TY - JOUR
T1 - Studies on combustion, vibration, and noise in high-speed diesel engines through newly developed measuring instruments
AU - Izumi, S.
AU - Takemi, M.
AU - Ishida, M.
AU - Suetsugu, H.
AU - Maeda, T.
AU - Yoshimura, Y.
PY - 1988/7
Y1 - 1988/7
N2 - The authors have been conducting studies on the reduction of exhaust emissions using a high-speed diesel engine. By applying composite countermeasures consisting of five items: (1) timing retard, (2) optimization of fuel injection system, (3) waterin- oil type emulsifiedfuel, (4) application of ignition improver, and (5) an increase in airflow quantity, an exhaustNOx level less than half of the original was attained while retaining the original low levels of fuel consumption, smoke density, and engine noise. The authors developed new measuring instruments in order to grasp the true nature of combustion, especially to clarify the delicate change incombustion. By using these instruments, the combustion phenomena were analyzed accurately, speedily, and synthetically on various aspects such as combustion mode, vibration, noise, thermal loading, heat balance, etc. The complicated combustion behavior in the cylinder has been clarified in part by simultaneous measurement of cylinder pressure at several points.
AB - The authors have been conducting studies on the reduction of exhaust emissions using a high-speed diesel engine. By applying composite countermeasures consisting of five items: (1) timing retard, (2) optimization of fuel injection system, (3) waterin- oil type emulsifiedfuel, (4) application of ignition improver, and (5) an increase in airflow quantity, an exhaustNOx level less than half of the original was attained while retaining the original low levels of fuel consumption, smoke density, and engine noise. The authors developed new measuring instruments in order to grasp the true nature of combustion, especially to clarify the delicate change incombustion. By using these instruments, the combustion phenomena were analyzed accurately, speedily, and synthetically on various aspects such as combustion mode, vibration, noise, thermal loading, heat balance, etc. The complicated combustion behavior in the cylinder has been clarified in part by simultaneous measurement of cylinder pressure at several points.
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U2 - 10.1115/1.3240132
DO - 10.1115/1.3240132
M3 - Article
AN - SCOPUS:0024053627
SN - 0742-4795
VL - 110
SP - 377
EP - 384
JO - Journal of Engineering for Gas Turbines and Power
JF - Journal of Engineering for Gas Turbines and Power
IS - 3
ER -