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Method for estimating charge air cooler condensation storage and/or release with two intake oxygen sensors

A charge air cooling, condensate technology, applied in machine/engine, electrical control, automatic control, etc., can solve problems such as unstable combustion, inaccurate reflection of water volume, engine misfire, etc.

Inactive Publication Date: 2015-02-25
FORD GLOBAL TECH LLC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In one example, condensate intake may be based on mass air flow rate and the amount of condensate in the CAC; however, these parameters may not accurately reflect the amount of water in the charge air exiting the CAC and entering the intake manifold
As a result, engine misfire and / or unstable combustion can still occur

Method used

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  • Method for estimating charge air cooler condensation storage and/or release with two intake oxygen sensors
  • Method for estimating charge air cooler condensation storage and/or release with two intake oxygen sensors
  • Method for estimating charge air cooler condensation storage and/or release with two intake oxygen sensors

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Embodiment Construction

[0013] The following description relates to systems and methods for estimating water storage in a charge air cooler (CAC) in an engine system, such as figure 1 system. A first oxygen sensor may be located at the outlet of the CAC. In one example, the oxygen sensor may be a variable voltage port oxygen sensor operable between a variable voltage (VV) mode and a fundamental mode. figure 2 A method for operating a first oxygen sensor to determine water storage in a CAC is shown. Specifically, the amount of water released or in the charge air at the outlet of the CAC may be determined with the first oxygen sensor. In some examples, a second oxygen sensor may be positioned at the inlet of the CAC. image 3 A method for operating a first oxygen sensor and a second oxygen sensor to determine a water storage parameter at a CAC is shown. Water storage parameters may include a rate of water storage, a rate of water release, an amount of water storage (eg, the amount of water or cond...

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Abstract

Methods and systems are provided for estimating water storage in a charge air cooler (CAC). In one example, engine operation may be adjusted responsive to water storage parameters at the CAC, the water storage parameters based on an output of a first oxygen sensor positioned downstream of the CAC and a second oxygen sensor positioned upstream of the CAC. Further, operation of the first oxygen sensor and the second oxygen sensor may be diagnosed during certain engine operation conditions wherein no condensate is forming in the CAC.

Description

Background technique [0001] Turbocharged and supercharged engines can be configured to compress ambient air entering the engine to increase power. The compression of the air results in an increase in the temperature of the air, therefore, an intercooler or charge air cooler (CAC) is used to cool the heated air, thereby increasing its density and further increasing the potential power of the engine. Condensation may form in the CAC when the ambient air temperature decreases, or during humid or rainy weather conditions in which the intake air is cooled below the dew point of the water. Condensate can collect at the bottom of the CAC or in the internal passages and cooling turbulators. Under certain air flow conditions, condensate can exit the CAC and enter the engine's intake manifold as water droplets. If too much condensate is ingested by the engine, engine misfire and / or combustion instability may occur. [0002] Other attempts to address engine misfires due to condensate ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F02B77/08F02D45/00F02B29/04F02D43/00F02P5/04F02D41/00
CPCF02B29/0468F02B29/0475F02B29/0493F02D41/0007F02D41/144F02D41/1441F02D41/1454Y02T10/12F02D41/0055
Inventor J·E·罗林格尔R·R·杰兹R·瑞斯里斯
Owner FORD GLOBAL TECH LLC
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