy
Affiliation(E)	1) Indian Institute Of Technology - Madras, 2) Indian Institute of Technology - Madras
Abstract(E)	Premixed charged compression ignition (PCCI) is a promising low temperature combustion strategy for achieving a simultaneous reduction of oxides of nitrogen (NO_x) and soot emissions in diesel engines. However, early direct injection results in a significant penalty in fuel economy, high unburned hydrocarbon (HC), and carbon monoxide (CO) emissions, especially in small-bore diesel engines. In the present work, computational fluid dynamic (CFD) investigations are carried out in a small-bore diesel engine using a commercial CFD software, CONVERGE. The computational models are validated with experimental results at two different load conditions, 20% and 40% of rated load. The validated models are used to carry out parametric investigations on the effects of fuel injection parameters, namely the start of fuel injection timing, injection pressure, and spray cone angle on PCCI combustion. The fuel-air equivalence ratio, temperature, and emission contours are used to get more insight into the effect of fuel injection parameters on the combustion process to reduce the spray wall wetting and the high HC and CO emissions. The results obtained show reduced NO_x and soot emissions with advanced injection timings from 20 deg to 50 deg. CA bTDC with a penalty on the HC and CO emissions and the indicated thermal efficiency. Increasing injection pressure from 300 to 900 bar resulted in higher HC and CO emissions at both loads due to increased spray wall impingement. A narrow spray cone angle of 88 deg. results in a significant reduction in the HC and CO emissions by up to 77% and 80%, respectively, compared to a wider cone angle of 148 deg. at low load condition. At high load, using a narrow spray angle resulted in an increase in the CO and soot emissions with only a minor reduction in HC emissions due to poor air utilization in the current small-bore engine.

About search

How to use the search box

You can enter up to 5 search conditions. The number of search boxes can be increased or decreased with the "+" and "-" buttons on the right.

If you enter multiple words separated by spaces in one search box, the data that "contains all" of the entered words will be searched (AND search).

Example) X (space) Y → "X and Y (including)"

How to use "AND" and "OR" pull-down

If "AND" is specified, the "contains both" data of the phrase entered in the previous and next search boxes will be searched. If you specify "OR", the data that "contains" any of the words entered in the search boxes before and after is searched.

Example) X AND Y → "X and Y (including)" X OR Z → "X or Z (including)"

If AND and OR searches are mixed, OR search has priority.

Example) X AND Y OR Z → X AND (Y OR Z)

If AND search and multiple OR search are mixed, OR search has priority.

Example) W AND X OR Y OR Z → W AND (X OR Y OR Z)

How to use the search filters

Use the "search filters" when you want to narrow down the search results, such as when there are too many search results. If you check each item, the search results will be narrowed down to only the data that includes that item.

The number in "()" after each item is the number of data that includes that item.

Search tips

When searching by author name, enter the first and last name separated by a space, such as "Taro Jidosha".