Abstract
This paper analyses the impacts of the application of an exhaust gas recirculation (EGR) system on the performance and emissions of a stationary, direct-injection diesel engine operating with diesel oil containing 7% biodiesel (B7). Experiments were carried out in a 49-kW diesel power generator with the adapted EGR system, and engine performance and emissions were evaluated for different load and EGR settings. The results were compared with the engine operating with its original configuration without the EGR system, and revealed a reduction of peak cylinder pressure and fuel conversion efficiency, mainly at high engine loads. The use of EGR caused opposite effects on carbon dioxide (CO2), carbon monoxide (CO) and total hydrocarbons (THC) emissions, depending on load and EGR rate, showing an increase in most situations. The application of EGR consistently reduced oxides of nitrogen (NOX) emissions, reaching a maximum reduction close to 30%. In general, the use of EGR increased CO2, CO and THC emissions at high loads. The use of 7.5% EGR was found to be at an adequate rate to simultaneously reduce CO, THC and NOX emissions at low and moderate loads, without major penalties on CO2 emissions and engine performance.
Highlights
The emissions produced by diesel engines have a serious impact on both the environment and human health
The engine was operated at 1800 rpm with different loads and Exhaust gas recirculation (EGR) rates to investigate the effect of EGR on engine performance and emissions
The use of EGR was shown to be feasible for reduction of NOX emissions from a diesel power generator with the adapted technology operating with B7
Summary
The emissions produced by diesel engines have a serious impact on both the environment and human health. Exhaust gas recirculation (EGR), which returns a portion of the engine exhaust gas to the combustion chamber via the intake system, shows a great potential to reduce NOX emissions [2, 3]. The application of this technique to spark ignition and compression ignition engines has been studied with regard to its effects on engine performance, inlet air temperature control, combustion control and dual-fuel operation [4,5,6,7,8,9,10,11,12]. In the chemical effect, recirculated H2O and CO2 are dissociated during combustion by
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