tasaka
رقم العضوية : 24371
تاريخ التسجيل : 07Nov2008
المشاركات : 6,251
النوع : ذكر
الاقامة : القاهرة
السيارة: لايوجد
السيارة[2]: لايوجد
دراجة بخارية: لا يوجد
الحالة :
رقم العضوية : 24371
تاريخ التسجيل : 07Nov2008
المشاركات : 6,251
النوع : ذكر
الاقامة : القاهرة
السيارة: لايوجد
السيارة[2]: لايوجد
دراجة بخارية: لا يوجد
الحالة :
tasaka
رقم العضوية : 24371
تاريخ التسجيل : 07Nov2008
المشاركات : 6,251
النوع : ذكر
الاقامة : القاهرة
السيارة: لايوجد
السيارة[2]: لايوجد
دراجة بخارية: لا يوجد
الحالة :
Hyundai’s experimental engine—equipped with direct injection, variable valve timing, a turbo, a supercharger, and exhaust-gas recirculation—looks fairly normal on the outside. What’s weird are pistons with soup bowls cast into their crowns. With no spark plugs in the way, the injectors can squirt fuel into the exact center of each bowl. GDCI achieves auto ignition by heating intake air with carefully controlled amounts of exhaust gas followed by squeezing the dickens out of the mix with a 14.8:1 compression ratio. Injecting a small dose of gas just before top dead center, and the main fuel squirt just after that point, yields cylinder pressures that rise far more gently than those found in any diesel. This improves efficiency, since combustion pressure is working against a descending piston. Lean fuel-air mixtures, minimal heat lost through the cylinder walls, no throttling, and the large expansion ratio (the flip side of compression ratio) deliver fuel efficiency comparable to a diesel, according to Hyundai’s GDCI expert, the suitably named Nayan Engineer. (Mark Sellnau served as Delphi’s engineering manager on this project.) Best results derive from minimal swirl in the piston bowl. Fuel-injection pressures are in the gasoline-engine range, or only a fifth of what’s required in a diesel, yielding major savings in cost, lower parasitic losses, and quieter operation versus diesels. The supercharger delivers intake air at low speeds and loads when there’s insufficient exhaust energy to spin the turbo.
Cleaning up what exits the combustion chambers poses no major hassles. The typical diesel bugaboos—particulates and high NOx emissions—are not an issue because of GDCI’s low combustion temperatures. The lean mixtures reduce the standard three-way catalyst’s effectiveness, a concern addressed by fitting a second oxidation catalyst to diminish carbon-monoxide and hydrocarbon emissions.
It all adds up to a 10-to-15-percent efficiency improvement without switching to a troublesome fuel. Strides like this will keep the internal-combustion engine eligible for stand-alone or hybrid-propulsion duties for decades to come.
UNDER PRESSURE
This high compression-ratio figure is a key enabler to the GDCI engine’s operation. Its 14.8:1 ratio is closer to that of VW’s 2.0-liter TDI diesel (16.5:1) than it is to Hyundai’s production 1.8-liter gas engine (10.3:1).
المفضلات