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Method and apparatus for estimating dosing error in a selective catalytic reduction system

A selectivity and error technology, applied in chemical instruments and methods, mechanical equipment, separation methods, etc., can solve the problems of system instability, sensor increasing system complexity and cost, ammonia sensor reliability and other problems

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

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Problems solved by technology

[0014] However, ammonia sensors are not as reliable as NOx sensors, in addition to not taking into account any of the other factors related to dosing errors, such as sensor drift and changes in the level of ammonia that can be stored on the catalyst due to changes in catalyst temperature, and thus such systems are very unstable
Additionally, additional sensors increase system complexity and cost

Method used

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  • Method and apparatus for estimating dosing error in a selective catalytic reduction system
  • Method and apparatus for estimating dosing error in a selective catalytic reduction system
  • Method and apparatus for estimating dosing error in a selective catalytic reduction system

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Embodiment Construction

[0023] SCR devices can be used in a variety of applications where it is desired to reduce NOx levels in an air stream. Such applications may include, but are not limited to, boilers, gas turbines, and internal combustion engines (eg, diesel engines).

[0024] figure 1 Internal combustion engine 10 is shown with SCR device 20 at the exhaust of internal combustion engine 10 . SCR device 20 in this arrangement may be dosed by injecting urea into the exhaust upstream of SCR device 20 using injector 40 . However, any other suitable dosing agent may alternatively be used, such as anhydrous ammonia or ammonia water, and may be added to the SCR device 20 using any suitable technique known to the skilled artisan, or may be in a separate part of the system (such as Ammonia is formed in the ammonia reactor).

[0025] A first (or upstream) NOx sensor 42 , a mass flow rate sensor 44 and a temperature sensor 46 may be arranged to measure the state of the exhaust gas upstream of the SCR d...

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Abstract

A method for determining dosed reductant by considering expected (37) and measured (38) exhaust output states from an SCR device (20), NOx sensor sensitivity data and performing a cross-correlation operation. A method of whether a Selective Catalytic Reduction (SCR) device (20) is mis-dosed, said NOx sensor sensitivity data being an indication of how sensitive the measured exhaust output state is to mis-dosing errors.

Description

technical field [0001] The present disclosure relates to a method and apparatus for estimating dosing errors in a selective catalytic reduction system. Background technique [0002] Selective catalytic reduction (SCR) systems can be used to convert nitrogen oxides (NOx), such as may be produced by internal combustion engines, into less harmful emissions such as nitrogen and water. An SCR system may include a catalyst / catalyst to facilitate a reaction between NOx that may be present in a gas stream passing through the SCR system, and a reductant to substantially remove the NOx from the gas stream. [0003] The reductant may be added to the gas stream and adsorbed onto the catalyst before it reacts with NOx in the gas stream passing through the SCR system. Where the reducing agent used is ammonia, it can be added to the gas stream as eg anhydrous ammonia, aqueous ammonia or urea which is thermally decomposed to ammonia in the SCR system before being adsorbed onto the catalyst...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F01N3/20F01N11/00
CPCF01N3/2066F01N3/208F01N11/007F01N2560/026F01N2610/02F01N2900/0411F01N2900/0416F01N2900/0601F01N2900/1402Y02C20/10Y02T10/12Y02T10/40Y02A50/20B01D53/9431B01D53/96F01N11/00G01M15/102
Inventor D·希顿M·索梅里迪斯B·马斯T·斯蒂芬
Owner PERKINS ENGINES
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