Method and plate apparatus for dew point evaporative cooler using a trough wetting system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F28C-001/00
F28D-003/00
출원번호
US-0316775
(2002-12-11)
발명자
/ 주소
Maisotsenko, Valeriy
Heaton, Timothy L.
Gillan, Alan D.
Gillan, Leland E.
출원인 / 주소
Idalex Technologies, Inc.
대리인 / 주소
Bales, Jennifer L.Macheledt Bales LLP
인용정보
피인용 횟수 :
11인용 특허 :
5
초록▼
An improved method and apparatus for indirect evaporative cooling of a fluid stream to substantially its dew point temperature. Plate heat exchanger has perforations (11) and channels (3, 4 and 5) for gas on a dry side and wet side. There is a trough formed in a portion of the plate that temporarily
An improved method and apparatus for indirect evaporative cooling of a fluid stream to substantially its dew point temperature. Plate heat exchanger has perforations (11) and channels (3, 4 and 5) for gas on a dry side and wet side. There is a trough formed in a portion of the plate that temporarily holds evaporative fluid which is in contact with the wick material on the wet side surface of the plate. The evaporative fluid flows through the trough by way of liquid perforations into the next trough. The trough of a plate with a wet side up, the liquid perforations are on the side creating a reservoir to wet the opposing wick materials. As streams flow across the dry side (9), transferring heat to the plate. Working gas stream (2) flows across the dry side and through perforations to channels (5) on wet side (10), which it then cools by evaporative cooling as well as conductive and radiative transfer of heat from plate.
대표청구항▼
An improved method and apparatus for indirect evaporative cooling of a fluid stream to substantially its dew point temperature. Plate heat exchanger has perforations (11) and channels (3, 4 and 5) for gas on a dry side and wet side. There is a trough formed in a portion of the plate that temporarily
An improved method and apparatus for indirect evaporative cooling of a fluid stream to substantially its dew point temperature. Plate heat exchanger has perforations (11) and channels (3, 4 and 5) for gas on a dry side and wet side. There is a trough formed in a portion of the plate that temporarily holds evaporative fluid which is in contact with the wick material on the wet side surface of the plate. The evaporative fluid flows through the trough by way of liquid perforations into the next trough. The trough of a plate with a wet side up, the liquid perforations are on the side creating a reservoir to wet the opposing wick materials. As streams flow across the dry side (9), transferring heat to the plate. Working gas stream (2) flows across the dry side and through perforations to channels (5) on wet side (10), which it then cools by evaporative cooling as well as conductive and radiative transfer of heat from plate. ficiently small so that the first and second pads are enabled to bend toward and away from contact with each other when the glove and hand curl about or uncurl from the object. 2. A glove as in claim 1 and further characterized in that the palm side comprises an intermediate layer having an inside which faces the hand and an outside which faces away from the hand and the pads are positioned on the outside of the intermediate layer. 3. A glove as in claim 1 and further characterized in that the pads are integrally formed with the connecting layer. 4. A glove as in claim 1 and further characterized in that the pads have a gripping surface for contacting the object. 5. A glove as in claim 4 and further characterized in that the first pad is separated from the second pad by a valley which is recessed below the gripping surface, and the connecting layer is seated in the valley below the gripping surface. 6. A glove as in claim 5 and further characterized in that the body comprises a stitching layer seated in the valley, the stitching layer having first and second openings through which the respective first and second pads protrude, and a plurality of stitches extending through and securing together the stitching layer with the connecting layer. 7. A glove as in claim 1 and further characterized in that the body comprises a stitching layer having a plurality of openings through which respective ones of the pads protrude, and a plurality of stitches which penetrate through and secure together the stitching layer and the connecting layer. 8. A glove as in claim 7 and further characterized in that the palm side comprises an intermediate layer having a side against which the connecting layer is positioned, and the plurality of stitches extend through the intermediate layer. 9. A glove as in claim 1 and further characterized in that the glove body comprises a finger stall, the palm side comprises one side of the finger stall, and the pads are positioned in spaced-apart relationship on the one side of the finger stall. 10. A glove as in claim 1 and further characterized in that the palm side comprises a first and second portions, the first portion facing the user's palm when the glove is being worn, the second portion comprises a finger stall, the first and second pads are positioned on the first portion, and third and fourth pads are positioned on the finger stall. 11. A glove as in claim 1 and further characterized in that the palm side comprises a first and second portions, the first portion facing the user's palm when the glove is being worn, the second portion comprises a thumb stall, the first and second pads are positioned on the first portion, and third and fourth pads are positioned on the thumb stall. 12. A glove as in claim 1 and further characterized in that a mesh of a strengthening fabric is integrated with the connecting layer. 13. A glove as in claim 1 and further characterized in that the body has an inner layer which faces the hand when the glove is worn on the hand. 3, 19640400, Langenfeld et al., 128/894; US-3217336, 19651100, Wikler, 002/239; US-3967390, 19760700, Anfruns, 036/094; US-4017987, 19770400, Perez et al., 036/011.5; US-4181982, 19800100, Segovia; US-4207880, 19800600, Zinkovich, 602/030; US-4295647, 19811000, Daly, 273/440; US-5054129, 19911000, Baehr, 002/409; US-5062223, 19911100, Johnson, 036/007.1R; US-5325545, 19940700, Hirano, 002/239; US-5399155, 19950300, Strassburg et al., 602/028; US-D375195, 19961100, Panassidi; US-5579541, 19961200, Christy et al., 002/239; US-5623734, 19970400, Pugliatti, 002/239; US-5740558, 19980400, Messman, 002/239; US-5749100, 19980500, Rosenberg; US-5774898, 19980700, Malpee, 002/239; US-5867838, 19990200, Corry; US-5906007, 19990500, Roberts; US-6158253, 20001200, Svoboda et al., 066/178.R; US-6226800, 20010500, Islar, 002/239; US-6334222, 20020100, Sun, 002/239; US-6385779, 20020500, Boersema, 002/239; US-6415448, 20020700, Glogover, 002/239; US-20020157169, 20021000, Holloway, 002/239
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (5)
Belding William A. ; Holeman William D. ; Lam Chiang, Air conditioning system having improved indirect evaporative cooler.
Rotenberg Yefim (38 Voorhis Dr. Old Bethpage NY 11804) Wolfe Mitchel T. (Roger Canoe Hollow Rd. Mill Neck NY 11765), Apparatus & Method for indirect evaporative cooling of a fluid.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.