Self-regenerative integrated device for synergetic oxidation of low-concentration gas and ventilation gas in coal mine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61L-009/00
F23D-014/00
B01D-053/86
E21F-007/00
B01D-053/44
출원번호
US-0898323
(2014-11-05)
등록번호
US-10022668
(2018-07-17)
우선권정보
CN-2013 1 0593650 (2013-11-21)
국제출원번호
PCT/CN2014/090289
(2014-11-05)
국제공개번호
WO2015/074490
(2015-05-28)
발명자
/ 주소
Lin, Baiquan
Li, Qingzhao
출원인 / 주소
CHINA UNIVERSITY OF MINING AND TECHNOLOGY
대리인 / 주소
Saliwanchik, Lloyd & Eisenschenk
인용정보
피인용 횟수 :
0인용 특허 :
1
초록▼
Disclosed is a self-regenerative integrated device for the synergetic oxidation of low-concentration gas and ventilation gas in a coal mine. The integrated device comprises a metal shell (5). A honeycomb ceramic oxidation bed (13) is arranged within the metal shell (5) and divided into a regenerativ
Disclosed is a self-regenerative integrated device for the synergetic oxidation of low-concentration gas and ventilation gas in a coal mine. The integrated device comprises a metal shell (5). A honeycomb ceramic oxidation bed (13) is arranged within the metal shell (5) and divided into a regenerative section (40) and an oxidation section (41) by a heat exchange chamber (14). A first cavity between the regenerative section (40) and the inner wall of the metal shell (5) is divided into a first inlet chamber (6) and an exhaust chamber (8) by an inlet partition plate (7), a second cavity between the oxidation section (41) and the inner wall of the metal shell (5) is divided into a second inlet chamber (22) and a mixing chamber (20) by a partition plate (21) for averaging gas, and a plurality of gas nozzles (28) are provided on the partition plate (21) for averaging gas. An internal heat exchanger (35) is arranged within the heat exchange chamber (14), and a heat exchanger inlet (16) and a heat exchanger outlet (15) of the internal heat exchanger (35) are respectively connected with a boiler drum (18). The first inlet chamber (6) is connected with an inlet (1) of the ventilation gas through a proportional control valve (38), the second inlet chamber (22) is connected with an inlet (31) for extracting the low-concentration gas through a proportional mixer (33), and the proportional control valve (38) is connected with the proportional mixer (33) through a connecting pipeline (36). The two ends of an inlet preheating pipe (9) on the honeycomb ceramic oxidation bed (13) are respectively communicated with the first inlet chamber (6) and the mixing chamber (20).
대표청구항▼
1. A self-regenerative integrated device for synergetic oxidation of low-concentration gas and ventilation gas in a coal mine, characterized by comprising a metal shell, with a heat insulating layer arranged on the outer wall of the metal shell and a honeycomb ceramic oxidation bed arranged in the m
1. A self-regenerative integrated device for synergetic oxidation of low-concentration gas and ventilation gas in a coal mine, characterized by comprising a metal shell, with a heat insulating layer arranged on the outer wall of the metal shell and a honeycomb ceramic oxidation bed arranged in the metal shell, wherein, the honeycomb ceramic oxidation bed is divided into a regenerative section and an oxidation section by a heat exchange chamber, a first cavity is formed between the regenerative section and the inner wall of the metal shell, a second cavity is formed between the oxidation section and the inner wall of the metal shell, the first cavity is divided into a first gas intake chamber and an exhaust chamber by a gas intake partition plate, the second cavity is divided into a second gas intake chamber and a mixing chamber by a partition plate for averaging gas, and a plurality of gas spray nozzles are arranged on the partition plate for averaging gas; an internal heat exchanger is arranged in the heat exchange chamber and has a heat exchanger inlet and a heat exchanger outlet, and the heat exchanger inlet and the heat exchanger outlet are connected with a boiler drum respectively, a water supply inlet and a vapor outlet are arranged on the boiler drum, the first gas intake chamber has a first gas inlet, which is connected with a proportional regulating valve through a first connecting flange; the second gas intake chamber has a second gas inlet, which is connected with a proportioning mixer through a fourth connecting flange; a ventilation gas inlet is connected with the proportional regulating valve through a second connecting flange; a low-concentration gas extracting inlet is connected with the proportioning mixer through a sixth flange; one end of a connecting pipeline is connected with the proportional regulating valve through a third flange, and the other end of the connecting pipeline is connected with the proportioning mixer through a fifth flange; the exhaust chamber has an exhaust outlet, and an exhaust pipeline is connected with the exhaust outlet through a seventh flange; a high temperature flue gas inlet directly connected to the second gas intake chamber, and a high temperature flue gas valve is arranged in the high temperature flue gas inlet, the high temperature flue gas valve is connected with a startup burner, a startup burner fan and a startup fuel ejection pump are mounted on the startup burner; a plurality of intake gas preheating pipes are arranged on the honeycomb ceramic oxidation bed, one end of the intake gas preheating pipe passes across the gas intake partition plate and extends to the first gas intake chamber, and the other end of the intake gas preheating pipe extends to the mixing chamber. 2. The self-regenerative integrated device for synergetic oxidation of low-concentration gas and ventilation gas in a coal mine according to claim 1, characterized in that the intake gas preheating pipes are in a staggered arrangement. 3. The self-regenerative integrated device for synergetic oxidation of low-concentration gas and ventilation gas in a coal mine according to claim 1, characterized in that the gas spray nozzles are in the same quantity as the intake gas preheating pipes, and the mounting positions of the gas spray nozzles on the partition plate for averaging gas are in one-to-one correspondence to the mounting positions of the intake gas preheating pipes on the honeycomb ceramic oxidation bed. 4. The self-regenerative integrated device for synergetic oxidation of low-concentration gas and ventilation gas in a coal mine according to claim 1, characterized in that the material of the honeycomb ceramic oxidation bed is aluminum oxide, silicon carbide, zirconium dioxide, praguite, or cordierite; and the meshes of the honeycomb ceramic oxidation bed are in square, rectangular, orthohexagonal, circular, or triangular shape. 5. The self-regenerative integrated device for synergetic oxidation of low-concentration gas and ventilation gas in a coal mine according to claim 1, characterized in that the internal heat exchanger is in a serpentine tube structure.
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