FIELD: solar power engineering.
SUBSTANCE: panel comprises front absorbing plane that receives radiation and where radiation energy is converted into heat energy and is absorbed by the flowing coolant. The panel has passages for coolant arranged behind and in the vicinity of the absorbing plane. The plane has at least one space connected with the panel of solar collector. The open end of the space faces the passages for coolant at the inlet and outlet from the panel of the solar collector for permitting the space of the shock-absorbing air to be closed by means of flowing coolant. The method comprises overlapping the open end of at least one space by means of flowing coolant during operation. The space is connected with the panel of the solar collector. The volume of air inside the space absorbs the pressure oscillations in the coolant.
EFFECT: enhanced efficiency and reduced weight.
17 cl, 5 dwg
| Title | Year | Author | Number |
|---|---|---|---|
| SOLAR COLLECTOR PANEL AND SYSTEM OF SOLAR COLLECTOR PANELS | 2011 |
|
RU2521523C1 |
| SOLAR IRRADIATION RECEIVER | 2001 |
|
RU2200914C2 |
| SOLAR COLLECTOR | 2001 |
|
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| HEAT RECEIVING PANEL OF SOLAR COLLECTOR | 2010 |
|
RU2450217C2 |
| SOLAR COLLECTOR TUBULAR PANEL | 2015 |
|
RU2601321C1 |
| SOLAR COLLECTOR | 2003 |
|
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|
RU2348869C2 |
| COMBINED SOLAR AIR-AND-WATER MANIFOLD | 2013 |
|
RU2546340C1 |
| FLAT SOLAR COLLECTOR TO BE USED UNDER NORTHERN TERRITORY CONDITIONS BASED ON HEAT-RECEIVING PANEL MADE FROM CORROSION-RESISTANT MATERIALS | 2007 |
|
RU2350852C2 |
| SOLAR COLLECTOR | 2008 |
|
RU2395757C2 |
