IDEA #4Q4482 Helioprofile For Construction Of Energy-Active Shielding Constructions

HELIOPROFILE FOR CONSTRUCTION OOFF ENERGY(cid:2)(cid:2)ACTIVE SHIELDING CONSTRUCTIONS INNOVATIVE TECHNOLOGIES Description The goal of given invention is the improvement of solar collec(cid:2) tor by changing the structure of separate elements for reduc(cid:2) ing the labor(cid:2)intensity of their manufacturing, by providing the possibility of creating the varied architectural forms of build(cid:2) ings, by decreasing the volume of heat(cid:2)accumulating tanks and reducing the mass loafing on the constructions of the buildings. Separate parallel element of absorbing panel of given solar collector (helioprofile) is made by the method of extrusion from aluminum alloy, from which the solid necessary profile is formed. This let us simplify and make the main constructive elements of collector from the one material, using modern technological methods, what leads to reducing of labor(cid:2)inten(cid:2) sity of their manufacturing. Thanks to forming in separate element of the heat(cid:2)absorbing panel the antrum, which is filled with heat(cid:2)accumulating mate(cid:2) rial, the volume of heat(cid:2)accumulating tanks decreases. Width of the helioprofile 180 mm. The mounting length of the helioprofile is up to 6.8 m. Innovative Aspects and Main Advantages Separate parallel element of absorbing panel of given solar collector (helioprofile1 m2 = 5.65 r.m. = 10.837 kg) is made by the method of extrusion from aluminum alloy, from which the solid necessary profile is formed. Areas ooff Application Construction direction:: • energy(cid:2)active shielding wall and ceiling constructions. Utilization of direct and dispersed sunlight for the needs of hot water supply, heating, ventilation and air conditioning. • wall and ceiling constructions of objects with controlled local climate conditions (objects of reaction profile etc.). Industrial direction:: • absorbing panels of solar collectors with liquid or air heat conductor, with heat accumulation, combined options. • internal constructions of surfaces of freezers and refriger(cid:2) ators. Outer connections of liquid coolant and convection cool(cid:2) ing of the internal space. • internal constructions of surfaces of thermal boxes. Outer connections of liquid heat conductor, radial and convection heating of the internal space. • industrial installations of solar water(cid:2) and air(cid:2)heating. liquid(cid:2)airal heat exchangers, dry gradirnes. Fig. 1. The functioning of the helioprofile Fig. 2.Separate element Fig.3. Practical object The surface, formed by the mounted helioprofiles may be both rectangular, and curved in shape. The principle of shaping allows also to form curved(cid:2)cylindrical surfaces. The inclination of the surface relatively to the horizon may differ, but it is rec(cid:2) ommended, that it comprise not less then 3(cid:2)5 degrees (to allow the condensate and the liquid heat conductor to drip). Stage ooff development production on a commercial scale; patented in Ukraine, Russia, international application PCT. Web site: www.teps.biz E(cid:2)mail: info@teps.biz Contact Details:: Viatcheslav Podlepich , Director “Insolar USV” Ltd, p/b 1827, Dnepropetrovsk, 49027, Ukraine. Tel +38 050 3038821 Tel/fax: + 38(cid:2)056(cid:2)3722132 E(cid:2)mail: insolar@a(cid:2)teleport.com STCU Technology Reference: natalia.dudko@stcu.int INNOVATIVE TECHNOLOGY OPPORTUNITIES FROM THE STCU 9