DE202005019024U1 - Hybrid solar collector for water heating and electric current generation, with photovoltaic module centrally located on hybrid collector - Google Patents

Abstract

Hybrid solar collector locates in its middle part photovoltaic module, whose photovoltaic generator (1) is surrounded by vacuum tube collectors on left and right side. Preferably, vacuum tubes (2,2a) are fitted round photovoltaic module at same level to prevent mutual shading.Compound parabolic concentrator (4) lies 17mm below vacuum tubes for optimal utilisation of solar radiation, with concentrator mirror W-shaped. In collector, condenser is directly surrounded by heat exchange liquid for optimum heat exchange. Transition from heat pipe to collector tube is formed by special, long service life seal. On collector rear side is fitted air and water cooler for photovoltaic module.

Description

hybrid collectors were previously manufactured as flat plate collectors with PV modules on the top side. Heat transfer medium is underside circulating air that transports in air ducts become.

Of the Hybrid solar collector RR-2D is a novel invention that it in this construction is not yet on the market.

The Solar thermal construction relies on laterally mounted high performance vacuum tubes with Heat pipe system over a capacitor the heat in a mounted above collecting pipe and directly from the heat transfer medium which are heated after being heated in a heat exchanger via a Pump is introduced.

Between the side mounted vacuum tubes is a photovoltaic module with a capacity of 100-220 Wp, depending on the version. The hybrid solar collectors can individually, in rows or parallel to arbitrarily large fields be switched.

The back is with a lamella cooling (air or water) to the photovoltaic yield in the summer, at to ensure high solar radiation, the usual at high temperatures on the back the PV modules wears off.

An embodiment of the invention will be described with reference to 1 - 8th explained.

1

photovoltaic module 100-220 wp

2 + 2a

Vacuum tubes with internal heat pipe tube

3

collection box with internal manifold

4

CPC mirror (Compound Parabolic Concentrator) for radiation optimization

5

Heat pipe tube Stainless steel or copper with overhead capacitor

6

manifold for the Transport of the heat transfer medium

7

capacitor for heat exchange in the manifold (directly encircled)

8th

rear slats cooling (air circulating or with water cooling

9

Inflow / outflow cooling water

The Frame construction, the manifold and the cover are made Stainless steel.

The Connection between the heat pipe tube made of copper or stainless steel, is made by a special compound of turned parts (stainless steel) and graphite seals permanently sealed, but made detachable.

Claims (5)

Hybrid solar collector for the production of hot water and electricity, characterized in that photovoltaic module mounted centrally on the hybrid collector of the PV generator (module) ( 1 ) left- u. Right side is enclosed by vacuum tube collectors. Hybrid solar collector according to claim 1, characterized in that solar-thermal part left and right side of the PV module that the vacuum tubes ( 2 + 2a ) are mounted on the left and right sides of the PV module at the same height to prevent mutual shading. Hybrid solar collector according to one of the preceding claims, characterized in that the CPC level (Compound Parabolic Concentrator) ( 4 ) is located 17 mm below the vacuum tubes for optimum use of solar radiation. Mirror in W-shape Hybrid solar collector according to one of the preceding claims, characterized heat pipe tubes with directly circumscribed condenser in the manifold ( 6 + 7 ) That the condenser is surrounded by the heat transfer fluid directly in the manifold for optimal heat transfer. The transition from the heat pipe tube into the manifold is made by a special sealing part (detachable and permanently sealed). Hybrid solar collector according to one of the preceding claims, characterized in that on the back of the hybrid solar collector, a device is mounted, the PV modules via air ( 8th ) or water ( 9 ) cools.