Cylindrical thermoelectric cells
First Claim
1. A thermoelectric system including a thermoelectric device comprising a plurality of thermoelectric cells each cell comprising(i) an inner annulus member having an imaginary axis;
- (ii) an outer annulus member coaxial with the inner member and having an inner wall separated from the inner member by an annular space;
(iii) a plurality of thermocouples positioned in the annular space, each thermocouple comprising a leg of p-semiconductive material and a leg of n-semiconductive material, each leg having two ends and being radially directed relative to said axis, each leg being in thermal contact with the inner annulus member at one of its ends and being electrically connected to the other leg of its thermocouple at the same end, with the p-type leg of one couple connected to the n-type leg of an adjacent couple at the ends nearest the outer annulus member;
the cells arranged side-by-side along their axii, the system further comprising a source of DC power electrically connected to each thermocouple of each cell and pump means to flow a continuous stream of liquid through the inner annulus member and to return the same stream of liquid in the opposite direction over the outer annulus member.
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Accused Products
Abstract
A thermoelectric device has a cylindrical structure with a hollow central annulus member in which a fluid is pumped so that the heated fluid is pumped from the center of the structure and discharged on the outer surface of an outer annulus member or with the reversal of electrical current, the heated fluid is pumped from the outer periphery and discharged in the central tube. A plurality of thermoelectric cells are positioned in the space between the inner and outer annulus members with the cells being radially directed relative to the axis of the inner annulus member. A thermoelectric device having a similar structure may be used for the conversion of thermal energy to electrical energy when a thermal gradient is imposed between the inner member of the structure and the peripheral surface.
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Citations
16 Claims
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1. A thermoelectric system including a thermoelectric device comprising a plurality of thermoelectric cells each cell comprising
(i) an inner annulus member having an imaginary axis; -
(ii) an outer annulus member coaxial with the inner member and having an inner wall separated from the inner member by an annular space; (iii) a plurality of thermocouples positioned in the annular space, each thermocouple comprising a leg of p-semiconductive material and a leg of n-semiconductive material, each leg having two ends and being radially directed relative to said axis, each leg being in thermal contact with the inner annulus member at one of its ends and being electrically connected to the other leg of its thermocouple at the same end, with the p-type leg of one couple connected to the n-type leg of an adjacent couple at the ends nearest the outer annulus member;
the cells arranged side-by-side along their axii, the system further comprising a source of DC power electrically connected to each thermocouple of each cell and pump means to flow a continuous stream of liquid through the inner annulus member and to return the same stream of liquid in the opposite direction over the outer annulus member. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A thermoelectric recuperative heat exchanging refrigerator comprising a plurality of thermoelectric cells each cell comprising:
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(i) an inner annulus member having an imaginary axis; (ii) an outer annulus member coaxial with the inner member and having an inner wall separated from the inner member by an annular space; (iii) a plurality of thermocouples positioned in the annular space, each thermocouple comprising a leg of p-semiconductive material and a leg of n-semiconductive material, each leg having two ends and being radially directed relative to said axis, each leg being in thermal contact with the inner annulus member at one of its ends and being electrically connected to the other leg of its thermocouple at the same end, the thermocouples within each cell being connected in series;
with the p-type leg of one couple connected to the n-type leg of an adjacent couple at the ends nearest the outer annulus member, andthe refrigerator further including DC power means connected to each thermocouple to furnish DC power thereto and pump means to flow liquid in a continuous stream through said inner annulus member and over said outer annulus member; and a housing means to house the cells and a liquid flow space around the outer annulus member, said housing means having at least one closed end in thermal contact with an external heat source from which heat is adapted to be withdrawn and the pump means includes means for pumping the liquid first within the housing means through the inner annulus member and toward the closed heat source and then through the said space around the outer annular member in reverse direction thereby withdrawing heat from the closed end and exuding heat as the liquid runs in said reverse direction along the exterior of the outer annulus member. - View Dependent Claims (8, 9, 10)
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11. A thermoelectric generator comprising a plurality of thermoelectric cells each cell comprising
(i) an inner annulus member having an imaginary axis; -
(ii) an outer annulus member coaxial with the inner member and having an inner wall separated from the inner member by an annular space; (iii) a plurality of thermocouples positioned in the annular space, each thermocouple comprising a leg of p-semiconductive material and a leg of n-semiconductive material, each leg having two ends and being radially directed relative to said axis, each leg being in thermal contact with the inner annulus member at one of its ends and being electrically connected to the other leg of its thermocouple at the same end, the thermocouples within each cell being connected in series with the p-type leg of one couple connected to the n-type leg of an adjacent couple at the ends nearest the outer annulus member;
the cells arranged side-by-side along their axii in a sequential order relating to the progressive increase selected from the group of an increase in the size of the thermocouple of the cell and an increase in the number of thermocouples of each cell;and the generator further including DC power utilization means connected to each thermocouple to derive DC power therefrom and pump means to flow liquid in a continuous stream through said inner annular member and over said outer annulus member. - View Dependent Claims (12, 13, 14, 15, 16)
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Specification