IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0299162
(2005-12-09)
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등록번호 |
US-7699914
(2010-05-20)
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발명자
/ 주소 |
- Morrow, Luke N.
- Morrow, Paul D.
- Morrow, David C.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
9 인용 특허 :
43 |
초록
▼
A method of using a triple-effect absorption system to recover methane from landfill gas contaminated with CO2 and trace contaminates such as chlorinated hydrocarbons and aromatics involves processing the landfill gas with three absorbers and a flash system. One absorber uses a solvent to absorb the
A method of using a triple-effect absorption system to recover methane from landfill gas contaminated with CO2 and trace contaminates such as chlorinated hydrocarbons and aromatics involves processing the landfill gas with three absorbers and a flash system. One absorber uses a solvent to absorb the trace contaminants from the landfill gas, the second absorber in conjunction with the flash system extracts CO2 from the gas, and just a first portion of that CO2 is used for stripping the trace contaminates from the solvent in the third absorber. The rest of the extracted CO2 is vented to atmosphere to prevent dampening the combustion of the trace contaminants absorbed by the first portion of CO2.
대표청구항
▼
The invention claimed is: 1. A triple-effect absorption system for processing a gas from a landfill, wherein the gas includes varying concentrations of methane, CO2, water, and combustible contaminants, the triple-effect absorption system comprising: a solvent comprising a first portion and a secon
The invention claimed is: 1. A triple-effect absorption system for processing a gas from a landfill, wherein the gas includes varying concentrations of methane, CO2, water, and combustible contaminants, the triple-effect absorption system comprising: a solvent comprising a first portion and a second portion; a first absorber conveying the first portion of the solvent at a first flow rate at a first pressure; a second absorber conveying the second portion of the solvent at a second flow rate at a second pressure; a third absorber conveying the first portion of the solvent at a third flow rate at a third pressure, wherein the combustible contaminants separate from the first portion of the solvent in the third absorber; an incinerator connected in fluid communication with the third absorber to receive the CO2 and the combustible contaminants, the combustible contaminants burn in the incinerator to heat the CO2; a flash system for separating CO2 from the second portion of the solvent; a first solvent line extending between the first absorber and the third absorber for conveying the first portion of the solvent from the first absorber to the third absorber; a second solvent line extending between the second absorber and the flash system for conveying CO2 and the second portion of the solvent from the second absorber to the flash system; a gas line extending between the first absorber and the second absorber for conveying the gas from the first absorber to the second absorber; a CO2 line extending between the flash system and the third absorber, wherein the following conditions exist: a) the CO2 line helps deliver CO2 from the flash system to the third absorber to place the CO2 and the first portion of the solvent in the third absorber in intimate contact with each other; b) the first pressure and the second pressure are within 10-percent of each other, yet the second flow rate is over 10 times greater than the first flow rate; and c) the first flow rate and the third flow rate are within 10-percent of each other, yet the first pressure is over 5 times greater than the third pressure: and a heat exchanger in fluid communication with the COy line to help convey the CO2 from flash system to the third absorber and to preheat the CO2 before the CO2 enters the third absorber. 2. The triple-effect absorption system of claim 1, further comprising a compressor that generates heat upon compressing the gas from the landfill, wherein the heat transfers to the heat exchanger to preheat the CO2. 3. The triple-effect absorption system of claim 1, further comprising a vent line in fluid communication with the flash system, wherein at least some of the CO2 from the flash system bypasses the third absorber and travels through the vent line to be released to atmosphere. 4. The triple-effect absorption system of claim 1, wherein the first absorber contains a liquid level, and the triple-effect absorption system further comprises a valve and a liquid level sensor, the valve is on the first solvent line and is responsive to the liquid level sensor which senses the liquid level in the first absorber, the valve responds to the liquid level sensor to help control the liquid level in the first absorber and help maintain the first pressure greater than the third pressure. 5. The triple-effect absorption system of claim 1, wherein, the first flow rate substantially equals the third flow rate. 6. A triple-effect absorption method that employs a solvent for processing a gas from a landfill, wherein the gas includes varying concentrations of methane, CO2, and combustible contaminants, the triple-effect absorption method comprising: pumping a first portion of the solvent at a first flow rate; pumping a second portion of the solvent at a second flow rate, wherein the second flow rate is greater than the first flow rate; releasing the combustible contaminants from the gas to the first portion of the solvent while the first portion of the solvent is at a first pressure; releasing the CO2 from the gas to a second portion of the solvent while the second portion of the solvent is at a second pressure; separating the CO2 from the second portion of the solvent; directing the CO2 from the second portion of the solvent into intimate contact with the first portion of the solvent such that the CO2 absorbs the combustible contaminants from the first portion of the solvent while the first portion of the solvent is at a third pressure; preheating the CO2 before directing the CO2 into intimate contact with the first portion of the solvent; and after the CO2 absorbs the combustible contaminants from the first portion of the solvent, using the combustible contaminants to help further heat the CO2 to a temperature of at least 1,400 degrees Fahrenheit. 7. The triple-effect absorption method of claim 6, further comprising: compressing the gas from the landfill prior to releasing the combustible contaminants from the gas to the first portion of the solvent; generating heat upon compressing the gas; and transferring the heat to the CO2 as a way of preheating the CO2 before directing the CO2 into intimate contact with the first portion of the solvent. 8. The triple-effect absorption method of claim 6, further comprising: venting to atmosphere at least some of the CO2 from the second portion of the solvent, thereby reducing an amount of CO2 that is directed into intimate contact with the first portion of solvent. 9. The triple-effect absorption method of claim 6, wherein the second flow rate is at least 10 times greater than the first flow rate. 10. The triple-effect absorption method of claim 6, wherein the first pressure and the second pressure are within 10 percent of each other. 11. The triple-effect absorption method of claim 6, wherein the first pressure and the second pressure are at least 5 times greater than the third pressure. 12. A triple-effect absorption method that employs a solvent for processing a gas from a landfill, wherein the gas includes varying concentrations of methane, CO2, and combustible contaminants, the triple-effect absorption method comprising: pumping a first portion of the solvent at a first flow rate; pumping a second portion of the solvent at a second flow rate, wherein the second flow rate is greater than the first flow rate; releasing the combustible contaminants from the gas to the first portion of the solvent while the first portion of the solvent is at a first pressure; releasing the CO2 from the gas to a second portion of the solvent while the second portion of the solvent is at a second pressure; separating the CO2 from the second portion of the solvent; directing the CO2 from the second portion of the solvent into a first flow path and a second flow path; venting the CO2 from the first flow path, to atmosphere; directing the CO2 from the second flow path into intimate contact with the first portion of the solvent such that the CO2 absorbs the combustible contaminants from the first portion of the solvent while the first portion of solvent is at a third pressure; and using the combustible contaminants to help heat the CO2 from the second flow path to a temperature of at least 1,400 degrees Fahrenheit. 13. The triple-effect absorption method of claim 12, wherein the second flow rate is at least 10 times greater than the first flow rate. 14. The triple-effect absorption method of claim 12, wherein the first pressure and the second pressure are within 10 percent of each other. 15. The triple-effect absorption method of claim 12, wherein the first pressure and the second pressure are at least 5 times greater than the third pressure. 16. The triple-effect absorption method of claim 12, further comprising heating the CO2 coming from the second flow path. 17. The triple-effect absorption method of claim 15, further comprising: compressing the gas from the landfill prior to releasing the combustible contaminants from the gas to the first portion of the solvent; generating heat upon compressing the gas; and transferring the heat to the CO2 as a way heating the CO2 in the second flow path. 18. A triple-effect absorption system for processing a gas from a landfill, wherein the gas includes varying concentrations of methane, CO2, water, and combustible contaminants, the triple-effect absorption system comprising: a solvent comprising a first portion and a second portion; a first absorber conveying the first portion of the solvent at a first flow rate at a first pressure; a second absorber conveying the second portion of the solvent at a second flow rate at a second pressure; a third absorber conveying the first portion of the solvent at a third flow rate at a third pressure; a flash system for separating CO2 from the second portion of the solvent; a first solvent line extending between the first absorber and the third absorber for conveying the first portion of the solvent from the first absorber to the third absorber; a second solvent line extending between the second absorber and the flash system for conveying CO2 and the second portion of the solvent from the second absorber to the flash system; a gas line extending between the first absorber and the second absorber for conveying the gas from the first absorber to the second absorber; a CO2 line extending between the flash system and the third absorber, wherein the following conditions exist: a) the CO2 line helps deliver CO2 from the flash system to the third absorber to place the CO2 and the first portion of the solvent in the third absorber in intimate contact with each other; b) the first pressure and the second pressure are within 10-percent of each other, yet the second flow rate is over 10 times greater than the first flow rate; and c) the first flow rate and the third flow rate are within 10-percent of each other, yet the first pressure is over 5 times greater than the third pressure; a first flash tank having a first liquid level; a second flash tank having a second liquid level; a third flash tank having a third liquid level; a first control valve responsive to the first liquid level; and a second control valve responsive to the third liquid level, wherein the first control valve is downstream of the first flash tank and upstream of the second flash tank with respect to the second portion of the solvent flowing from the first flash tank to the second flash tank, and the second control valve is downstream of the second flash tank and upstream of the third flash tank with respect to the second portion of the solvent flowing from the second flash tank to the third flash tank.
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