Assembly for wet cleaning of combustion gases derived from combustion processes, especially the combustion of coal, coke
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-047/00
출원번호
US-0149788
(1993-11-10)
우선권정보
PL-0299617 (1993-07-08)
발명자
/ 주소
Borszynski Wac aw (ul. Olimpijska 11 m.40 94-043 dzPLX)
인용정보
피인용 횟수 :
60인용 특허 :
0
초록▼
An assembly for wet cleaning combustion gases includes at least one dust extracting device and at least one dust absorbing device. The main vessel of the dust extracting device includes a bottom having a ridge roof structure. An inlet is provided for introducing combustion gases into the main vessel
An assembly for wet cleaning combustion gases includes at least one dust extracting device and at least one dust absorbing device. The main vessel of the dust extracting device includes a bottom having a ridge roof structure. An inlet is provided for introducing combustion gases into the main vessel, and an outlet is provided for extracting at least partially cleaned combustion gases from the main vessel. A filter is located between the inlet and outlet. First and second auxiliary vessels are arranged with respect to the main vessel so as to form a Z-shape, when viewed from above. Sediment tanks located in the bottom of the auxiliary vessels receive sediment introduced therein from conveyors provided in the low portions of the main vessel. Waste fluid is discharged from the sediment tanks into the auxiliary vessels. The assembly also includes a dust absorbing device. This device includes a vessel, an inlet connected to the outlet of the dust extracting device, a duct for outputting cleaned flue gases, and a filter.
대표청구항▼
An assembly for wet cleaning of combustion gases derived from combustion processes, said assembly being disposed between a furnace installation and a chimney, comprising: at least one dust extracting device having a dust extracting fluid contained therein, said dust extracting device having an outle
An assembly for wet cleaning of combustion gases derived from combustion processes, said assembly being disposed between a furnace installation and a chimney, comprising: at least one dust extracting device having a dust extracting fluid contained therein, said dust extracting device having an outlet, and at least one dust absorbing device connected to the outlet of the dust extracting device, wherein the dust absorbing device includes a vessel having an absorbing fluid contained therein, wherein combustion gases are introduced into said dust extracting fluid and are discharged therefrom through a filtering means disposed in said dust extracting fluid, wherein the dust extracting device includes a main vessel having a bottom which forms a ridge roof structure, a first auxiliary vessel and a second auxiliary vessel situated such that in a view from above, the main vessel and the first and second auxiliary vessels form a shape approximating a letter Z, wherein a middle part of the letter Z is made up of the main vessel, and the arms of the letter Z are made up of the first and second auxiliary vessels, wherein the main vessel is equipped with a first helical conveyor and a second helical conveyor provided in first and second low portions, respectively, of the ridge roof structure, said first and second conveyors provided for discharging sediments to first and second sediment tanks provided in the first and second auxiliary vessels, respectively, first and second devices for discharging waste fluid disposed in the first and second sediment tanks, respectively, wherein at an outlet for introducing a stream of combustion gases into the dust extracting fluid, a guide is provided which substantially encloses the stream of combustion gases, and wherein the filtering means is disposed above the guide, and wherein the vessel of said dust absorbing device includes a coaxially disposed duct for outputting cleaned flue gases, and a filtering means is provided in the dust absorbing device extending toward a bottom of the dust absorbing device with respect to the duct.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허를 인용한 특허 (60)
Manchikanti, Maruthi Prasad; Black, Kenneth Damon; Floyd, II, Donald Earl; Crum, Gregory Allan, Bearing housing.
Minta, Moses; Mittricker, Franklin F.; Rasmussen, Peter C.; Starcher, Loren K.; Rasmussen, Chad C.; Wilkins, James T.; Meidel, Jr., Richard W., Low emission power generation and hydrocarbon recovery systems and methods.
Oelkfe, Russell H.; Huntington, Richard A.; Mittricker, Franklin F., Low emission power generation systems and methods incorporating carbon dioxide separation.
Minto, Karl Dean; Denman, Todd Franklin; Mittricker, Franklin F.; Huntington, Richard Alan, Method and system for combustion control for gas turbine system with exhaust gas recirculation.
Mittricker, Franklin F.; Starcher, Loren K.; Rasmussen, Chad C.; Huntington, Richard A.; Hershkowitz, Frank, Methods and systems for controlling the products of combustion.
Mittricker, Franklin F.; Starcher, Loren K.; Rasmussen, Chad; Huntington, Richard A.; Hershkowitz, Frank, Methods and systems for controlling the products of combustion.
Mittricker, Franklin F.; Huntington, Richard A.; Starcher, Loren K.; Sites, Omar Angus, Methods of varying low emission turbine gas recycle circuits and systems and apparatus related thereto.
Wichmann, Lisa Anne; Simpson, Stanley Frank, Methods, systems and apparatus relating to combustion turbine power plants with exhaust gas recirculation.
Huntington, Richard A.; Denton, Robert D.; McMahon, Patrick D.; Bohra, Lalit K.; Dickson, Jasper L., Processing exhaust for use in enhanced oil recovery.
Gupta, Himanshu; Huntington, Richard; Minta, Moses K.; Mittricker, Franklin F.; Starcher, Loren K., Stoichiometric combustion of enriched air with exhaust gas recirculation.
Denton, Robert D.; Gupta, Himanshu; Huntington, Richard; Minta, Moses; Mittricker, Franklin F.; Starcher, Loren K., Stoichiometric combustion with exhaust gas recirculation and direct contact cooler.
Stoia, Lucas John; DiCintio, Richard Martin; Melton, Patrick Benedict; Romig, Bryan Wesley; Slobodyanskiy, Ilya Aleksandrovich, System and method for a multi-wall turbine combustor.
Huntington, Richard A.; Minto, Karl Dean; Xu, Bin; Thatcher, Jonathan Carl; Vorel, Aaron Lavene, System and method for a stoichiometric exhaust gas recirculation gas turbine system.
Valeev, Almaz Kamilevich; Ginesin, Leonid Yul'evich; Shershnyov, Borys Borysovich; Sidko, Igor Petrovich; Meshkov, Sergey Anatolievich, System and method for a turbine combustor.
Slobodyanskiy, Ilya Aleksandrovich; Davis, Jr., Lewis Berkley; Minto, Karl Dean, System and method for barrier in passage of combustor of gas turbine engine with exhaust gas recirculation.
Minto, Karl Dean; Slobodyanskiy, Ilya Aleksandrovich; Davis, Jr., Lewis Berkley; Lipinski, John Joseph, System and method for controlling the combustion process in a gas turbine operating with exhaust gas recirculation.
Huntington, Richard A.; Dhanuka, Sulabh K.; Slobodyanskiy, Ilya Aleksandrovich, System and method for diffusion combustion in a stoichiometric exhaust gas recirculation gas turbine system.
Huntington, Richard A.; Dhanuka, Sulabh K.; Slobodyanskiy, Ilya Aleksandrovich, System and method for diffusion combustion with fuel-diluent mixing in a stoichiometric exhaust gas recirculation gas turbine system.
Huntington, Richard A.; Dhanuka, Sulabh K.; Slobodyanskiy, Ilya Aleksandrovich, System and method for diffusion combustion with oxidant-diluent mixing in a stoichiometric exhaust gas recirculation gas turbine system.
Subramaniyan, Moorthi; Hansen, Christian Michael; Huntington, Richard A.; Denman, Todd Franklin, System and method for exhausting combustion gases from gas turbine engines.
Huntington, Richard A.; Dhanuka, Sulabh K.; Slobodyanskiy, Ilya Aleksandrovich, System and method for load control with diffusion combustion in a stoichiometric exhaust gas recirculation gas turbine system.
Huntington, Richard A.; Mittricker, Franklin F.; Starcher, Loren K.; Dhanuka, Sulabh K.; O'Dea, Dennis M.; Draper, Samuel D.; Hansen, Christian M.; Denman, Todd; West, James A., System and method for oxidant compression in a stoichiometric exhaust gas recirculation gas turbine system.
Biyani, Pramod K.; Leyers, Scott Walter; Miranda, Carlos Miguel, System and method for protecting components in a gas turbine engine with exhaust gas recirculation.
Biyani, Pramod K.; Saha, Rajarshi; Dasoji, Anil Kumar; Huntington, Richard A.; Mittricker, Franklin F., System and method for protecting components in a gas turbine engine with exhaust gas recirculation.
O'Dea, Dennis M.; Minto, Karl Dean; Huntington, Richard A.; Dhanuka, Sulabh K.; Mittricker, Franklin F., System and method of control for a gas turbine engine.
Oelfke, Russell H.; Huntington, Richard A.; Dhanuka, Sulabh K.; O'Dea, Dennis M.; Denton, Robert D.; Sites, O. Angus; Mittricker, Franklin F., Systems and methods for carbon dioxide capture in low emission combined turbine systems.
Thatcher, Jonathan Carl; West, James A.; Vorel, Aaron Lavene, Systems and methods for controlling exhaust gas flow in exhaust gas recirculation gas turbine systems.
Mittricker, Franklin F.; Huntington, Richard A.; Dhanuka, Sulabh K.; Sites, Omar Angus, Systems and methods for controlling stoichiometric combustion in low emission turbine systems.
Borchert, Bradford David; Trout, Jesse Edwin; Simmons, Scott Robert; Valeev, Almaz; Slobodyanskiy, Ilya Aleksandrovich; Sidko, Igor Petrovich; Ginesin, Leonid Yul'evich, Systems and methods for high volumetric oxidant flow in gas turbine engine with exhaust gas recirculation.
Vorel, Aaron Lavene; Thatcher, Jonathan Carl, Systems and methods of estimating a combustion equivalence ratio in a gas turbine with exhaust gas recirculation.
Thatcher, Jonathan Carl; Slobodyanskiy, Ilya Aleksandrovich; Vorel, Aaron Lavene, Systems and methods to respond to grid overfrequency events for a stoichiometric exhaust recirculation gas turbine.
Allen, Jonathan Kay; Borchert, Bradford David; Trout, Jesse Edwin; Slobodyanskiy, Ilya Aleksandrovich; Valeev, Almaz; Sidko, Igor Petrovich; Subbota, Andrey Pavlovich, Turbine system with exhaust gas recirculation, separation and extraction.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.