348 results about "Selective non-catalytic reduction" patented technology

The invention relates to a method for preparing a low-temperature SCR (selective catalytic reduction) denitration catalyst, and belongs to the technical field of catalysis. The denitration catalyst has a good nitric oxide removal rate, water resistance and sulfur resistance when the temperature of flue gas ranges from 150 DEG C to 250 DEG C. The method includes dissolving ammonium metavanadate, transition metal salts and titanium and tungsten powder in water; and drying and calcining the mixed liquor to prepare the low-temperature SCR denitration catalyst. The prepared catalyst is good in low-temperature activity, and can keep the good nitric oxide removal rate, the water resistance and the sulfur resistance at the temperature ranging from 150 DEG C to 250 DEG C. In addition, owing to the high activity and poison resistance at the temperature ranging from 150 DEG C to 250 DEG C, the catalyst can be applied to the field of flue gas after the flue gas flows via dust catchers of thermal power plants and flue gas, with the temperature ranging from 150 DEG C to 250 DEG C, of industrial furnaces and the like, and denitration catalyst technology and application breakthrough is realized.

A method for producing ammonia suitable for use as a reductant in a combustion exhaust gas treatment system is provided that includes the electrolytic hydrolysis of urea under mild conditions. The ammonia generator, which includes an electrolysis apparatus including an electrolytic flow cell, an alkaline electrolyte composition, and a recirculation system, may be operatively coupled to an exhaust gas treatment system to provide an apparatus for reducing nitrogen oxides (NO_x) and/or particulate in exhaust gases.

A selective catalytic reduction system and method for reducing nitrogen oxide (NO_x) emissions comprising a boiler producing flue gas emissions, a particulate control device receiving flue gas emissions from the boiler, a selective catalytic reduction unit (SCR) receiving flue gas emissions from the particulate control device and reducing nitrogen oxide (NO_x) emissions, and a heat exchanger located downstream of the selective catalytic reduction unit (SCR) for removing heat from the flue gas for preheating at least one of boiler feed water and combustion air for the boiler.

The invention relates to a selective non-catalytic reduction (SNCR) denitration multi-nozzle long-gun injector, which comprises a gun body assembly and at least two nozzles, wherein the gun body assembly comprises a pipeline assembly, an input assembly and a gun head; the pipeline assembly comprises a cooling water input pipe, a urea pipe, an air pipe and a cooling water output pipe from the interior to the exterior in turn; the input assembly comprises a water inlet joint, a urea joint, an air joint and a water outlet joint; the gun head comprises a urea seal head, an air seal head which is arranged at an outlet end of the air pipe, and a cooling water seal head which is arranged between an inlet end and a cooling water outlet end of the cooling water output pipe; each nozzle is an internal-mixing nozzle arranged on the gun assembly; a mixing chamber of each nozzle is communicated with a urea cavity and an air cavity respectively; and an opening of each nozzle is formed on a side wall of the cooling water output pipe. The technical problem that the conventional SNCR denitration multi-nozzle long-gun injector is low in denitration efficiency and unstable in performance in a high-temperature high-corrosion and high-abrasion flue gas environment is solved, and the injector is reasonable in design, stable in operation and high in denitration efficiency.

The invention provides a reducing agent atomization spray gun for a selective non-catalytic reduction denitration process. The spray gun comprises a gas pipe, a liquid pipe, a liquid nozzle and an injection pipe, wherein the side surface of the gas pipe is provided with a gas inlet interface; one end of the liquid pipe extends out of the gas pipe and is provided with a liquid inlet interface; the liquid nozzle is in threaded connection with the other end of the liquid pipe; the periphery of the liquid nozzle is provided with a flange which is provided with multiple vent holes; the injection pipe consists of a connection part and a pipe body, the connection part is in threaded connection with the gas pipe, and the inner wall of the injection pipe is in contact with the flange of the liquid nozzle; the injection port end of the liquid nozzle enters the pipe body of the injection pipe, and a gap exists between the injection port end and the inner wall of the injection pipe; a mixing nozzle is also arranged in the pipe body of the injection pipe; and a gas-liquid mixing space is formed between the mixing nozzle and the injection port of the liquid nozzle. The spray gun is of a simple structure, low in manufacturing cost and good in atomization effect without producing water drop, and does not have consumable; as the pipe diameter of the part, entering a boiler, of the spray gun is small, the water cooled wall does not need to be reconstructed during installation; and the compressed air or superheated steam can be used as an atomization air source.

The invention relates to a method and a device for reducing emission limits of nitrogen oxides in waste incineration flue gas. In the method, processes of a waste incineration processing device, an optimizing air supply device, an exhaust-heat boiler device, a selective non-catalytic reduction (SNCR) device, a tail gas processing device and the like are integrated into a whole; by combining clean flue gas serving as secondary air supply and the SNCR device, the situation that the nitrogen oxides in the discharge of tail gas generated after wastes are processed by national waste incineration equipment is not removed effectively in low cost can be changed, and the removal ratio of the nitrogen oxides can be improved; and the removal rate of the nitrogen oxides after the device is optimized is more than 70 percent, so that the concentration of the tail gas discharged finally is lower than 150 mg/Nm<3> specified in the European Union standard 2000. Simultaneously, the optimizing device requires less increment investment and low running cost and is suitable to be applied and popularized in waste incineration equipment at home and abroad, and a denitration device is small in newly increased floor space.

The invention discloses a quadruple-effect denitration agent composition and a denitration method thereof. A denitration agent is prepared from the following raw materials in parts by weight: 50-78% of reducing agent, 15-30% of catalyst, 1-10% of adsorbent, 1-10% of accelerant, 1-10% of dispersant, 1-10% of activating agent, 1-10% of penetrant, 1-10% of controlled release formulation and 1-10% of initiator. The denitration method comprises the following steps: (1) selecting raw materials, and through mixed working procedures of smashing, grinding, sieving and mixing, preparing the quadruple-effect denitration agent composition of claim 1 from the selected raw materials; (2) injecting the quadruple-effect denitration agent composition prepared in (1) into a denitration reaction area, causing the quadruple-effect denitration agent composition to react with NOx in smoke at the temperature of 500-800 DEG C, and generating CO, CO2, N2 and H2O. Compared with a traditional SCR (Selective Catalytic Reduction) method and an SNCR (Selective Non-Catalytic Reduction) method, the denitration method has the advantages of low reaction temperature, good reaction selectivity, high denitration efficiency and the like.

The invention discloses a garbage incineration fume ultralow emission system. A garbage incineration fume purifying treatment device comprises an SNCR (selective non-catalytic reduction) device, a semi-dry type reaction tower, a slaked lime spraying device, an activated carbon spraying device, a bag type deduster, a steam heater, an SCR (selective catalytic reduction) reaction tower, a fume/fume heat exchanger, a wet type scrubbing tower, an induced draft fan and a chimney. The low-temperature fume after washing is performed with heat exchange in the fume/fume heat exchanger, heated, and exhausted out of the chimney. The garbage incineration fume purifying treatment device has the advantage that the emission of the fume is superior to the European Union 2000 standard.

Systems and methods for removing toxic emissions from flue gas of coal fired combustions units can be achieved. Decreasing nitrogen oxide and sulfur emissions from a coal fired circulating fluidized bed reactor can include treating flue gas using a selective catalytic reduction system and a wet scrubber. Furthermore, reducing the nitrogen oxide emissions from a pulverized coal reactor can be accomplished with a selective non-catalytic reduction system. Additionally, the reduction of sulfur oxide emissions from a pulverized coal reactor can be enhanced using dry and/or wet scrubbers. Such systems and methods provide improved levels of toxic emissions over currently available technologies.

The invention relates to a method for regenerating a titanium-based vanadium-series SCR (Selective Catalytic Reduction) denitration catalyst. The method comprises the following steps: removing dusts from the surface of the waste titanium-based vanadium-series SCR denitration catalyst through high-pressure purging and ultrasonic wave treatment; carrying out acid treatment on the dust removed catalyst and washing the catalyst subjected to acid treatment with clean water; carrying out alkali treatment on the washed catalyst and washing the catalyst subjected to alkali treatment with clean water; adding the catalyst subjected to alkali treatment into a regeneration solution, soaking in a standing manner at 20-80 DEG C for 1-10h; drying the regenerated catalyst at low temperature; carrying out heat treatment on the dried catalyst in drying equipment at 200-500 DEG C for 1-3h, thereby obtaining a regenerated SCR denitration catalyst. The method has the beneficial effects of low treatment cost, simplicity in operation, easiness in automation and continuity, low corrosion to equipment, and good regenerating method and regenerating effect.

The invention discloses an SNCR (Selective Non-Catalytic Reduction) flue gas denitration device taking urea as a reducting agent. The denitration device comprises a solid urea tank vehicle, a hose, a movable joint, a solid urea adjusting valve, a solid urea storing tank, a solid urea feeder, a compressed air main pipe, a compressed air adjusting valve, a stirrer, a urea solution preparing tank, aheater, an industrial water main pipe, an industrial water adjusting valve, a urea conveying pump, a urea solution storing tank, a urea spraying pump, a mixer, a urea reflux adjusting valve, a pressurized industrial water adjusting valve, an industrial water pump, a urea dilute solution adjusting valve, an atomization steam adjusting valve, an atomization steam main pipe and a urea spraying unit.During canning of urea, full-automatic and continuous feeding is realized, the concentration and uniformity of a urea solution are ensured, the urea flow is automatically adjusted according to the emission of NOx from combustion equipment, the emission of NOx from the combustion equipment is within a controlled range, and the denitration efficiency is 60 percent; and during supplying of bagged urea, the urea solution preparing tank is fed manually, and an intermittent urea preparing way is adopted.

The invention discloses a high-efficiency ammonia-method denitration process and a high-efficiency ammonia-method denitration device. The process comprises the following steps of: first atomizing in advance the aqueous solution of ammonia or urea solution at the normal temperature, then performing high-temperature gasification and pressurization on the atomized aqueous solution of ammonia or ureasolution, spraying the treated aqueous solution of ammonia or urea solution into a denitration reaction area of a smoke generation source, allowing the sprayed aqueous solution of ammonia or urea solution to be fully mixed, contact and react with smoke by using an ammonia temperature-increasing and pressurizing mixer. According to the invention, the atomization and gasification of the aqueous solution of ammonia or urea solution are performed in advance and high-temperature ammonia is introduced into the reaction area of the smoke generation source only after being fully and stably mixed, which improves the denitration effect by about 70 percent, maximally by 85 percent, and raises the effective reaction temperature of conventional selective non-catalytic reduction (SNCR) to 800 to 1,100 DEG C; therefore, the device can be called high-efficiency high-temperature ammonia-method denitration (HE-SNCR) system. Moreover, due to the adoption of ammonia-method selective non-catalytic reduction reaction, the process also can achieve the denitration effect under the condition of high dust thickness, and the denitration effect is better than that of selective catalytic reduction (SCR) or other post-treatment sections (low-dust thickness and low-water content).

The invention provides a low-NOx grate-rotary kiln pellet production technology. The production technology includes utilizing blended flue gas W exhausted from a down-draft drying section (DDD) and aprimary preheating section (TPH) as cooling air to be delivered to an air inlet of (1) a primary circular cooling section (C1) and (2) an air inlet of a secondary circular cooling section (C2), spraying a reducer into a bottom air box of the circular cooling section (C2), making the reducer and the blended flue gas exhausted from the down-draft drying section (DDD) and the primary preheating section (TPH) to react with NOx so as to achieve SNCR (selective non-catalytic reduction) denitration. The low-NOx grate-rotary kiln pellet production technology has the advantages that the production pressure of enterprise atmospheric pollutant emission limits on pellet calcination equipment can be reduced to a certain degree, and the production technology is saving in investment, low in running costand remarkable in NOx emission reduction effect.

The invention discloses a method and device for controlling NOx concentration in smoke gas of a cement kiln; the device comprises a decomposing kiln, a preheater and a reducing agent supply device, wherein the bottom of the decomposing kiln is communicated with a kiln tail chimney of the cement kiln by an inlet smoke flue; the top of the decomposing kiln is communicated with the preheater by an outlet smoke flue; a plurality of spray guns communicated with the reducing agent supply devices are arranged at or/or in the middle upper part of the decomposing kiln or/and the outlet smoke flue in a layered way; and the device further comprises a central controller and a smoke gas automatic monitoring system, wherein the central controller is connected to the reducing agent supply devices; and the smoke gas automatic monitoring system is used for monitoring NOx concentration and smoke gas flow information in the kiln tail chimney and transmitting the NOx concentration and smoke gas flow information to the central controller. According to the invention, as a reducing agent is sprayed into the decomposing kiln through multi-site combined control, high removal rate of the NOx can be achieved without an SNCR (Selective Non Catalytic Reduction) and SCR (Selective Catalytic Reduction) combined technology.

The invention provides a low-NOx grate-rotary kiln pellet production technology. The production technology includes spraying a reduction activator into a position, above fresh pellets, in a down-draftdrying section (DDD), and enabling the reduction activator to react with NOx in hot air entering the down-draft drying section (DDD) from a rotary kiln (2) so as to achieve SNCR (selective non-catalytic reduction) denitration. In a preferred scheme, the step of excessively spraying the reduction activator with a catalytic effect into a proper temperature range (950 DEG C) above a material surfaceof a secondary preheating section (PH) is added. The low-NOx grate-rotary kiln pellet production technology solves existing technical problems and has the advantages of lower investment, low runningcost, less ammonia escape and remarkable NOx emission reduction effect.

The invention relates to a method for denitrifying flue gas by using an amino reducing agent with high reaction activity. The method comprises the following steps of: spraying the amino reducing agent NR3 with high reaction activity into a denitrification reaction zone to ensure that the amino reducing agent and the flue gas are fully mixed, and reacting the amino reducing agent and NOX in the flue gas at the temperature of 350 - 800 DEG C to fulfill the aim of removing the NOX, wherein the denitrification efficiency can reach 70 to 90 percent. By the technology for denitrifying the flue gas by using the active amino reducing agent NR3, the disadvantages of a selective catalytic reduction (SCR) denitrification technology and a selective non-catalytic reduction (SNCR) denitrification technology are overcome, the reaction temperature is moderate, and the reaction selectivity is high. The method is applicable to the flue gas denitrification of multiple kinds of industrial boilers and industrial kilns and the treatment of automobile exhaust.