摘要:
Ozone, preferably produced in an ambient air stream passed through a non-thermal hyperplasma reactor, is added to the hot exhaust gas stream from a lean-burn (oxygen-rich) combustion source. The ozone converts much of the NO in the NOx containing exhaust stream to NO2. The resulting NO2/NOx ratio can be controlled by the input energy density to the plasma reactor. Ammonia and/or urea is added to the ozone treated exhaust in proportion to the NOx content, and the stream passed into contact with a reduction catalyst, such as a base metal-exchanged zeolite, to convert the NOx to nitrogen.
摘要翻译:优选在通过非热等离子体反应器的环境空气流中产生的臭氧被添加到来自稀燃(富氧)燃烧源的热废气流中。 臭氧将含有NO SUB>的排气流中的大部分NO转化为NO 2。 可以通过等离子体反应器的输入能量密度来控制所得到的NO 2 2 / NO x比率。 将氨和/或尿素与NO x含量成比例地添加到经臭氧处理的废气中,并且流与还原催化剂如贱金属交换的沸石接触以将 NO x向氮。
摘要:
A catalyst made by the introduction of copper ions and cobalt ions into a Y-type zeolite to produce a CuCoY zeolite improves the reduction of NOx in exhaust from a lean bum engine, such as a diesel engine. A dual bed selective reduction reactor in the exhaust stream comprising a first bed of BaY or of Ag/alumina and a second bed of CuCoY is particularly effective in reduction of NOx. In one embodiment, the exhaust stream is suitably treated with an oxidant, such as ozone, and a reductant, such as a diesel hydrocarbon or oxygenated diesel hydrocarbon, before the exhaust passes in contact with the dual bed catalyst.
摘要:
A catalyst made by the introduction of copper ions and cobalt ions into a Y-type zeolite to produce a CuCoY zeolite improves the reduction of NOx in exhaust from a lean burn engine, such as a diesel engine. A dual bed selective reduction reactor in the exhaust stream comprising a first bed of BaY or of Ag/alumina and a second bed of CuCoY is particularly effective in reduction of NOx. In one embodiment, the exhaust stream is suitably treated with an oxidant, such as ozone, and a reductant, such as a diesel hydrocarbon or oxygenated diesel hydrocarbon, before the exhaust passes in contact with the dual bed catalyst.
摘要:
The invention includes an operating strategy for zeolite-based catalysts used for reduction of NO.sub.x from highly lean exhaust conditions. The invention includes a method to enhance the high temperature activity of zeolite-based catalysts by modifying the transient feed composition without changing the overall time-average feed composition. More specifically, a cyclic operation method with alternating feed conditions between rich and lean to enhance the activity of zeolite-based catalysts to remove NO from lean exhaust gases when the overall exhaust composition contains a large amount of excess oxygen, without affecting the catalyst's activity to remove hydrocarbons. The rich to lean transient conditions are created by periodically adding hydrocarbon pulses from a different source to the combustion emissions.
摘要:
A method for reducing nitrogen oxides including NO and NO2 in an exhaust stream also comprising oxygen, carbon monoxide and hydrocarbons at a temperature above about 150° C., the method including in embodiments oxidizing NO in the exhaust stream to NO2; reforming raw diesel fuel to produce OHC's from the fuel; adding diesel fuel hydrocarbons and their oxygenates to the exhaust stream for the reduction of nitrogen oxides; and contacting the exhaust stream with a reduction hybrid catalyst comprising BaY—Ag/Al2O3 to reduce the nitrogen oxides to N2. The method reduces NOx initially through the (HC+OHC)/SCR process producing N2, while also producing NH3 as a byproduct over Ag/Al2O3. The NH3 subsequently reduces NOx over the BaY—Ag/Al2O3 hybrid catalyst through the NH3/SCR process, producing more N2 and thereby enhancing the NOx reduction efficiency of the hybrid catalyst system.
摘要翻译:一种在高于约150℃的温度还含有氧气,一氧化碳和烃类的废气流中还原NO和NO 2的氮氧化物的方法,该方法包括将排气流中的NO氧化为NO 2; 改造生柴油燃料生产OHC; 向排气流中加入柴油燃料烃及其含氧化合物以还原氮氧化物; 并将废气流与包含BaY-Ag / Al 2 O 3的还原性杂化催化剂接触以将氮氧化物还原成N 2。 该方法首先通过产生N 2的(HC + OHC)/ SCR工艺来还原NOx,同时还产生作为Ag / Al 2 O 3上的副产物的NH 3。 NH3随后通过NH 3 / SCR工艺在BaY-Ag / Al 2 O 3混合催化剂上减少NOx,产生更多的N 2,从而提高混合催化剂体系的NOx还原效率。
摘要:
The nitric oxide (NO) and nitrogen dioxide (NO2) content of lean-burn engine exhaust is beneficially prepared for selective catalytic reduction (SCR) of these oxides to nitrogen by two sidestream additions to the exhaust. An ozone-containing air stream is added to the exhaust to affect oxidation of NO to NO2. And a hydrocarbon(s) fuel constituent is added to a second humidified ozone-containing air stream and that mixture subjected to UV radiation. Strongly oxidizing hydroxyl radicals are formed by interaction of ozone, water, and UV radiation for reaction with the hydrocarbon. The resulting partially oxidized hydrocarbons (Pox) are added to the exhaust, providing effective reduction materials for the SCR of NO2 to nitrogen and water.
摘要:
An automobile catalytic converter of extruded ceramic monolithic honeycomb structure for treatment of automotive exhaust gas. The monolithic structure contains longitudinally extended channels formed of thin walls in a periodic pattern of cross sections of different areas to induce different flow velocities of the exhaust gas in the immediate adjacent channels. Temperature gradients thereby produced between the adjacent channels promote heat transfer in the transverse direction of the honeycomb structure to prevent the formation of maximum temperature in each channel at the same longitudinal location of the channel wall.
摘要:
A catalyst made by the introduction of copper ions and cobalt ions into a Y-type zeolite to produce a CuCoY zeolite improves the reduction of NOx in exhaust from a lean burn engine, such as a diesel engine. A dual bed selective reduction reactor in the exhaust stream comprising a first bed of BaY or of Ag/alumina and a second bed of CuCoY is particularly effective in reduction of NOx. In one embodiment, the exhaust stream is suitably treated with an oxidant, such as ozone, and a reductant, such as a diesel hydrocarbon or oxygenated diesel hydrocarbon, before the exhaust passes in contact with the dual bed catalyst.
摘要:
Raw diesel fuel is reformed to produce partially oxygenated hydrocarbons in the liquid fuel by use of a nonthermal plasma reactor. The reformed diesel fuel is formed by passing a stream of air plasma bubbles through a liquid volume of diesel fuel to strip low molecular weight hydrocarbons from the fuel, while partially oxygenating an abundance of them as a reformate for addition to the exhaust. This reformed diesel fuel is introduced as a sidestream into the exhaust of a diesel engine or other lean-burn power plants as reactants for selective catalytic reduction of nitrogen oxides in the exhaust. Fresh fuel is added to the liquid volume as diesel reformate is stripped from it, and a portion of the stripped fuel is withdrawn from the liquid volume.
摘要:
A method for reducing nitrogen oxides including NO and NO2 in an exhaust stream also comprising oxygen, carbon monoxide and hydrocarbons at a temperature above about 150° C., the method including in embodiments oxidizing NO in the exhaust stream to NO2; reforming raw diesel fuel to produce OHC's from the fuel; adding diesel fuel hydrocarbons and their oxygenates to the exhaust stream for the reduction of nitrogen oxides; and contacting the exhaust stream with a reduction hybrid catalyst comprising BaY—Ag/Al2O3 to reduce the nitrogen oxides to N2. The method reduces NOx initially through the (HC+OHC)/SCR process producing N2, while also producing NH3 as a byproduct over Ag/Al2O3. The NH3 subsequently reduces NOx over the BaY-Ag/Al2O3 hybrid catalyst through the NH3/SCR process, producing more N2 and thereby enhancing the NOx reduction efficiency of the hybrid catalyst system.
摘要翻译:一种在高于约150℃的温度还含有氧气,一氧化碳和烃类的废气流中还原NO和NO 2的氮氧化物的方法,该方法包括将排气流中的NO氧化为NO 2; 改造生柴油燃料生产OHC; 向排气流中加入柴油燃料烃及其含氧化合物以还原氮氧化物; 并将废气流与包含BaY-Ag / Al 2 O 3的还原性杂化催化剂接触以将氮氧化物还原成N 2。 该方法首先通过产生N 2的(HC + OHC)/ SCR工艺来还原NOx,同时还产生作为Ag / Al 2 O 3上的副产物的NH 3。 NH3随后通过NH 3 / SCR工艺在BaY-Ag / Al 2 O 3混合催化剂上减少NOx,产生更多的N 2,从而提高混合催化剂体系的NOx还原效率。