Now we are talking
Using the inverter is not a bad idea but typically in an off grid solution it's not turned on, that can be acomplished ofcourse.
But still there is a problem to be able to regulate the load to match the available PV power since this is not nessesary stable.
Could this be done using T-junction between battery and MPPT, putting a load on the system, but only as long as the current comes from the MPPT and never from the battery. Can a simple diode do this?
I must admit that I am about to conclude that the Solar Industry has missed this opportunity. As fare as I can understand the only proper way to achieve this is an advanced MPPT controller with to different output's
One charging the batteries, and another being able to supply the excess power to any load we want. The load will of course have to be able to accept whatever voltage and current avalable. I guess a heater element is fine, a fan might be more difficult.
Doesn't anyone know sommeone in the industri who can have a look at this?
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Some people in this and other forums make a distinction between a dump load, considered as a place to either use OR waste power to prevent overcharging of a battery bank or to keep a load on a wind or hydro turbine to keep it from running out of control when no power is actually needed. For wind, hydro, or shunt type battery charger, this load is not optional it is required.
When the specific goal is to take available power that would otherwise be wasted, as for example, the extra PV potential output when an MPPT controller does not need to use full output, it is more often called an opportunity load. It is completely optional in that if it is turned off or disconnected, nothing bad will happen to the system.
The most common opportunity load is water heating. This can be done directly with DC from the power source, but that requires finding heating elements with non-standard voltage and resistance specifications to make best use of the power. A few people have put forward the idea that as long as you have an inverter running off the batteries anyway, you can just as well power your opportunity load from the inverter whenever the battery bank is fully charged. The input current to the inverter will simply come directly from the panels rather than forcing a charging and discharging of the batteries.
The simplest way to control this is to use an output from the CC which indicates that it is in Float to drive a relay which energizes the heating element. That will not let you use surplus power during Absorb. That would be more complicated.
An idea which I have not seen explored would be to take off the excess power before the MPPT CC by sensing the current being drawn from the panels by the CC and pulling additional current into an opportunity load when the CC current is below the current Imp value. But that would require some way of knowing how much light is hitting the panels, or at least what the current Imp value is.
And too rapid a response could cause instability in the MPPT algorithm of the CC.Leave a comment:
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Well, this might be a language issue, but every tread I have read about PV and dumploads has concluded, -you dont't want this, need it, etc
And since the basic design as I understand it of a dumload regulated system is based on direct connection of the source to the battery, and then a dumpload who are capable of putting a load on the system atleast the size of the source. I can't see how this can be established with the source beeing a PV regulated by a MPPT. In such a soluion there is now extra load to be utilized on the batteryside of the MPPT Consequently no energy to dump.
This is why I try to make difference between a normal dumpload solution and what I would like to do. Let me try to give some examples:
- MPPT does a bulk charge of the battery, no excess energy available
- MPPT goes into absorption, full current, no excess energy available
- MPPT in absorption, but 50% current, no the other 50% is available as excess energy
- MPPT in float, 95% of the energy is avilable as excess energy
However you do not need to comsume the excess energy, it's just an option?
If you put a load on the system when there is available energy the MPPT regulator should be in control of that load so the load can be reduced if the available energy is reduced. I cant understand how this can be achieved with current technologi - please enlighten me if I am wrong.Leave a comment:
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Dump Load Difinition
Dump Load: A device to which solar PV or Wind wind generators power flows to when the system batteries are fully charged so the otherwise unused power can be utilized rather than wasted. Generally it is a heating element because it does not require a minimum or set amount of power to operate under dynamic conditions.
They have been around as longer than solar and wind generators have existed.Leave a comment:
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Yes, somewhat confused, but getting better
I'm not sure why a "dump-load" is needed, instead of using fans or circulating pumps insteadLeave a comment:
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Well I am certain you have me and all other professionals very confused. Either that or you are very confused. You say you do not want to talk about dump loads, but that is exactly what you are defining and wanting to do.And please - this is not a tread about dumploads, and we don't need the replye's like, your load has do be big enought etc. Those of us who have this wish we just want to use the available energy to something, e.g add smal heater for air or water, or for those who live in the warmer part of the world - running a cooling fan
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Not a Dump load
Thanks so much for this thread, as I am designing a system to supply the energy load for a 40'X40' RV Solar Shop.
I am having issues with the exact load I will have, as the load will change often.
My plans are to have Radiant heating in the floors, but will only need this in the winter months. My thoughts are to
redirect this power to ceiling and exhaust fans for the summer months.
Just to let you know, this shop is in Texas, and we are challenged more with Summer heat than Winter cold.
I still need to put the numbers together for the load requirements for water pumps and ceiling fans, but I also plan to over-size.
At this time, I am having a challenge finding a reputable source for cells for custom panels.
Best wishes from Texas,
Danny
txtinnerLeave a comment:
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Utilizing excess energy from solar panlel - not a dumpload question ;-)
I am not sure if I use the right english words here but I know from extensive Googling that I am not alone in my search for a solution to this.
Those of us who raise these questions tend to ask for a dumpload solution on our PV system, and those of you who are experts tells us that we dont need one. This is not tread about dumploads.
As we speak my Tristar has moved into absorption already an hour ago, and the Amp's are "dropping". I am only using 100W from the panels and thats a pitty. Bright sunny and very cold day here in Norway with minus 10°C. My 550W panels deliver typically something like max 300W at this time of the year - solar elevation is 7.5°, and I think it is a pitty that i can use the additional energi.
The only solution in the big www world seems to be a voltage sensable relay adding a DC heater of some kind but that to crude for me.
What I want is a clever system that always get the max out of the PV's at the same time as the battries get exactly the same treatment as if no load was added. My advanced Tristar 60MPPT knows exactly how much charge has to go to the batteries and should have been able to add a variable load securing the batteries demand. I have a continues load of 12-14W (1 amp'ish) and the MPPT should supply that plus the float charge.
A Tristar 60 (PWM) could be that variable load regulator but it doesn't seem to be any way to hook this up so that the MPPT could tell the PWM how much load it could add, and the standard software of PWM would'nt work.
Would'nt it be great if I could have a couple of hundred watt's from a DC heater in the bathroom, redusing the air humidiy - the bathroom is now at -10C. Yes it is a off grid cabin and no I am not there. I just read this from my monitoring system from my warm bed in Oslo.
And please - this is not a tread about dumploads, and we don't need the replye's like, your load has do be big enought etc. Those of us who have this wish we just want to use the available energy to something, e.g add smal heater for air or water, or for those who live in the warmer part of the world - running a cooling fan
I get the feeling that the solar industri has completly missed out on this one - Am I right?
If I am not please help guide me to the approprate supplier.
PS - Maybe I can make this my self - The Tristar has a RS485 (or wathever number it is) and Ethernet connection and all data can be read over Modbus - So basically an advance programable regulator with Modbus connection could do the trick
Your views and knowledge is very much appreciated.
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