Wednesday, December 22, 2010

Two Combined PV and Solar Heating Systems

Solar electric systems operate at about 15% efficiency -- the remaining 85% is mostly turned into heat, which is wasted on nearly all current PV systems.  The heat is not only wasted, but it causes the PV panels to run hotter, which lowers their efficiency.

There have been a number of attempts to try to harvest the waste heat that PV arrays produce for space or water heating -- here are a couple fairly recent additions.

PVT Solar's Echo System
This system is a combined PV and solar thermal system.  Conventional PV panels are spaced a few inches  above the roof plane leaving a space between the roof and the bottom of the PV panels.  The top and sides of the PV array are closed off so that the only opening for airflow is along the bottom of the PV array.  Fresh air is drawn in under the PV panels along the open bottom edge, and is heated as it progresses up between the hot PV panels and the roof.  Vents through the roof at the top of the array take the heated air into the house and use the heated air to heat domestic water and/or for space heating. 

Heat from the cavity formed under the sealed PV panels is collected and used for space and water heating.
From a thermal point of view, the system is basically an unglazed collector that takes in ambient air and heats it all the way up to temperatures good for space heating (most solar heating systems get a head start by heating room temp air up).  I would think that this system might work well in some climates, but the combination of unglazed collectors and heating all the way from ambient would seem to limit its use in cold climates?  The SRCC report (link below) would seem to confirm this if it is for the same system -- the efficiency curve intercept is 0.24.

The PVT Solar concept  is a very simple, and could certainly be implemented on a DIY basis.   While the thermal performance is likely to be well under a good dedicated thermal collectors, the extra "free" thermal energy would likely be more than the electrical energy the PV array generates.

I would love to hear from anyone who has one of these systems, or know more about them.

More details and links on the PVTSolar system...

Solar Wall PV/T
This is a variation on SolarWall's well know transpired solar air heating collector system.  In this version, PV panels are spaced over Solar Wall's transpired solar thermal collector absorbers.  The SolarWall collectors draw in the heated air behind the PV panels.

The PV panels sit over the standard Solar Wall transpired air heating collectors


It would be interesting to know how the thermal efficiency of this PV version of the Solar Wall compares to a regular Solar Wall.  I would think the addition of the PV panels may reduce the thermal efficiency of the SolarWall because PV panels would not be as efficient an absorber as the SolarWall absorber they are shading?

I did not see any detailed performance numbers on their site.

More details and links on the Solar Wall PV/T product ...

It will be interesting to see whether these products do well.

Gary

Saturday, December 18, 2010

Super Insulated Stock Tank

This is a really nice and simple design from Scott for a well insulated stock tank for horses or other livestock.

It is basically a tank within a tank with the space between filled with insulation.

This shows the two tanks Scott used.  The inner tank is a commercially available heated bucket, so with Scott's design there is no need to have a drop in the tank type heater -- the heater is built into the bucket.

Adding insulation between the two tanks -- see the full story for how best to do this.

And, this is the finished tank.


Scott uses a KillAWatt meter to measure tank heater electricity consumption, and has seen a 61% in heater energy consumption.  A drop from about 6.3 KWH per day down to 2.5 KWH per day!

All the details on building Scott's insulated stock tank...

Details on several other DIY solar and insulated stock tank projects...


Thanks very much to Scott for sending this in!

Gary
 
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