Method for flexibly controlling engine combustion mode

A combustion mode, engine technology, applied in engine components, machines/engines, mechanical equipment, etc., can solve problems such as poor gasoline spontaneous combustion, low exhaust gas temperature, and no consideration of exhaust gas recirculation

Active Publication Date: 2017-05-31
TIANJIN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] Recently, Inagaki et al. used the premixed compression ignition combustion (PCI) mode of gasoline port injection and early diesel direct injection to flexibly control the in-cylinder fuel activity stratification and concentration stratification by delaying fuel injection, so as to achieve efficient and clean combustion , but exhaust gas recirculation (EGR) was not considered in the study
In addition, the self-ignitability of gasoline is poor. During cold start and low-load operation, the combustion efficiency of the dual-fuel high premixed compression ignition combustion strategy is low, and even the engine may have problems such as combustion instability, and the exhaust gas temperature is too low. After HC / CO It is also very difficult to handle

Method used

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  • Method for flexibly controlling engine combustion mode
  • Method for flexibly controlling engine combustion mode

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] (1) The electronic control unit reads the speed signal of the sensor installed on the crankshaft of the engine with gasoline port injection and diesel direct injection, and the position signal of the sensor installed on the accelerator pedal, and judges the engine speed according to the read signal. operating load.

[0028] (2) If the judgment result in step (1) is a light load condition (the load mean effective pressure (BMEP) of the engine running <0.5MPa), the electronic control unit controls the port gasoline injection installed on the intake manifold 2 The device 1 is closed, and the low-pressure EGR valve 7 installed on the low-pressure EGR circuit 6 and the high-pressure EGR valve 14 installed on the high-pressure EGR circuit are controlled to close. After the air passes through the air filter 9, it passes through the compressed air Engine 10 is compressed, and then enters cylinder 4 through throttle valve 15, intake air intercooler 16 and intake manifold 2, and ...

Embodiment 2

[0034] (1) The electronic control unit reads the speed signal of the sensor installed on the crankshaft of the engine with gasoline port injection and diesel direct injection, and the position signal of the sensor installed on the accelerator pedal, and judges the engine speed according to the read signal. operating load.

[0035] (2) If the judgment result in step (1) is a light load condition (the load mean effective pressure (BMEP) of the engine running <0.5MPa), the electronic control unit controls the port gasoline injection installed on the intake manifold 2 The device 1 is closed, and the low-pressure EGR valve 7 installed on the low-pressure EGR circuit 6 and the high-pressure EGR valve 14 installed on the high-pressure EGR circuit are controlled to close. After the air passes through the air filter 9, it passes through the compressed air Engine 10 is compressed, and then enters cylinder 4 through throttle valve 15, intake air intercooler 16 and intake manifold 2, and ...

Embodiment 3

[0041] (1) The electronic control unit reads the speed signal of the sensor installed on the crankshaft of the engine with gasoline port injection and diesel direct injection, and the position signal of the sensor installed on the accelerator pedal, and judges the engine speed according to the read signal. operating load.

[0042] (2) If the judgment result in step (1) is a light load condition (the load mean effective pressure (BMEP) of the engine running <0.5MPa), the electronic control unit controls the port gasoline injection installed on the intake manifold 2 The device 1 is closed, and the low-pressure EGR valve 7 installed on the low-pressure EGR circuit 6 and the high-pressure EGR valve 14 installed on the high-pressure EGR circuit are controlled to close. After the air passes through the air filter 9, it passes through the compressed air Engine 10 is compressed, and then enters cylinder 4 through throttle valve 15, intake air intercooler 16 and intake manifold 2, and ...

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Abstract

The invention discloses a method for flexibly controlling an engine combustion mode. Engine speed signals and throttle position signals are read by an electronic control unit to judge the engine operation load according to the read signals; if under the low load condition, an diesel injector is controlled for early injection to form PCCI combustion mode in a cylinder; if under the moderate load condition, the diesel injector is controlled for injection in advance twice, and high-pressure EGR is performed to form HP-EHPCC combustion mode; if under the medium-to-high load condition, the diesel injector is controlled for injection in advance twice, and low-pressure EGR is performed to form LP-EHPCC combustion mode; if under the high load condition, the diesel injector is controlled for delayed injection once, and the low-pressure EGR is performed to form LP-LHPCC combustion mode. High-efficiency clean combustion within a wide load range is implemented through combination of different combustion modes under different working conditions.

Description

technical field [0001] The invention relates to an internal combustion engine, in particular to a method for flexibly controlling the engine combustion mode of gasoline intake port injection and diesel direct injection in cylinder. Background technique [0002] The massive consumption of energy has caused a series of serious problems such as environmental pollution and global climate change. Especially in urban areas, various air pollutants (such as PM and NOx) emitted by engines have brought many negative effects on human health and the environment. . In mid-2012, the number of cars in China had increased to 114 million. Whether it is air pollution or the energy crisis, China is facing a more severe test than other countries on environmental, climate and energy issues. With the continuous strengthening of the world's emission regulations, reducing pollutant emissions has also become an important issue. Therefore, the internal combustion engine faces a huge challenge. ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F02M55/00
CPCF02M55/00
Inventor 刘海峰马俊生马桂香尧命发
Owner TIANJIN UNIV
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