为使柴油/甲醇组合燃烧(diesel/methanol compound combustion,DMCC)船用发动机满足日益严苛的排放法规,同时获得更高的经济效益,通过调节发动机进气压力,拓宽不同负荷下甲醇替代率,进而实现排放和燃油消耗率的同步下降。利用高斯过程回归模型,结合试验数据和仿真模型,分析了在不同负荷下进气压力对甲醇替代率边界的影响。并绘制了甲醇替代率边界 MAP图,进一步分析了拓宽比例。随后建立了发动机有效燃油消耗率和 NOx排放的预测模型。将所建模型与非支配排序基因算法-Ⅱ(nondominated sorting genetic algorithm-Ⅱ,NSGA-Ⅱ)相结合,对有效燃油消耗率(brake specific fuel consumption,BSFC)和NOx排放进行优化,获得最优Pareto前沿解集并选取最佳控制参数组合。最后将最优控制参数组合标定至电子控制单元(electronic control unit,ECU)中进行试验验证。结果表明:调节进气压力可使甲醇最大替代率平均拓宽 12。7%。相较纯柴油模式,优化后BSFC平均下降 5。6%,NOx排放平均下降 16。4%。
Research on Intake Pressures Broadening Methanol Substitution Rate Boundaries for Diesel/Methanol Compound Combustion Marine Engines Based on Gaussian Process Regression
In order to make the marine diesel/methanol compound combustion(DMCC)engine meet increasingly stringent emission regulations and obtain higher economic benefits,the methanol substitution rates under different loads were widened by adjusting the intake pressure of the engine,thus realizing the simultaneous reduction of emissions and fuel consumption rates.Based on the Gaussian process regression model combined with experimental data and simulation models,the impact of intake pressures on the methanol substitution rate boundaries under different loads was analyzed.The MAP graph of the methanol substitution rate boundaries to further analyze the widening proportion was plotted.A prediction model for the engine brake specific fuel consumption(BSFC)and NOx emissions was established.The model was combined with non-dominated sorting genetic algorithm Ⅱ(NSGA-Ⅱ)to optimize the BSFC and NOx emissions,and to obtain the optimal Pareto front solution set and select the optimal control parameter combinations.The optimal control parameter combinations were calibrated to the electronic control unit(ECU)for experimental validation.Results show that the maximum substitution rate of methanol is widened by 12.7%on average by adjusting the intake pressure,The BSFC is reduced by 5.6%on average,and the NOx emissions are reduced by 16.4%on average,compared to those under the diesel-only mode.
marine diesel enginediesel/methanol compound combustionGaussian process regressionnondonminated sorting genetic algorithm-Ⅱ(NSGA-Ⅱ)
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