1) spark advance
点火提前,火花提前
4) Spark advance angle
点火提前角
1.
Whether the crank angle corresponding to the second derivative maximum value of net pressure was at top dead center could be used to estimate the optimal spark advance angle.
由净压力2次导数最大值所在曲轴转角是否在上止点可以判断发动机是否处于最佳点火提前角下工作,通过与由发动机输出扭矩确定的最佳点火提前角相比较,证明净压力2次导数最大值方法可以精确地确定天然气掺氢发动机的最佳点火提前角。
2.
The spark advance angle was controlled by the knock index and it make the engine work in the trace knock level.
通过余弦形状的PVDF薄片,设计出具有紧凑结构的振动传感器,并设计了实用的电荷放大电路,最后用其来检测发动机的爆震点,从而对发动机点火提前角进行控制,使发动机工作在轻微爆震状态,通过实验表明PVDF振动传感器测量简单、更方便、更准确,经济性和动力性得到了提高。
3.
The control principle of spark advance angle was analyzed.
分析了点火提前角的控制原理,通过试验研究了起动过程中不同冷却水温度下混合动力发动机点火提前角的修正对HC排放、催化剂起燃特性以及转化效率的影响规律,并对基于催化剂起燃特性的点火提前角修正值进行了重新标定。
5) ignition advance angle
点火提前角
1.
Modeling and analysis of ignition advance angle of automobile engine;
汽车发动机点火提前角建模分析
2.
On this basis it makes some study on the combustion process of hydrogen-fueled IC engine by changing the ignition advance angle and equivalence ratio of the model.
在此基础上,进行了点火提前角和燃空当量比对氢内燃机燃烧过程的影响研究,为合理组织氢内燃机的燃烧过程研究提供了依据。
3.
The experiment results showed that,the CO emission was greatly influenced by fuel air ratio,ignition advance angle,intake absolute pressure and fuel component,the HC emission was reduced with the increase of hydrogen mixing ratio,the influence of ignition advance angle on HC emission was decreased when the intake absolute pressure was increased,and the NOx emission was i.
试验结果表明,CO的排放浓度受燃空当量比、点火提前角、进气管绝对压力和燃料成分的影响较大;HC排放浓度有随掺氢比的增大呈降低的趋势,提高进气管绝对压力,点火提前角对HC排放浓度的影响减弱;天然气掺氢气后NOx排放升高。
6) advance ignition angle
点火提前角
1.
Through establishing the numerical model of natural gas engine-driven heat pump system,the runtime characteristics of natural gas engine and heat pump in heating conditions are analyzed by changing the advance ignition angle,excess air ratio,compression ratio,and engine speed.
通过建立天然气发动机驱动热泵系统的数学模型,研究了供热工况下,点火提前角、压缩比、过量空气系数、发动机转速等参数对天然气发动机及整个热泵系统运行性能的影响,为天然气发动机的优化设计提供一定的理论依据,并且预测了燃气热泵的性能,证明了该系统具有较好的部分负荷特性。
2.
Through establishing the numerical model of natural gas engine-driven heat pump system, the runtime characteristics of natural gas engine and heat pump in cooling conditions are analyzed by changing the advance ignition angle, excess air ratio, compression ratio, engine speed.
通过建立天然气发动机驱动热泵系统的数学模型,研究了制冷工况下,点火提前角、压缩比、过量空气系数、发动机转速等参数对天然气发动机及整个热泵系统运行性能的影响,为天然气发动机的优化设计提供一定的理论依据,并且预测了燃气热泵的性能,证明了该系统具有较好的部分负荷特性。
3.
Through establishing the numerical model of natural gas engine-driven heat pump system,the runtime characteristics of natural gas engine and heat pump in heating conditions are analyzed by changing the advance ignition angle,excess air ratio,compression ratio,and engine speed.
通过建立天然气发动机驱动热泵系统的数学模型,研究了供热工况下,点火提前角、压缩比、过量空气系数、发动机转速等参数对天然气发动机及整个热泵系统运行性能的影响,为天然气发动机的优化设计提供一定的理论依据,并且预测了燃气热泵的性能,证明了该系统具有较好的部分负荷特性。
补充资料:定风波 商角调 商角调 西江客舍
【诗文】:
恨行云、特地高寒,牢笼好梦不定。婉娩年华,凄凉客况,泥酒浑成病。画阑深,碧窗静。一树瑶花可怜影。低映。怕月明照见,青禽相并。素衾自冷。又寒香、枕上薰愁醒。甚银床霜冻,山童未起,谁汲墙阴井。玉笙残,锦书迥。应是多情道薄*。争肯。便等闲孤负,西湖春兴。
【注释】:
【出处】:
恨行云、特地高寒,牢笼好梦不定。婉娩年华,凄凉客况,泥酒浑成病。画阑深,碧窗静。一树瑶花可怜影。低映。怕月明照见,青禽相并。素衾自冷。又寒香、枕上薰愁醒。甚银床霜冻,山童未起,谁汲墙阴井。玉笙残,锦书迥。应是多情道薄*。争肯。便等闲孤负,西湖春兴。
【注释】:
【出处】:
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参考词条