IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0861628
(2004-06-04)
|
등록번호 |
US-7311885
(2007-12-25)
|
우선권정보 |
EP-01204736(2001-12-07) |
발명자
/ 주소 |
- Nagy,Anton John
- van den Brink,Peter John
- Harji,Bashir Husein
|
출원인 / 주소 |
- Avantium International A.B.
|
대리인 / 주소 |
Thomas, Kayden, Horstemeyer & Risley LLP
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
4 |
초록
▼
A batch reaction system for simultaneously conducting reactions in at least two separate reactors (CSTR reactors), is provided wherein the at least two batch reactors, containing mixing means and a fluid inlet, a fluid feed common conduit is present for feed fluid to the reactors, which is connected
A batch reaction system for simultaneously conducting reactions in at least two separate reactors (CSTR reactors), is provided wherein the at least two batch reactors, containing mixing means and a fluid inlet, a fluid feed common conduit is present for feed fluid to the reactors, which is connected to the inlet of each reactor of a fluid inlet conduits, and further includes a fluid discharge common conduit which is connected to the outlet of each reactor wherein in each fluid inlet conduit and/or in each fluid outlet conduit a non-return valve is arranged to prevent contamination but can provide simultaneous reactions wherein the reactors can be easily isolated from one another during reaction.
대표청구항
▼
What is claimed is: 1. A batch reaction system for simultaneously conducting reactions in at least two separate batch reactors, the batch reaction system comprising: at least two batch reactors, each batch reactor containing mixing means, and a fluid inlet; and a fluid feeding common conduit for fe
What is claimed is: 1. A batch reaction system for simultaneously conducting reactions in at least two separate batch reactors, the batch reaction system comprising: at least two batch reactors, each batch reactor containing mixing means, and a fluid inlet; and a fluid feeding common conduit for feeding fluid to the reactors, the fluid feeding common conduit being connected to the inlet of each batch reactor by a fluid inlet conduit; wherein a non-return valve is arranged in each fluid inlet conduit, which non-return valve closes in the direction of the fluid feeding common conduit; and wherein each batch reactor also has a fluid outlet, and the batch reaction system further comprises a fluid discharge common conduit for discharging fluid from the batch reactors, the fluid discharge common conduit being connected to the fluid outlet of each batch reactor by a fluid outlet conduit, and a non-return valve arranged in each fluid outlet conduit, said non-return valve closing in the direction of the batch reactor. 2. A batch reaction system according to claim 1, wherein each batch reactor also has a gas outlet, and the batch reaction system further comprises a gas discharge common conduit for discharging gas from the reactors, the gas discharge common conduit being connected to the gas outlet of each reactor by a gas outlet conduit. 3. A batch reaction system according to claim 1, wherein each batch reactor comprises a condenser. 4. A batch reaction system according to claim 1, wherein each fluid inlet conduit comprises a flow restrictor. 5. A batch reaction system according to claim 1, wherein each fluid inlet conduit comprises a flow restrictor between the fluid feeding common conduit and the non-return valve. 6. A batch reaction system according to claim 1, wherein each batch reactor also has a fluid outlet, and the batch reaction system further comprises a fluid discharge common conduit for discharging fluid from the batch reactors, the fluid discharge common conduit being connected to the fluid outlet of each batch reactor by a fluid outlet conduit, and wherein each fluid outlet conduit comprises a flow restrictor. 7. A batch reaction system according to claim 1, wherein each batch reactor also has a fluid outlet, and the batch reaction system further comprises a fluid discharge common conduit for discharging fluid from the batch reactors, the fluid discharge common conduit being connected to the fluid outlet of each batch reactor by a fluid outlet conduit, and wherein each fluid outlet conduit comprises a flow restrictor between the batch reactor and the non-return valve. 8. A batch reaction system for simultaneously conducting reactions in at least two separate reactors, the batch reaction system comprising: at least two batch reactors, each batch reactor containing mixing means, a fluid inlet and a fluid outlet; a fluid discharge common conduit for discharging fluid from the batch reactors, the fluid discharge common conduit being connected to the fluid outlet of each batch reactor by a fluid outlet conduit; wherein a non-return valve is arranged in each fluid outlet conduit, which non-return valve closes in the direction of the batch reactor. 9. A batch reaction system according to claim 8, wherein the batch reaction system further comprises a fluid feeding common conduit for feeding fluid to the reactors, the fluid feeding common conduit being connected to the inlet of each reactor by a fluid inlet conduit. 10. A batch reaction system according to claim 8, wherein each batch reactor comprises a condenser. 11. A batch reaction system according to claim 8, wherein each fluid outlet conduit comprises a flow restrictor. 12. A batch reaction system according to claim 8, wherein each fluid outlet conduit comprises a flow restrictor between the batch reactor and the non-return valve. 13. A process for simultaneously conducting reactions in at least two separate batch reactors using the batch reaction system according to claim 1. 14. A process for simultaneously conducting reactions in at least two separate batch reactors using the batch reaction system according to claim 8.
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