Systems and methods for preferentially heating active particles and articles produced thereof
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-059/26
출원번호
UP-0514700
(2006-08-31)
등록번호
US-7850766
(2011-02-10)
발명자
/ 주소
Haggquist, Gregory W.
출원인 / 주소
Cocona, Inc.
대리인 / 주소
Neugeboren O'Dowd PC
인용정보
피인용 횟수 :
0인용 특허 :
14
초록▼
Systems and methods are provided for substantially reducing undesired cumulative effects by preferentially heating the active particles. By preferentially heating the active particles, the active particles are “cleaned” of substances that may reduce or negate particle activity. In addi
Systems and methods are provided for substantially reducing undesired cumulative effects by preferentially heating the active particles. By preferentially heating the active particles, the active particles are “cleaned” of substances that may reduce or negate particle activity. In addition, preferential heating may reduce active particle adsorption of binder.
대표청구항▼
What is claimed is: 1. An adsorption article, comprising: first and second substrates produced from fibers obtained by extruding a mixture comprising active particles having a removable protective layer, the first and second substrates comprising the active particles of the mixture; an activated ca
What is claimed is: 1. An adsorption article, comprising: first and second substrates produced from fibers obtained by extruding a mixture comprising active particles having a removable protective layer, the first and second substrates comprising the active particles of the mixture; an activated carbon layer between the first and second substrates, the activated carbon layer comprising activated carbon particles; and wherein, the activated carbon particles and the active particles are adapted to be preferentially heated compared to at least the first substrate and second substrate in a process for producing the adsorption article, the preferential heating resulting in a higher percentage of active particle activity. 2. The adsorption article defined in claim 1, wherein the first and second substrates are fixed together with a binder. 3. The adsorption article defined in claim 2, wherein the binder fixes the activated carbon particles to the first, second, or both substrates. 4. The adsorption article defined in claim 1, wherein the activated carbon particles are synthetically derived activated carbon particles. 5. The adsorption article defined in claim 1, wherein the activated carbon particles have a mean diameter ranging between 1-500 μm. 6. The adsorption article defined in claim 1, wherein the activated carbon particles have a mean diameter ranging between 250-500 μm. 7. The adsorption article defined in claim 1, wherein the activated carbon particles have a mean diameter ranging between 180-250 μm. 8. The adsorption article defined in claim 1, wherein the activated carbon particles have a mean diameter ranging between 90-125 μm. 9. The adsorption article defined in claim 1, wherein the activated carbon particles have a mean diameter ranging between 1-80 μm. 10. The adsorption article defined in claim 1, wherein the activated carbon particles comprise a mixture in which approximately 50% of the particles have a mean diameter ranging between 180-250 μm and the other approximate 50% of the particles have a mean diameter ranging between 90-125 μm. 11. The adsorptive article defined in claim 1, wherein the active particles comprise activated carbon. 12. The adsorptive article defined in claim 1, wherein the activated carbon particles occupy a predetermined loading range between 16-132 g/m2. 13. The adsorptive article defined in claim 1, wherein the activated carbon particles occupy a predetermined loading range between 38-76 g/m2. 14. The adsorptive article defined in claim 1, wherein the activated carbon particles occupy a predetermined loading range between 55-65 g/m2. 15. An adsorption article, comprising: first and second substrates produced from fibers obtained by extruding a mixture comprising active particles having a removable protective layer, the first and second substrates comprising the active particles of the mixture; an activated carbon layer between the first and second substrates, the activated carbon layer comprising activated carbon particles; and wherein, the activated carbon particles are adapted to be preferentially heated compared to at least the first substrate and second substrate in a process for producing the adsorption article, the preferential heating resulting in a higher percentage of active particle activity. 16. The adsorption article defined in claim 15, wherein the first and second substrates are fixed together with a binder. 17. The adsorption article defined in claim 16, wherein the binder fixes the activated carbon particles to the first, second, or both substrates. 18. The adsorption article defined in claim 16, wherein the activated carbon particles are synthetically derived activated carbon particles. 19. The adsorption article defined in claim 16, wherein the activated carbon particles have a mean diameter ranging between 1-500 μm. 20. The adsorption article defined in claim 16, wherein the activated carbon particles have a mean diameter ranging between 250-500 μm. 21. The adsorption article defined in claim 16, wherein the activated carbon particles have a mean diameter ranging between 180-250 μm. 22. The adsorption article defined in claim 16, wherein the activated carbon particles have a mean diameter ranging between 90-125 μm. 23. The adsorption article defined in claim 16, wherein the activated carbon particles have a mean diameter ranging between 1-80 μm. 24. The adsorption article defined in claim 16, wherein the activated carbon particles comprise a mixture in which approximately 50% of the particles have a mean diameter ranging between 180-250 μm and the other approximate 50% of the particles have a mean diameter ranging between 90-125 μm. 25. The adsorptive article defined in claim 16, wherein the active particles comprise activated carbon. 26. The adsorptive article defined in claim 16, wherein the activated carbon particles occupy a predetermined loading range between 16-132 g/m2. 27. The adsorptive article defined in claim 16, wherein the activated carbon particles occupy a predetermined loading range between 38-76 g/m2. 28. The adsorptive article defined in claim 16, wherein the activated carbon particles occupy a predetermined loading range between 55-65 g/m2.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (14)
Bernstein Bruce S. (Somerville NJ) Hyman Seymour (New York NY) Kapoor Ramesh C. (Seaford DE), Activated polymer materials and process for making same.
Kasmark ; Jr. James W. (Mt. Clemens MI) Brown ; deceased Joseph B. (late of Clinton Township ; Macomb County MI by Mary Louise Brown ; Administratix), Filter and method of making same.
Chung,Jong Shik; Jeong,Yong Shik; Yang,Kyung Shik, Method of coating catalyst carrier layer of metal-metal oxide, method of depositing active catalyst particles onto metal substrates for preparing metal monolith catalyst modules, and module thereby.
Sanyal Sugata (Somerset NJ) Love Timothy P. (Flemington NJ) DeFilippi Louis J. (Mt. Prospect IL), Process and apparatus for removal of organic pollutants from waste water.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.