TH6386B

TH6386B - Circulating fluid bed reactor with an internal separation and return mechanism

Info

Publication number: TH6386B
Application number: TH9401000516A
Authority: TH
Inventors: เจ วอลเกอร์ นายเดวิด; อี เจมส์ นายเดวิด; ซี อเล็กซานเดอร์ นายคิพลิน; เบลิน นายฟิลิซ์
Original assignee: นายโรจน์วิทย์ เปเรร่า; นายโรจน์วิทย์ เปเรร่า นายธเนศ เปเรร่า; นายธเนศ เปเรร่า
Filing date: 1994-03-21
Publication date: 1997-01-15

Abstract

เครื่องสันดาบหรือว่าเครื่องปฏิกรณ์ CFB ชนิดหนึ่ง ซึ่งมีเครื่องแยกอนุภาคปฐมภูมิแบบอิมแพคท์ ภายในตัวหนึ่ง ได้จัดให้มีกลไกช่องว่างและกลไกนำกลับอนุภาคในส่วนบนส่วนหนึ่งของซองหุ้มเครื่องปฏิกรณ์เพื่อทำให้ได้มา ซึ่งการนำกลับโดยตรง และภายในของของแข็งที่ถูกเก็บสะสมไว้ในเบื้องต้นทั้งหมด ไปยังส่วนก้นส่วนหนึ่งของเครื่องสันดาบหรือว่าเครื่องปฏิกรณ์นี้ เพื่อการหมุนเวียนซ้ำในขั้นต่อไปโดยไม่ต้องใช้ท่อนำเวียนซ้ำภายในและภายนอก A type of burner or CFB reactor with an impact primary particle separator. inside one A gap mechanism and a particle retrieval mechanism were provided in the upper part of the reactor envelope to obtain it. which brings back directly and inside of all the solids that were initially deposited to the bottom part of the sword burner or this reactor for further recirculation without the need for internal and external recirculation pipes

Claims

1. A type of recirculating liquid platform reactor. Which consists of One envelope of the reactor. Some of them are bounded by the casing walls and which have one bottom, one upper part and one outlet opening. That was placed in one of the channels of the upper part One primary impact particle separator It is placed within the aforementioned upper part of the reactor envelope for collecting airborne particles within the gas flow. Which is in the envelope of the reactor From its bottom to its top. Which causes them to fall to the bottom, the gap mechanism, which is coupled with the primary impact separator, They are placed entirely inside the reactor envelope to accommodate the collected particles when they fall from the primary impact separator and the return mechanism that is attached to it. The gap mechanism, and which is placed within the said reactor envelope. It is entirely for the return of particles from the gap mechanism directly and inside the reactor envelope. So that they can settle freely without being interrupted. And not channeled down the wall of the envelope to the bottom of the reactor envelope. 2. The reactor, as described in claim 1, still consists of a mechanism for feeding the suction liquid. 3. The reactor as stated in Clause 1, which still contains an air box, is used to transport fuel to the lower part of the said reactor envelope. It is attached to the aforementioned lower part of the reactor envelope. 4. Reactor as stated in Clause 1, which the Primary Impact Separator consists of. Row of concave impact element 5. Reactor, as stated in claim 4, each row of concave impact element 6. The reactor as stated in Clause 4, in which the rows of the concave impact parts are arranged in two, which causes the particles collected from the gas to fall directly into the gap mechanism. A group is a group of current sources and a group of downstream groups. Each group has at least a 7-row concave impact element, as stated in claim 6, where the current source of the impact element collects the particles that are blown into the gas. 8. The reactor, as stated in claim 6, in which the end group of the impact element collects the particles and causes them to fall freely within and directly into the bottom of the said reactor envelope. Being blown in the gas 9. Reactor, as stated in Clause 1, the reactor envelope has one outer wall envelope with one vertical diameter and a channel mechanism. The void was placed inside the reactor envelope. 1 0. Reactor, as stated in Clause 9, the gap mechanism is bounded by the end envelope wall. And the front gap wall on one side. 1. One type of recirculating liquid platform reactor. Which consists of One envelope of the reactor. Some of which are bounded by the casing wall and which has one end envelope wall with a vertical diameter. Part buttocks part upper part And one exit slot placed in one of the upper exits. One primary impact particle separator It is placed within the aforementioned upper part of the reactor envelope for collecting particles that have been blown up within the gas flow. Which is in the envelope of the reactor From its bottom to its top. Which causes them to fall to the bottom The gap mechanism is bounded by the outer casing wall on one side. One heat-absorbing pad And one front gap wall with its lower end is bent towards the end of the envelope wall. To form a gap mechanism in a cone shape Which the outlet of it is next to the end of the envelope wall Which is attached to the primary impact particle separator. And is placed entirely inside the reactor envelope, located within the vertical diameter. To accommodate the particles that were collected when they fell from the primary impact separator and the take-back mechanism, which was coupled to the gap mechanism and where it was positioned. Inside the envelope of the reactor. It is entirely for the return of particles from the gap mechanism directly and inside the reactor envelope. So that they can settle freely without being interrupted. And not channeled down the wall of the envelope to the bottom of the reactor envelope. For re-circulation in the next step. 1 2. One type of recirculating liquid platform reactor. Which consists of One envelope of the reactor. Some of which are bounded by the envelope wall and which has one end of the envelope wall. With one vertical diameter One bottom, one top, and one outlet are positioned on one of the top outlets. One primary impact particle separator It is placed within the aforementioned upper part of the reactor envelope for collecting particles that have been blown up within the gas flow. Which is in the envelope of the reactor From its bottom to its top. Which causes them to fall to the bottom The gap mechanism is bounded by the outer casing wall on one side. One heat-sinking plate and one front gap wall. The end of the envelope wall was made of liquid-cooled tubes, and the front cavity wall was made up of some liquid-cooled tubes. Which has been bent away from one of the flat surfaces of the end of the envelope wall. To form a mechanism, the said gap in the shape of a cone where its outlet is located next to the outer casing wall. Which was integrated into the aforementioned primary impact particle separator And is placed in the envelope of the reactor completely. Which is inside Such vertical diameter To accommodate the collected particles When they fall from the aforementioned primary impact separator and the take-back mechanism is coupled to the gap mechanism and where it is positioned, Inside the envelope of the reactor. It is entirely for the return of particles from the gap mechanism directly and inside the reactor envelope. So that they can land freely, unobstructed, and not channeled down the wall of the envelope to the bottom of the reactor envelope. To recirculation in the next step. 1 3. One type of recirculating liquid platform reactor. Which consists of One envelope of the reactor. Some of which are bounded by the casing wall and which have one bottom, one upper part and one outlet opening positioned at one of the top outlets. One primary impact particle separator It is placed within the aforementioned upper part of the reactor envelope for collecting particles that have been blown up within the gas flow. Which is in the envelope of the reactor From its bottom to its top. Which causes them to fall to the bottom, the gap mechanism, which is coupled with the primary impact separator, And is placed in the envelope of the reactor completely. To accommodate the collected particles When they fall from the aforementioned primary impact separator and the take-back mechanism is coupled to the gap mechanism and where it is positioned, Inside the envelope of the reactor. It is entirely for the return of particles from the gap mechanism directly and inside the reactor envelope. So that they can settle freely without being interrupted. And not channeled down the wall of the envelope to the bottom of the reactor envelope. For re-circulation in the next step. 1 4. One type of recirculating liquid platform reactor. Which consists of One envelope of the reactor. Some of them are bounded by the casing walls and which have one bottom, one upper part and one outlet opening. That was placed in one of the channels of the upper part One primary impact particle separator It is placed within the aforementioned upper part of the reactor envelope for collecting particles that have been blown up within the gas flow. Which is in the envelope of the reactor From its bottom to its top. Which causes them to fall to the bottom. The primary impact separator There are rows of concave impact parts arranged in two groups: group. A group of currents with at least two rows of concave impact elements. Which serves to collect particles that are carried in the said gas This causes them to fall freely within and directly into the bottom of the reactor envelope, where the current source has a thermal impingement plate to prevent a bypass or flow of water. The gas is directed upward along the impact part of the rounded. And a group of end current with at least two rows of impact element This collects particles that are carried by the gas and then drop them directly into the gap mechanism. It is attached to the part and is placed inside the envelope of the primary impact separator. The gap mechanism is equipped with a thermal impingement plate acting as the top of the mechanism. The gap and the take-back mechanism, which are coupled to the gap mechanism, and which are positioned Inside the envelope of the reactor. It is entirely for the return of particles from the gap mechanism directly and inside the reactor envelope. So that they can settle freely without being interrupted. And not channeled down the wall of the envelope to the bottom of the reactor envelope. For re-circulation in the next step. 1 5. A type of circulating liquid platform reactor. Which consists of One envelope of the reactor. Some of them are bounded by the casing walls and which have one bottom, one upper part and one outlet opening. That was placed in one of the channels of the upper part One primary impact particle separator It is placed within the aforementioned upper part of the reactor envelope for collecting particles that have been blown up within the gas flow. Inside the reactor envelope from its bottom to its top. Which causes them to fall to the bottom The gap mechanism is bounded by the outer casing wall on one side. One heat-sinking plate and one front gap wall. Which is attached to the primary impact particle separator. And is placed in the envelope of the reactor completely. To accommodate the particles that are collected when they fall from the primary impact separator and the return mechanism, which is coupled to the gap mechanism and which is placed inside the envelope. Such reactor It is entirely for the return of particles from the gap mechanism directly and inside the reactor envelope. So that they can land freely, unobstructed, and not channeled down the wall of the envelope to the bottom of the reactor envelope. For the next repeat cycle The trigger contains a number of release openings. Which is arranged according to the width of the reactor envelope. It has a scaled flow area to provide solid lump fluxes of 100-500 kg / sq m. S 1 6. A type of recirculating liquid platform reactor. Which consists of One envelope of the reactor. Some of which are bounded by the casing wall and which have one bottom, one upper part and one outlet opening positioned at one of the top outlets. One primary impact particle separator It is located in the upper part of the envelope to collect the particles that are blown up within the gas flow inside the envelope from its bottom to its top. Which causes them to fall to the bottom The gap mechanism is bounded by the outer casing wall on one side. One heat-absorbing pad And a gap wall on one side, which is sandwiched into the primary impact separator. And is placed in the envelope of the reactor completely. To accommodate the particles that were collected when they fell from the primary impact separator and the take-back mechanism, which was coupled to the gap mechanism and where it was positioned. Inside the envelope of the said reactor It is entirely for the return of particles from the gap mechanism directly and inside the reactor envelope. So that they can settle freely without being interrupted. And not channeled down the wall of the envelope to the bottom of the reactor envelope. For the next re-circulation The take-back mechanism is equipped with a number of release openings. Which are arranged according to the width of the reactor envelope. Between one end of the front gap wall and the said end envelope wall And a short vertical opening that is fixed to one front gap wall. Which is directly opposite the said release opening. To prevent gas bypass entering the gap mechanism And to improve the return of the solids to the lower part of the reactor envelope. In a free-standing condition along the wall of the aforementioned enclosure 1 7. A type of recirculating liquid platform reactor. Which consists of One envelope of the reactor. Some of them are bounded by the casing walls and which have one bottom, one upper part and one outlet opening. That was placed in one of the channels of the upper part One primary impact particle separator Which is placed in the upper part of the reactor envelope. For collecting particles that are carried in the gas flow. Which is in the envelope of the reactor From its bottom to its top. Which causes them to fall to the bottom The gap mechanism is bounded by the outer casing wall on one side. The one And the front gap wall on one side Which is attached to the primary impact particle separator. And is placed in the envelope of the reactor completely. To accommodate the particles that are collected when they fall from the primary impact separator and the return mechanism, which is coupled to the gap mechanism and which is placed inside the envelope. Such reactor It is entirely for the return of particles from the gap mechanism directly and inside the reactor envelope. So that they can settle freely without being interrupted. And not channeled down the wall of the envelope to the bottom of the reactor envelope. For the next re-circulation The take-back mechanism consists of a number of release openings. Which are arranged according to the width of the machine case Such reactor Between one end of the front gap wall and the said end envelope wall And a moving tongue, which is positioned over each output opening Which was mounted on a dowel attached to the front of the gap wall 1 8. Reactor As stated in Clause 11, which the reverse mechanism is a slot A rectangle, or a procession of properly sized spaced openings that run between the bottom ends. 1 9. The reactor as described in Clause 12, the return mechanism has an opening in the receptacle. With a certain amount of suitable size between the pipes next to According to the width of the aforementioned reactor envelope at the point They were bent away from the aforementioned flat surface of the end envelope wall. 2 0. Reactor As stated in claim 13, the gap mechanism is bounded by the end envelope wall. And one front gap wall 2

1. The device as stated in Clause 20, which the front gaps wall is straight. And the end envelope wall was bent away from the vertical diameter of the end envelope wall. To assemble the gap mechanism In one cone Whose outlet is located next to the wall of the rear cover 2

2. The reactor as set out in claim 21, where the return mechanism is a rectangular slot or a procession of properly sized spaced openings that lead to Between the lower end of the front cavity wall and the aforementioned end envelope wall width of the reactor envelope 2.

3. The reactor, as stated in claim 21, where the end of the envelope wall is made of liquid-cooled pipes, and the aforementioned void walls are straight and assembled from the cooled tubes. With some such liquid Which runs along the aforementioned vertical diameter upward to one roof of the reactor envelope 2

4. Reactor as defined in claim 23, the aforementioned return mechanism consists of an opening between the pipes next to the width of the said reactor envelope at the point where some of the liquid-cooled tubes are Bend away from the said flat surface of the end envelope wall 2

5. Reactor, as stated in claim 15, in which the aforementioned takeback mechanism continues to assemble. With a hole which is assembled in the end of the envelope wall Together with the aforementioned release compartment 2

6. Reactor as described in claim 4, where the impact element has a U shape, E shape, W shape or other similar concave profile 2.

7. The reactor, as described in claim 22, still has a number of ejection tubes extended into the gap mechanism. To maintain the level of the particles within the gap mechanism to the desired level. By liquefying the particles and causing them to move continuously from the gap 2

8. The reactor, as stated in claim 27, still consists of a thermal impingement plate that is sandwiched into one of the front void walls. And which enters the gap mechanism To form a loop sealing mechanism with one feed chamber and one discharge chamber. Which is bounded by the gaps in front of the wall, the floor of the gap mechanism. The thermal shock pad. And the gap wall at the end of one side