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System and method for determining and mitigating turbine degradation in variable geometry turbocharger

一种涡轮、劣化的技术,应用在装料系统、机器/发动机、电气控制等方向,能够解决错误确定劣化、涡轮响应减慢、卡住等问题

Active Publication Date: 2016-02-10
FORD GLOBAL TECH LLC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Specifically, excessive aerodynamic loads can be placed on the turbine during certain operating conditions that can cause the turbine to slow down and get stuck, as well as problems not considered
Furthermore, determining turbine blade degradation using only engine speed, engine load, and engine temperature can lead to false determinations of degradation (eg, failure)

Method used

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  • System and method for determining and mitigating turbine degradation in variable geometry turbocharger
  • System and method for determining and mitigating turbine degradation in variable geometry turbocharger
  • System and method for determining and mitigating turbine degradation in variable geometry turbocharger

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Embodiment Construction

[0016] Systems and methods for determining and mitigating turbine degradation in variable geometry turbochargers are described herein. Specifically, the system and method may be used to accurately determine turbine degradation based on a comparison of modeled and sensed pressure values ​​both upstream and downstream of the turbine. In this way, a comparison of the modeled pressure across the turbine and the sensed pressure across the turbine may be used to increase the accuracy of turbine degradation determinations. As a result, turbo degradation (eg, faults) may be diagnosed more quickly over a wider range of engine operating conditions, thereby improving turbo degradation diagnostic techniques in vehicle systems. Further, in some examples, the method may additionally include, in response to determining variable geometry turbine degradation, selecting from a set of turbine degradation mitigation actions based on a comparison of the modeled set of turbine pressure values ​​and...

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Abstract

The invention relates to a system and method for determining and mitigating turbine degradation in a variable geometry turbocharger. A method for operating a vehicle system is described herein. The method includes indicating a variable geometry turbine degradation based on a comparison of a modeled set of turbine pressure values and a sensed set of turbine pressure values, each set of turbine pressure values including a pressure value upstream of the turbine and a pressure value downstream of the turbine and the variable geometry turbine positioned downstream of an engine cylinder.

Description

technical field [0001] The present disclosure relates to systems and methods for determining and mitigating turbine degradation in variable geometry turbochargers. Background technique [0002] Boosted engines can provide many benefits, such as reduced emissions and increased fuel efficiency when compared to naturally aspirated engines of similar power output. Additionally, a boosted engine can be lighter than a naturally aspirated engine with a similar power output. Thus, vehicle efficiency increases when the engine is boosted by a device such as a turbocharger. As such, boost devices have many benefits and are thus incorporated into some engine designs to improve performance and fuel economy. [0003] However, turbochargers may experience hysteresis during certain operating conditions (such as tip-in, start-up, etc.). Hysteresis reduces the power output of the engine and delays throttle response, thereby affecting vehicle performance and reducing customer satisfaction. ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F02B37/12F02D23/00
CPCF02B37/24F02B39/16F02D41/1448F02D41/145F02D41/22F02D2041/1433F02D2250/34Y02T10/40F02M26/02F02M26/04F02M26/09Y02T10/12F02B37/22
Inventor A·莫雷利B·L·富尔顿T·科斯切夫斯基J·R·史密斯K·波尔坎普
Owner FORD GLOBAL TECH LLC
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