MD135Y

MD135Y - Combined solar liquid and gaseous heat-transfer agent heater

Info

Publication number: MD135Y
Application number: MDS20090131A
Authority: MD
Inventors: Vladimir Ermuratschii; Vasili Ermuratskii
Original assignee: Institutul De Energetica Al Academiei De Stiinte A Moldovei
Priority date: 2009-07-10
Filing date: 2009-07-10
Publication date: 2010-01-29
Also published as: MD135Z

Abstract

Inventia se refera la heliotehnica, si anume la dispozitivele de transformare a energiei solare in energie termica si poate fi utilizata pentru alimentarea tehnicii de destinatie industriala si de uz casnic cu apa fierbinte si aer incalzit. Incalzitorul solar contine un corp (1) in forma de paralelipiped dreptunghiular cu un capac transparent (9) instalat pe el si cu fund termoizolat (2), un absorbitor (10) amplasat in interiorul corpului (1), care consta dintr-un sir de tevi (11) paralele, amplasate cu joc una fata de alta, fixate cu posibilitatea debitarii in ele a agentului termic lichid din colectoarele terminale, unul din ele fiind dotat cu un racord pentru debitarea agentului termic lichid rece, iar celalalt - cu un racord pentru evacuarea agentului termic lichid incalzit, tevile (11) fiind amplasate paralel capacului (9). Peretii (3) corpului incalzitorului sunt executati cavi, cavitatile a trei dintre ei sunt unite cu posibilitatea circulatiei agentului termic gazos, iar cavitatea celui de-al patrulea perete este divizata printr-un perete despartitor orizontal dintr-un intreg (5) in doua canale (6, 7). Cavitatea canalului superior (6) este unita cu cavitatile (4) peretilor adiacenti, iar cavitatea canalului inferior (7) este executata inchisa, cu un strat de izolatie termica (8) pe peretele exterior si cu un racord pentru evacuarea agentului termic gazos incalzit. In partea superioara a peretilor interiori (19), pana la absorbitor (10), sunt executate orificii (16), iar in partea inferioara a peretelui exterior al unuia din cei trei pereti laterali este executat un orificiu pentru debitarea in cavitatile comunicante a agentului termic gazos rece. Tevile (11) absorbitorului (10) sunt amplasate practic paralel cu peretele lateral (3) cu doua canale (6, 7). Suprafata exterioara a tevilor (11) absorbitorului (10) este acoperita cu material absorbant de lumina. La fundul corpului intre peretii laterali opusi (3), perpendicular tevilor (11) absorbitorului (10), sunt instalate cu posibilitatea amplasarii pe ele a tevilor (11) cel putin doua elemente de sprijin alungite, practic paralele unul altuia, in forma de figuri geometrice tridimensionale cave, cu gauri strapunse (18) in fetele laterale pentru circularea agentului termic gazos. Capetele frontale ale elementelor de sprijin dintr-o parte sunt executate inchise, iar din cealalta parte - deschise si conjugate cu orificiile executate pentru fixarea lor in peretele interior (19) al canalului inferior (7) al celui de-al patrulea perete lateral. Rezultatul consta in ameliorarea conditiilor de exploatare, reducerea pierderilor de caldura ale incalzitorului, precum si sporirea sigurantei si simplificarea constructiei.The invention relates to heliotechnics, namely to devices for transforming solar energy into thermal energy and can be used to supply industrial and domestic use technology with hot water and heated air. The solar heater contains a body (1) in the shape of a rectangular parallelepiped with a transparent lid (9) installed on it and with a thermally insulated bottom (2), an absorber (10) located inside the body (1), which consists of a string of parallel pipes (11), placed with play against each other, fixed with the possibility of cutting in them the liquid thermal agent from the terminal collectors, one of them being equipped with a connection for cutting the cold liquid thermal agent, and the other - with a connection for evacuating the heated liquid heating agent, the pipes (11) being placed parallel to the cover (9). The walls (3) of the heater body are made of cavities, the cavities of three of them are joined with the possibility of gaseous thermal circulation, and the cavity of the fourth wall is divided by a horizontal partition wall from an entire (5) into two channels. (6, 7). The cavity of the upper channel (6) is joined with the cavities (4) of the adjacent walls, and the cavity of the lower channel (7) is made closed, with a layer of thermal insulation (8) on the outer wall and with a connection for the evacuation of the heated gas agent. In the upper part of the inner walls (19), up to the absorber (10), holes are made (16), and in the lower part of the outer wall of one of the three side walls a hole is made for cutting in the communicating cavities of the thermal agent. cold gases. The pipes (11) of the absorber (10) are located practically parallel to the side wall (3) with two channels (6, 7). The outer surface of the absorber pipes (11) (10) is covered with light-absorbing material. At the bottom of the body between the opposite side walls (3), perpendicular to the pipes (11) of the absorber (10), are installed with the possibility of placing on them the pipes (11) at least two elongated support elements, practically parallel to each other, in the form of figures. three-dimensional geometric cavities, with perforated holes (18) in the side faces for the circulation of the gaseous thermal agent. The front ends of the support elements on one side are made closed, and on the other side - open and conjugated with the holes made for their fixing in the inner wall (19) of the lower channel (7) of the fourth side wall. The result is improved operating conditions, reduced heat loss from the heater, as well as increased safety and simplified construction.