IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0392842
(1982-06-28)
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발명자
/ 주소 |
- Place, Jr., Thomas M.
- Crawford, Jr., James A.
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출원인 / 주소 |
- Ford Aerospace & Communications Corporation
|
대리인 / 주소 |
Radlo, Edward J.Sanborn, Robert D.
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인용정보 |
피인용 횟수 :
10 인용 특허 :
8 |
초록
▼
Heat exchangers (2) with particular use as solar receivers are mass-produced by weaving on a textile loom a yarn of high modulus fibers (18, 20) into a repeating series of substantially flat preforms (4), forming a set of interconnected passageways (26, 30, 32) connecting one side of each preforms (
Heat exchangers (2) with particular use as solar receivers are mass-produced by weaving on a textile loom a yarn of high modulus fibers (18, 20) into a repeating series of substantially flat preforms (4), forming a set of interconnected passageways (26, 30, 32) connecting one side of each preforms (4) with an opposite side thereof. The separated preform (4) are each wrapped around a mandrel to give each the shape of a cylindrical sleeve (2). The sleeve (2) is impregnated in a low modulus matrix, dried, and sintered for rigidization. In a first sealing embodiment, the outer sleeve surface (24) is sealed or weatherproofed, and the surfaces of the internal passageways (26, 30, 32) are sealed, but the radiation absorbing inner sleeve surface (22) is not sealed. In a second sealing embodiment, the outer surface (24), the radiation absorbing inner surface (22), and the exchanger ends (14, 34) are sealed, but the surfaces of inner passageways (26, 30, 32) are not sealed. The radiation absorbing surface (22) can be stained with a material to heighten solar absorptivity. The exchanger (2) is placed within a weatherproof reflective container (40).
대표청구항
▼
1. A heat exchanger comprising: a solid portion surrounding a void portion; wherein the solid portion comprises a single woven fabric of interconnected fibers; and the void portion comprises a network of interconnected generally cylindrical openings having diameters much greater than the separat
1. A heat exchanger comprising: a solid portion surrounding a void portion; wherein the solid portion comprises a single woven fabric of interconnected fibers; and the void portion comprises a network of interconnected generally cylindrical openings having diameters much greater than the separation between fibers in the fabric, the surfaces of the openings being integrally woven as part of the single woven fabric of interconnected fibers; wherein the network is coupled to regions extrinsic to the exchanger via an input port penetrating one end of the exchanger, and via an output port penetrating an opposite end of the exchanger; and the network is disposed to permit a heat transfer fluid to travel through the input port into the exchanger, thence to travel out the output port out of the exchanger, and wherein the solid portion of the exchanger is fabricated of a ceramic composite material consisting of a single woven fabric of interconnected fibers impregnated with a matrix. 2. The heat exchanger of claim 1 wherein: the fabric is a mullite; the matrix is a colloidal suspension of alumina, silica, and boron in substantially the same ratio as in the fabric; and the exchanger is sealed with a clay-based mullite glaze. 3. The heat exchanger of claim 1 wherein the fabric is fused silica, the matrix is silica, and the exchanger is sealed with a low expansion glaze. 4. The heat exchanger of claim 1 wherein the exchanger is generally in the shape of a cylindrical sleeve; the input port connects regions extrinsic to the exchanger with an integrally woven input header opening portion of the network, said input header opening disposed circumferentially within the sleeve at a first end thereof; the output port connects regions extrinsic to the exchanger with an integrally woven output header opening portion of the network, said output header opening disposed circumferentially within the sleeve at a second end thereof opposite the first end; and several cross-channel openings are integrally woven into the sleeve, each cross-channel opening connecting the input header opening with the output header opening; wherein the heat transfer fluid acquires a first temperature as it travels through the network, then exits the exchanger where it acquires a second temperature different from the first temperature, then re-enters the exchanger. 5. The heat exchanger of claim 4 wherein the outer cylindrical surface of the sleeve is weatherproofed, the surfaces of the cross-channel openings and header openings are sealed to inhibit the flow of said fluid therethrough, and the inner cylindrical surface of the sleeve is not sealed. 6. The heat exchanger of claim 4 wherein the outer cylindrical surface of the sleeve is sealed to inhibit the flow of said fluid therethrough, the inner cylindrical surface of the sleeve is sealed, and the surfaces of the cross-channel openings and header openings are not sealed. 7. The heat exchanger of claim 6 wherein the sleeve is positioned to accept solar radiation; the inner sleeve surface is stained with manganese and chrome to heighten ultraviolet absorptivity; and the sleeve is placed inside a metallic container.
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