DE102006032876A1 - High voltage heating plate, is integrated into photovoltaic plate, and is inserted or re-tooled behind solar plate, and solar cells are cooled by evacuation of heat to heat exchanger - Google Patents

Abstract

The high voltage heating plate is integrated into a photovoltaic plate, and is inserted or re-tooled behind a solar plate. Solar cells are cooled by evacuation of the heat to a heat exchanger. The coolant is pumped from down to upward direction through the plate. The solar power is used in two ways e.g. for heating and for electricity. The solar plates removes snow layer by heating the solar plates for a short time with the heating plate.

Description

at known solar systems either electricity or heat is generated.

By combining a photovoltaic plate and the HS heating plate ( 2 . 3 and 5 ) are in an annex ( 5 and 6 ) generates both forms of energy, electricity and heat.

The new arrangement of the two plates should allow the different Energy forms at the same time, in the smallest space, more cost-effective and more effective use.

The HS heat plate ( 1 ) consists of a frame ( 1 ) Alu or Cu outwardly coated with silicone.

Silicone is for the HS heat plate under the photovoltaic plate in its frame ( 2 . 1.1 or 3 . 2 ), these are not destroyed, eg by stretching or electrical voltage drop.

On this frame ( 2 . 2.1 ; 3 . 1 ) is the back ( 2 . 2.6 ; 3 . 6 ) attached.

In this frame and backside is the pipe system Cu ( 1 . 5 ; 2 . 2.7 ; 3 . 7 ) firmly thermally conductively connected (eg soldered or welded) on the heat-absorbing plates ( 1 . 4 ; 2 . 2.8 ; 3 . 3 ).

The pipe system ( 1 . 5 ; 2 . 2.7 ; 3 . 7 ) is laid so that the heat-dissipating liquid enters the bottom of the plate ( 1 . 2 ; 4 ) and exits again ( 1 . 3 ; 4 ).

By horizontally arranging the pipe system, the heating of the cooling liquid is optimized ( 4 ) and thus less HS heat plates are required to reach an optimum temperature.

The pipe system ( 1 . 5 ; 2 . 2.7 ; 3 . 7 ) with the firmly attached heat-absorbing plates ( 1 . 4 ; 2 . 2.8 . 3 . 3 ) is thus enclosed in insulation (eg foam insulation) ( 1 . 6 ; 2 . 2.4 ; 3 . 5 ) that causes the least possible loss laterally and to the rear.

Forward to the photovoltaic plate ( 2 . 1.2 ; 3 . 8th ), the HS heating plate should be mounted with very little distance or adjacent, so as to take the temperature of the photovoltaic plate as quickly as possible or deliver it in snow cover for a short time.

By Combining photovoltaic and HS heating plate (two types of energy conversion) elevated the efficiency of the plate.

Two types of energy are gained on the surface of the photovoltaic panel ( 5 and 6 ).

In addition will the photovoltaic plate cooled by the HS heating plate, so that the efficiency by itself already increased. Additionally win we without additional area still heating.

In Snow areas (with snow cover of the photovoltaic panel) obtained we pass through the HS heat plate the possibility by briefly flowing back the coolant to keep the plates free of snow.

1

Anschluss

2

Kühlflüssigkeit Eingang

3

Kühlflüssigkeit Ausgang

4

Wärmeleitende Platte

5

Rohrsystem

6

Isolierung

7

Rahmen mit Silikonmanschette

1 .:

1

connection

2

Coolant input

3

Coolant output

4

Thermally conductive plate

5

pipe system

6

insulation

7

Frame with silicone sleeve

1.1

Rahmen der Sanyo HIP Platte

1.2

Photovoltaik – Modul

2.1

Rahmen der HS Wärmeplatte

2.2

Kühlflüssigkeit Eingang

2.3

Kühlflüssigkeit Ausgang

2.4

Schaumisolierung

2.5

Distanz

2.6

Rückwand

2.7

Rohrsystem

2.8

Wärmeaufnehmende Platte

2 .:

1.1

Frame of the Sanyo HIP plate

1.2

Photovoltaic module

2.1

Frame of HS heat plate

2.2

Coolant input

2.3

Coolant output

2.4

foam insulation

2.5

distance

2.6

rear wall

2.7

pipe system

2.8

Heat-absorbing plate

1

Rahmen der HS Wärmeplatte

2

Rahmen der Sanyo HIP Platte

3

HS Wärme Platte

4

Abstand zwischen den beiden Platten

5

Schaumisolierung

6

Rückwand

7

Rohrsystem

8

Photovoltaik Platte

3 .:

1

Frame of HS heat plate

2

Frame of the Sanyo HIP plate

3

HS heat plate

4

Distance between the two plates

5

foam insulation

6

rear wall

7

pipe system

8th

Photovoltaic plate

Von unten nach oben verlaufendes Rohrsystem

4 .:

From bottom to top running pipe system

5 .:

1

Warm- und Kaltleitung zum HS Wärmeaufsatz (Glykol Gemisch)

2

langsam laufende Umwälzpumpe für Glykol Gemisch (wird über Thermostat geschalten)

3

Warm- und Kaltleitung (Wasser) von der Heizung

4

Umwälzpumpe für Zusatzheizung

5

Heizungsboiler

6

Warm- und Kaltleitung für Brauchwasser

7

Brauchwasserboiler

8

Schaumisolierung

9

HS Wärme-Aufsatz

10

Sanyo HIP 200 NHE 1

11

Gleichspannung Verbindungsleitungen von Platte zu Platte

12

Verbindungsleitung von den Platten zu dem Wechselrichter

13

Wechselrichter

14

Zuleitung zum Zähler und Netz 230 V Wechselspannung

Sanyo HIP 200 NHE 1 + HS Wärmeaufsatz

Position 1-9 Solar Heizung

Position 10-14 Photovoltaikanlage

Components of the combined solar system

1

Hot and cold line to HS heat tower (glycol mixture)

2

slow running circulating pump for glycol mixture (switched by thermostat)

3

Hot and cold pipe (water) from the heater

4

Circulation pump for additional heating

5

Heating boiler

6

Hot and cold pipe for service water

7

Hot water boiler

8th

foam insulation

9

HS heat attachment

10

Sanyo HIP 200 NHE 1

11

DC voltage connecting cables from plate to plate

12

Connecting line from the plates to the inverter

13

inverter

14

Supply to the meter and mains 230 V AC

Sanyo HIP 200 NHE 1 + HS heat attachment

Position 1-9 solar heating

Position 10-14 photovoltaic system

1

Wärmetauscher

2

Umwälz Pumpe

6 .:

1

heat exchangers

2

Circulating pump

Claims (5)

for HS heat plate which can be integrated into any photovoltaic panel, characterized in that it can be installed or retrofitted behind any solar panel. cooling the solar cells By removing the heat to the heat exchanger That the coolant pumped from bottom to top through the plate. better Recording the heat That the solar energy is used in two ways Heat and electricity The solar panels can remove from Schneebelag. By short-term heating of the solar panels by the heating plate, the snow slips off.