Experimental Study of the Effect of Start of Injection and Blend Ratio on Single Fuel Reformate RCCI

Abstract: A new concept of single-fuel RCCI has been proposed through the catalytic partial oxidation reformation of diesel fuel. The reformed fuel mixture is then used as the low reactivity fuel and diesel itself is used as the high reactivity fuel. In this paper, two selected reformates mixture from the reformation of diesel were selected for further analysis. Each reformate fuel mixture contained a significant fraction of inert gases (89% and 81%). The effects of the difference in the molar concentrations of the refo… Show more

“…While initial RCCI studies were encouraging, further improvements have been undertaken to assess its ability to achieve future emissions reduction and assess its commercialization in automotive, stationary and marine applications (using natural gas-diesel for mid-speed marine engines) [28,29]. These developments are supported by new, single-fuel operation [30][31][32], optimized combustion system [33], variable valve timing [34], and new aftertreatment technologies [35,36]. RCCI combustion engines not only are useful in mobile applications but also they can be used in stationary applications such as power generator, particularly in hybrid configuration combined with fuel cells [37] and electric motors [38].…”

Reactivity controlled compression ignition engine: Pathways towards commercial viability

“…While initial RCCI studies were encouraging, further improvements have been undertaken to assess its ability to achieve future emissions reduction and assess its commercialization in automotive, stationary and marine applications (using natural gas-diesel for mid-speed marine engines) [28,29]. These developments are supported by new, single-fuel operation [30][31][32], optimized combustion system [33], variable valve timing [34], and new aftertreatment technologies [35,36]. RCCI combustion engines not only are useful in mobile applications but also they can be used in stationary applications such as power generator, particularly in hybrid configuration combined with fuel cells [37] and electric motors [38].…”

Reactivity controlled compression ignition engine: Pathways towards commercial viability

“…15–17 The downside of this combustion mode is that it requires two distinct fuels and fuel systems, which increases the complexity of operation and maintenance, and also raises the initial engine cost. 18,19 Another combustion mode that has been proposed recently is called thermally stratified compression ignition (TSCI). The heat release control approach in TSCI is based on the in-cylinder temperature stratification that is created by the evaporative cooling from the direct-injected fuel or from the direct injection (DI) of water.…”

Improving the controllability of partial fuel stratification at low boost levels by applying a double late injection strategy

Effects of PODE substitution rate and fuel injection timing on combustion, emission characteristic and energy balance in PODE-gasoline dual direct-injection engine