US2010199975A1PendingUtilityA1

Solar thermal collector cabinet and system for heat storage

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Assignee: BAILEY WAYNE EPriority: Feb 10, 2009Filed: Jan 19, 2010Published: Aug 12, 2010
Est. expiryFeb 10, 2029(~2.6 yrs left)· nominal 20-yr term from priority
Inventors:Wayne E. Bailey
Y02E10/40F24S 60/30F24H 7/0433Y02B10/20Y02B30/00F24D 2200/04F24H 7/02Y02B10/70F24D 2220/10F28D 2020/0026F24H 1/06F24D 11/003F24H 7/0416F24D 2200/14Y02E10/44F24D 12/02F24S 70/60F24D 11/004F24S 40/53F24D 3/105F24D 3/1066
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Claims

Abstract

A solar thermal collection cabinet is disclosed that includes a thermal mass comprising concrete mix and metallic pieces. The cabinet includes a corrugated metallic surface with a black finish that faces solar radiation. A plurality of metallic bolts attaches the black corrugated surface to the thermal mass, to enable good heat conduction to the thermal mass. Channels through the thermal mass enable heat transfer fluid to circulate through the thermal mass, the heat transfer fluid exchange heat for direct utilization, or to transfer heat to a thermal storage reservoir through suitable heat exchanger means. Alternatively, the thermal storage reservoir continuously receives and returns heat exchange fluid whereby over extended periods of time the system approaches a thermal steady state.

Claims

exact text as granted — not AI-modified
1 . A cabinet for collecting solar radiant energy, storing the solar energy as thermal energy, and further for distributing the thermal energy to at least one heat transfer fluid, comprising a cabinet including front and back opposing wall members, and two pairs of opposing side wall members, each pair of side wall members comprising a pair of vertical substantially parallel side wall members, the front wall member being transparent to solar thermal radiation, and where the front wall member includes transparent sides, the wall members being connected along their perimeters in a fluid impervious fashion forming a sealed box, a thermal mass embedded within the space defined by the wall members, the thermal mass covered by a corrugated black surface interposed between the transparent front wall member and the thermal mass, whereby the black corrugated surface is exposed to solar radiation that passes through the transparent front wall member, wherein the thermal mass and corrugated black surface are recessed behind the front transparent wall member, creating an empty space between the transparent front wall member and the corrugated black surface, the solar cabinet further including ports to enable fluid to enter and exit the empty space between the transparent front wall member and the corrugated black surface, for the purpose of heating the fluid by solar thermal radiation and heat transfer from the corrugated black surface and thermal mass, and where the thermal mass further includes channels for fluid transportation within the thermal mass, for the purpose of transferring heat from the thermal mass to a circulating fluid, the solar cabinet including fluid ports in fluid communication with the channels within the thermal mass. 
     
     
         2 . The solar cabinet of  claim 1  wherein the corrugated black surface is bolted to the underlying thermal mass with black metallic bolts, the black metallic bolts having a large surface area for heat conduction to the thermal mass and a large surface area for radiant solar heat exchange. 
     
     
         3 . The solar cabinet of  claim 1  wherein the thermal mass is a concrete mix with aluminum pieces uniformly distributed within the concrete mix, wherein the concrete mix is both lighter and more heat conductive than the concrete mix without the aluminum pieces. 
     
     
         4 . The solar cabinet of  claim 4  wherein the concrete mix is Portland cement. 
     
     
         5 . The solar cabinet of  claim 1  further including handle means enabling the solar cabinet to be lifted for transportation to an alternate location and rotated to maximize the exposure of the transparent window member to solar radiation. 
     
     
         6 . The solar cabinet of  claim 1  further including hinge means to open the transparent front wall member for cleaning and inspection of the solar thermal cabinet and its components. 
     
     
         7 . The solar cabinet of  claim 1  further including insulation between the back wall member, side wall members, and the thermal mass for the purpose of minimizing thermal loss through the wall members. 
     
     
         8 . The solar collector cabinet of  claim 7  wherein the insulation comprises several layers. 
     
     
         9 . The solar collector cabinet of  claim 7  wherein one insulation layer is a hollow layer defining a gas or evacuated space. 
     
     
         10 . The solar cabinet of  claim 5  wherein the handle means comprises metallic rods embedded through the vertical walls and through the thermal mass. 
     
     
         11 . The solar cabinet of  claim 1  wherein the fluid channels within the thermal mass are serpentine. 
     
     
         12 . The solar cabinet of  claim 3  wherein the aluminum pieces are crushed and compacted recycled aluminum cans. 
     
     
         13 . The solar cabinet of  claim 1  wherein aluminum cans filled with fluid transfer fluid extend through thermal mass to the corrugated black surface. 
     
     
         14 . The solar cabinet of  claim 13  wherein the aluminum cans are stacked vertically. 
     
     
         15 . The solar cabinet of  claim 14  where a plurality of aluminum can stacks are contiguously aligned, whereby the stacks are in heat transfer orientation between the stacks. 
     
     
         16 . The solar cabinet of  claim 1  wherein fluid circulated through the hollow space between the corrugated black surface and the transparent front wall member is in fluid communication with a thermal storage reservoir, whereby radiant energy is transferred and stored by the thermal storage reservoir. 
     
     
         17 . The solar cabinet of  claim 1  wherein the transparent window is domed shaped.

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