CN101143299B - Deuslfurizing system for sea water - Google Patents

Deuslfurizing system for sea water Download PDF

Info

Publication number
CN101143299B
CN101143299B CN2007101182416A CN200710118241A CN101143299B CN 101143299 B CN101143299 B CN 101143299B CN 2007101182416 A CN2007101182416 A CN 2007101182416A CN 200710118241 A CN200710118241 A CN 200710118241A CN 101143299 B CN101143299 B CN 101143299B
Authority
CN
China
Prior art keywords
absorption tower
seawater
aeration tank
inlet
meter
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN2007101182416A
Other languages
Chinese (zh)
Other versions
CN101143299A (en
Inventor
杨东
陈颖
陈玉乐
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Beijing Longyuan Environment Protection Engineering Co., Ltd.
Original Assignee
杨东
陈颖
陈玉乐
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 杨东, 陈颖, 陈玉乐 filed Critical 杨东
Priority to CN2007101182416A priority Critical patent/CN101143299B/en
Publication of CN101143299A publication Critical patent/CN101143299A/en
Application granted granted Critical
Publication of CN101143299B publication Critical patent/CN101143299B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Treating Waste Gases (AREA)

Abstract

The invention relates to a seawater desulphurization system. The invention comprises a controller, a sulfur dioxide content meter, a gas flow meter, a seawater flow meter, a controlling device, a thermometer and a pH monitor. The sulfur dioxide content meter and the gas flow meter are in turn connected in series with an air intake of a pressure fan. The thermometer is arranged on an absorption tower. The pH monitor is arranged on a liquid outlet of an aeration tank. The seawater flow meter is arranged on the seawater conveying pipe which is between a pressure pump and the absorption tower. The sulfur dioxide content meter, the gas flow meter, the seawater flow meter, the thermometer and the Ph monitor are separately connected with the controller in electric connection. The controller is connected with the pressure pump through the controlling device and an aerator. The controller can regulate the output of the seawater pressure pump based on the gas volume and sulfur content variationof the gas to achieve the best match of the desulphurization seawater volume and gas volume. Because the seawater temperature and the variation of the alkalinity cause the seawater have different recovery capability, the aeration rate of the aeration fan is monitored and adjusted based on the pH value of the aeration tank outlet to optimize the aeration rate.

Description

Deuslfurizing system for sea water
Technical field
The present invention relates to a kind of Deuslfurizing system for sea water, particularly a kind of system that removes sulfur dioxide in flue gas with seawater.
Background technology
At present, coal-burned industrial boiler or station boiler contain a large amount of SO in the flue gas that burning produces 2Deng acid contaminant, be the main cause that causes air pollution and acid rain.For gas cleaning, adopt seawater to carry out the selection that desulfurization is a kind of economy, efficient, environmental protection near the industrial combustion system, particularly large-scale coal-fired power station boiler on seashore.Seawater desulfurizing process must solve the problem of gas cleaning and restoring sea water simultaneously, and this requires reasonably available seawater amount and the aeration rate that is used for restoring sea water are reasonably selected and distributed.But because parameters such as the basicity of exhaust gas volumn and sulfur content, seawater and temperature are variable, and existing Deuslfurizing system for sea water has just carried out the desulfurization of seawater, and no matter the basicity and the absorption tower variation of temperature of exhaust gas volumn, sulfur content, seawater, therefore this system only carries out work under the parameter of design, under the situation that above-mentioned parameter changes, Deuslfurizing system for sea water does not possess the corresponding regulating power of seawater distribution and aeration rate.
Summary of the invention
What the object of the invention was to provide a kind of proposition possesses that seawater distributes and the Deuslfurizing system for sea water of the corresponding regulating power of aeration rate, thereby reaches better control desulphurization reaction and reduce the purpose of power consumption.
In order to realize purpose of the present invention, the present invention implements in the following manner:
A kind of Deuslfurizing system for sea water of the present invention, it comprises: chimney, booster fan, heat exchanger, the absorption tower, aerator, the aeration tank, forebay and booster pump, the gas outlet of booster fan links to each other with the waste gas inlet of heat exchanger lower end, the waste gas gas outlet of heat exchanger lower end links to each other with the exhaust gas inlet of lower end, absorption tower, the exhaust outlet of upper end, absorption tower links to each other with the air inlet of heat exchanger upper end, the exhaust outlet of heat exchanger upper end links to each other with chimney, the forebay links to each other with the inlet on absorption tower by at least one booster pump in parallel, the bottom of forebay also links to each other with the seawater water inlet of aeration tank, the liquid outlet on absorption tower links to each other with the inlet of aeration tank, the liquid outlet of aeration tank leads to the sea, an aerator is housed in the aeration tank at least, wherein: Deuslfurizing system for sea water also comprises: controller, the content of sulfur dioxide meter, the flue gas flow meter, the seawater flow meter, adjusting device, thermometer and acid-base value monitoring meter, content of sulfur dioxide meter and flue gas flow meter are connected successively and are contained in the air inlet of booster fan, thermometer is contained on the absorption tower, acid-base value monitoring meter is contained in the liquid outlet of aeration tank, the seawater flow meter is contained on the seawater conveyance conduit between booster pump and the absorption tower, the content of sulfur dioxide meter, the flue gas flow meter, the seawater flow meter, thermometer and acid-base value monitoring score are not electrically connected with controller, and controller is electrically connected with aerator and booster pump by adjusting device respectively;
A kind of Deuslfurizing system for sea water of the present invention, wherein: described adjusting device is fluid coupling or frequency converter;
A kind of Deuslfurizing system for sea water of the present invention, wherein: be equipped with from top to bottom successively on described absorption tower: demister, injection well downhole flow regulator and packing layer, packing layer is contained on the liquid level on absorption tower, described thermometer is contained on the liquid level and the absorption tower between the packing layer on absorption tower, the inlet on absorption tower is opened on the absorption tower at injection well downhole flow regulator place, the exhaust gas inlet of lower end, absorption tower is opened on the absorption tower of liquid level lower end, and the exhaust outlet of upper end, absorption tower is opened on the absorption tower of demister upper end;
A kind of Deuslfurizing system for sea water of the present invention, wherein: described aeration tank comprises: water distributing area, aeration zone and catchment, the water level of water distributing area, aeration zone and catchment reduces successively, separate with dividing plate between them, described aeration tank seawater water inlet is opened at water distributing area, described aeration tank inlet feeds the aeration zone, and described aerator is contained in the aeration zone, and described aeration tank liquid outlet is driveed in the catchment;
A kind of Deuslfurizing system for sea water of the present invention, wherein: described controller is DCS or PLC controller;
A kind of Deuslfurizing system for sea water of the present invention, wherein: described forebay links to each other with the inlet on absorption tower by the booster pump of two parallel connections;
A kind of Deuslfurizing system for sea water of the present invention, wherein: the inlet of described booster pump and liquid outlet are equipped with Electrically operated gate respectively;
A kind of Deuslfurizing system for sea water of the present invention, wherein: two aerators are housed in the described aeration tank;
A kind of Deuslfurizing system for sea water of the present invention, wherein: the exhaust outlet of the air inlet of described content of sulfur dioxide meter and heat exchanger upper end is equipped with two baffle doors of series connection respectively, and they are by motor drives.
Deuslfurizing system for sea water of the present invention is compared with existing Deuslfurizing system for sea water, because ocean temperature, basicity condition change with season, climate change, its corresponding restoring sea water ability should be also along with the variation of above-mentioned parameter changes, the present invention is the variation according to sulfur content in exhaust gas volumn that enters system and the flue gas, regulate the rotating speed of seawater booster pump, make desulfurization seawater amount and exhaust gas volumn optimum Match; Change the different of the restoring sea water ability cause according to the temperature of seawater in the absorption tower and the acid-base value that enters seawater, regulate the aeration rate of Aeration fan, make aeration rate reach optimization.Therefore the present invention reasonably joins seawater, makes as much as possible undesulfured alkaline seawater enter the restoring sea water system in later stage, improves the condition of restoring sea water system, reduces the power consumption of system simultaneously, makes desulfurization seawater amount and exhaust gas volumn reach best coupling.
Description of drawings
Fig. 1 is the schematic diagram of Deuslfurizing system for sea water of the present invention.
The specific embodiment
As shown in Figure 1, Deuslfurizing system for sea water of the present invention comprises: chimney 1, booster fan 20, heat exchanger 4, absorption tower 5, aerator 10, aeration tank 11, forebay 17 and booster pump 15, the gas outlet of booster fan 20 links to each other with the waste gas inlet of heat exchanger 4 lower ends, the waste gas gas outlet of heat exchanger 4 lower ends links to each other with the exhaust gas inlet of 5 lower ends, absorption tower, the exhaust outlet of 5 upper ends, absorption tower links to each other with the air inlet of heat exchanger 4 upper ends, the exhaust outlet of heat exchanger 4 upper ends links to each other with chimney 1, forebay 17 links to each other with the inlet on absorption tower 5 by the booster pump 15 of two parallel connections, the inlet of booster pump 15 and liquid outlet are equipped with Electrically operated gate 16 respectively, the bottom of forebay 17 also links to each other with the seawater water inlet of aeration tank 11, the liquid outlet on absorption tower 5 links to each other with the inlet of aeration tank 11, the liquid outlet of aeration tank 11 leads to the sea, two aerators 10 are housed in the aeration tank 11, Deuslfurizing system for sea water also comprises: controller 13, content of sulfur dioxide meter 18, flue gas flow meter 19, seawater flow meter 14, adjusting device 25, thermometer 6 and acid-base value monitoring meter 7, content of sulfur dioxide meter 18 and flue gas flow meter 19 are connected successively and are contained in the air inlet of booster fan 20, thermometer 6 is contained on the absorption tower 5, acid-base value monitoring meter 7 is contained in the liquid outlet of aeration tank 11, seawater flow meter 14 is contained on the seawater conveyance conduit between booster pump 15 and the absorption tower 5, content of sulfur dioxide meter 18, flue gas flow meter 19, seawater flow meter 14 thermometers 6 and acid-base value monitoring meter 7 are electrically connected with controller 13 respectively, controller 13 passes through adjusting device 25 promptly respectively: fluid coupling or frequency converter are electrically connected with aerator 10 and booster pump 15, and controller 13 is DCS or PLC controller.
Be equipped with from top to bottom successively on absorption tower 5: demister 21, injection well downhole flow regulator 22 and packing layer 23, packing layer 23 is contained on the liquid level 24 on absorption tower 5, thermometer 6 is contained on the liquid level 24 and the absorption tower 5 between the packing layer 23 on absorption tower 5, the inlet on absorption tower 5 is opened on the absorption tower 5 at injection well downhole flow regulator 22 places, the exhaust gas inlet of 5 lower ends, absorption tower is opened on the absorption tower 5 of liquid level 24 lower ends, and the exhaust outlet of 5 upper ends, absorption tower is opened on the absorption tower 5 of demister 21 upper ends.
Aeration tank 11 comprises: water distributing area 12, aeration zone 9 and catchment 8, the water level of water distributing area 12, aeration zone 9 and catchment 8 reduces successively, separate with dividing plate between them, aeration tank 11 seawater water inlets are opened at water distributing area 12, aeration tank 11 inlets feed aeration zone 12, aerator 10 is contained in the aeration zone 9, and aeration tank 11 liquid outlets drive in the catchment 8.
The exhaust outlet of the air inlet of content of sulfur dioxide meter 18 and heat exchanger 4 upper ends is equipped with two baffle doors 3 of series connection respectively, and they are driven by motor 2.
Operation principle:
The basic procedure of seawater desulfurizing process is: the flue gas that the industrial combustion system comes enters Deuslfurizing system for sea water, provide power by this intrasystem booster fan 20, carry out purified treatment through entering absorption tower 5 after heat exchanger 4 heat exchange, the clean flue gas after the processing by heat exchanger 4 heat exchange intensifications after chimney 1 discharging.The required seawater of desulfurization is taken from the condenser (not drawing among the figure) of industrial combustion system, and this seawater is sent into forebay 17, its small part (less than Total Water 1/4) send in the absorption tower 5 by booster pump 15, its another part is directly sent into aeration tank 11.
Because exhaust gas volumn, the unstability of sulfur content, content of sulfur dioxide meter 18 in the system of the present invention and flue gas flow meter 19 are connected successively and are contained in the air inlet of booster fan 20, thermometer 6 is contained on the absorption tower 5, acid-base value monitoring meter 7 is contained in the liquid outlet of aeration tank 11, seawater flow meter 14 is contained on the seawater conveyance conduit between booster pump 15 and the absorption tower 5, content of sulfur dioxide meter 18, flue gas flow meter 19, seawater flow meter 14, thermometer 6 and acid-base value monitoring meter 7 are electrically connected with controller 13 respectively, controller 13 passes through adjusting device 25 promptly respectively: fluid coupling or frequency converter are electrically connected with aerator 10 and booster pump 15, controller 13 calculates and analyzes by the information of content of sulfur dioxide meter 18 and flue gas flow input, draw the seawater amount that enters absorption tower 5, controller 13 calculates and analyzes by the information of thermometer 6 and 7 inputs of acid-base value monitoring meter, draw the aeration rate of the aeration tank 11 that blasts, controller 13 sends signal and indicates adjusting device 25 to regulate booster pump 15 and aerator 10 respectively.Booster pump 15 of the present invention and aerator 10 adopt frequency converter or fluid coupling to regulate, that is: according to the variation of flue gas and ambient parameter, and the supply of corresponding adjusting booster pump 15 rotating speeds and aerator 10, thus reach the purpose of regulating the seawater amount.
Seawater after the desulfurization is discharged by 5 bottoms, absorption tower and is entered aeration tank 11, and the acid seawater of this part mixes in aeration tank 11 in aeration tank 11 with from the most of seawater that does not enter absorption tower 5 behind the combustion system condenser fully, aeration recovers.Aeration fan 10 in the aeration tank 11 blasts a large amount of air and mixes in the seawater, is dissolved in the SO in the seawater 3 2-Be oxidized to SO 4 2-, the CO that reaction simultaneously generates 2The air that is also blasted is discharged.
More than describing is explanation of the invention, is not that institute of the present invention restricted portion is referring to claim to the qualification of invention, and under the situation of spirit of the present invention, the present invention can do any type of modification.

Claims (8)

1. Deuslfurizing system for sea water, it comprises: chimney (1), booster fan (20), heat exchanger (4), absorption tower (5), aerator (10), aeration tank (11), forebay (17) and booster pump (15), the gas outlet of booster fan (20) links to each other with the waste gas inlet of heat exchanger (4) lower end, the waste gas gas outlet of heat exchanger (4) lower end links to each other with the exhaust gas inlet of lower end, absorption tower (5), the exhaust outlet of upper end, absorption tower (5) links to each other with the air inlet of heat exchanger (4) upper end, the exhaust outlet of heat exchanger (4) upper end links to each other with chimney (1), forebay (17) links to each other with the inlet of absorption tower (5) by at least one booster pump in parallel (15), the bottom of forebay (17) also links to each other with the seawater water inlet of aeration tank (11), the liquid outlet on absorption tower (5) links to each other with the inlet of aeration tank (11), the liquid outlet of aeration tank (11) leads to the sea, an aerator (10) is housed in the aeration tank (11) at least, it is characterized in that: Deuslfurizing system for sea water also comprises: controller (13), content of sulfur dioxide meter (18), flue gas flow meter (19), seawater flow meter (14), adjusting device (25), thermometer (6) and acid-base value monitoring meter (7), content of sulfur dioxide meter (18) and flue gas flow meter (19) are connected successively and are contained in the air inlet of booster fan (20), thermometer (6) is contained on the absorption tower (5), acid-base value monitoring meter (7) is contained in the liquid outlet of aeration tank (11), seawater flow meter (14) is contained on the seawater conveyance conduit between booster pump (15) and absorption tower (5), content of sulfur dioxide meter (18), flue gas flow meter (19), seawater flow meter (14), thermometer (6) and acid-base value monitoring meter (7) are electrically connected with controller (13) respectively, controller (13) is electrically connected with aerator (10) and booster pump (15) by adjusting device (25) respectively, and described adjusting device (25) is fluid coupling or frequency converter.
2. Deuslfurizing system for sea water according to claim 1, it is characterized in that: be equipped with from top to bottom successively described absorption tower (5): demister (21), injection well downhole flow regulator (22) and packing layer (23), packing layer (23) is contained on the liquid level (24) of absorption tower (5), described thermometer (6) is contained on the liquid level (24) and the absorption tower (5) between the packing layer (23) of absorption tower (5), the inlet on absorption tower (5) is opened on the absorption tower (5) that injection well downhole flow regulator (22) is located, the exhaust gas inlet of lower end, absorption tower (5) is opened on the absorption tower (5) of liquid level (24) lower end, and the exhaust outlet of absorption tower (5) upper end is opened on the absorption tower (5) of demister (21) upper end.
3. Deuslfurizing system for sea water according to claim 2, it is characterized in that: described aeration tank (11) comprising: water distributing area (12), aeration zone (9) and catchment (8), the water level of water distributing area (12), aeration zone (9) and catchment (8) reduces successively, separate with dividing plate between them, described aeration tank (11) seawater water inlet is opened in water distributing area (12), described aeration tank (11) inlet feeds the aeration zone, described aerator (10) is contained in the aeration zone (9), and described aeration tank (11) liquid outlet is driveed in the catchment (8).
4. Deuslfurizing system for sea water according to claim 3 is characterized in that: described controller (13) is DCS or PLC controller.
5. Deuslfurizing system for sea water according to claim 4 is characterized in that: described forebay (17) link to each other with the inlet of absorption tower (5) by the booster pump (15) of two parallel connections.
6. according to claim 4 or 5 described Deuslfurizing system for sea water, it is characterized in that: the inlet of described booster pump (15) and liquid outlet are equipped with Electrically operated gate (16) respectively.
7. Deuslfurizing system for sea water according to claim 4 is characterized in that: two aerators (10) are housed in described aeration tank (11).
8. Deuslfurizing system for sea water according to claim 4 is characterized in that: the exhaust outlet of the air inlet of described content of sulfur dioxide meter (18) and heat exchanger (4) upper end is equipped with two baffle doors (3) of series connection respectively, and they are driven by motor (2).
CN2007101182416A 2007-07-03 2007-07-03 Deuslfurizing system for sea water Active CN101143299B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2007101182416A CN101143299B (en) 2007-07-03 2007-07-03 Deuslfurizing system for sea water

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2007101182416A CN101143299B (en) 2007-07-03 2007-07-03 Deuslfurizing system for sea water

Publications (2)

Publication Number Publication Date
CN101143299A CN101143299A (en) 2008-03-19
CN101143299B true CN101143299B (en) 2010-06-23

Family

ID=39206137

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2007101182416A Active CN101143299B (en) 2007-07-03 2007-07-03 Deuslfurizing system for sea water

Country Status (1)

Country Link
CN (1) CN101143299B (en)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101468297B (en) * 2008-08-19 2012-01-25 杨东 Load adjustable aeration apparatus for restoring sea water after desulphurization
CN102407067A (en) * 2010-09-21 2012-04-11 鞍钢股份有限公司 Seawater desulfurization process and desulfurization system for sintering flue gas
CN106029206A (en) * 2014-09-02 2016-10-12 富士电机株式会社 Exhaust gas treatment device and waste water treatment method for exhaust gas treatment device
CN110394046B (en) * 2019-07-08 2021-11-05 徐州润华环保科技有限公司 Desulfurization operation optimization expert system
CN110743363A (en) * 2019-09-17 2020-02-04 上海蓝魂环保科技有限公司 Flue gas and seawater flow control system for seawater desulfurization of ship

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1593726A (en) * 2004-06-21 2005-03-16 樊金鑫 Monitoring and automatic control system for wet method flue gas desulfurization technology
CN1899676A (en) * 2006-07-11 2007-01-24 杨东 Desulfurizing system for treating smoke produced from industrial burning device
CN1899675A (en) * 2006-07-12 2007-01-24 陈玉乐 Reverse flow type seawater desulfurizing and absorption tower
CN2912777Y (en) * 2006-07-11 2007-06-20 杨东 Desulfurization system for treating flue gas generated by industrial combustion device
CN201058282Y (en) * 2007-07-03 2008-05-14 杨东 Sea water desulfurization system

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1593726A (en) * 2004-06-21 2005-03-16 樊金鑫 Monitoring and automatic control system for wet method flue gas desulfurization technology
CN1899676A (en) * 2006-07-11 2007-01-24 杨东 Desulfurizing system for treating smoke produced from industrial burning device
CN2912777Y (en) * 2006-07-11 2007-06-20 杨东 Desulfurization system for treating flue gas generated by industrial combustion device
CN1899675A (en) * 2006-07-12 2007-01-24 陈玉乐 Reverse flow type seawater desulfurizing and absorption tower
CN201058282Y (en) * 2007-07-03 2008-05-14 杨东 Sea water desulfurization system

Also Published As

Publication number Publication date
CN101143299A (en) 2008-03-19

Similar Documents

Publication Publication Date Title
CN201058282Y (en) Sea water desulfurization system
CN101143299B (en) Deuslfurizing system for sea water
JP4446309B2 (en) Exhaust gas desulfurization equipment using seawater
CN100393395C (en) Desulfurization denitration dust collecting integral purifier for coal burning boiler fume gas
EP3085911B1 (en) Scrubber with dual water system
CN201342319Y (en) Desulfurization device
CN103933844A (en) Flue gas treatment system and control method by virtue of alkaline waste water
CN1325419C (en) Dehydration method and apparatus of flue gas desulfurization gypsum slurry
CN101259371A (en) Washing tower
CN213160199U (en) Closed-loop control's desulfurization system
CN213326810U (en) Wastewater treatment system
CN203017969U (en) Intelligent flue gas desulphurization and purification control system
CN102357341A (en) Biomass boiler flue gas desulfurization device and process
CN104445569A (en) Method and system for seawater foam control
CN216825636U (en) Automatic control device of wet flue gas desulfurization system
EP3277399A1 (en) Foam intercept system
CN216093072U (en) Energy-saving control device for wet desulphurization circulating pump
CN112723453B (en) Desulfurization wastewater zero discharge system for dry slag cooling
CN103961990B (en) A kind of flue gas repeatedly aeration system for desulfuration and denitration and control method
CN110219628A (en) A kind of novel flue gas oil recovery by heating equipment
CN209752583U (en) Industrial flue gas desulfurization, denitrification and whitening device
CN204134470U (en) A kind of carbide slag-gypsum dynamic wave flue gas desulphurization system
CN207934881U (en) A kind of novel flue gas oil recovery by heating equipment
CN112159017A (en) Device and method for treating and comprehensively utilizing small-particle oil shale retorting wastewater
CN108159880B (en) Flue gas denitration system

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
EE01 Entry into force of recordation of patent licensing contract

Assignee: Beijing Longyuan Environment Protection Engineering Co., Ltd.

Assignor: Yang Dong|Chen Ying|Chen Yule

Contract record no.: 2011990000609

Denomination of invention: Seawater desulfurization system suitable for frequency change of coal quality

Granted publication date: 20100623

License type: Exclusive License

Open date: 20080319

Record date: 20110712

EC01 Cancellation of recordation of patent licensing contract

Assignee: Beijing Longyuan Environment Protection Engineering Co., Ltd.

Assignor: Yang Dong|Chen Ying|Chen Yule

Contract record no.: 2011990000609

Date of cancellation: 20160830

LICC Enforcement, change and cancellation of record of contracts on the licence for exploitation of a patent or utility model
EE01 Entry into force of recordation of patent licensing contract

Application publication date: 20080319

Assignee: Beijing Longyuan Environment Protection Engineering Co., Ltd.

Assignor: Chen Ying|He Qiang|Wang Xiaoli|Yang Dong|Chen Yule

Contract record no.: 2016990000371

Denomination of invention: Seawater desulfurization system suitable for frequency change of coal quality

Granted publication date: 20100623

License type: Exclusive License

Record date: 20160902

LICC Enforcement, change and cancellation of record of contracts on the licence for exploitation of a patent or utility model
TR01 Transfer of patent right
TR01 Transfer of patent right

Effective date of registration: 20170419

Address after: 100044 Beijing City, Xicheng District, the main street car No. 9 building, building 10, block B2, floor five

Co-patentee after: Chen Ying

Patentee after: Yang Dong

Co-patentee after: Chen Yule

Co-patentee after: Beijing Longyuan Environment Protection Engineering Co., Ltd.

Address before: 100044, Beijing City, Xicheng District, the main street car No. five building, B2-9 floor, building 9

Co-patentee before: Chen Ying

Patentee before: Yang Dong

Co-patentee before: Chen Yule