Can't Get My Batteries Fully Charged

Kelly I can help you out. or at least get to the bottom of things, but I am going to need to ask some questions.

First order of business is you battery monitor. They are basically worthless as you have noticed. The problem is State of Charge voltages (SOC) are only ball park voltages and only apply to a battery that has been disconnected and allow to rest a few hours. Working solar systems and never at rest. The batteries are either being charged or discharged. The only accurate way to determine the SOC is with a highly accurate thermometer and hydrometer. Your hydrometer is telling you the battery is low, but did you compensate and adjust the reading according to Temperature.

Q1. During the day when the sun is out and bright around noon, how much charge current is output from the Charge Controller? You Midnight Solar CC will tell you that. With 1710 watt panels on a 24 volt battery you should be seeing around 60 amps.

Q2. How many watt hours per day are you using from the batteries?

Here is my first suspicion. You are using more power than your panels can generate and replace each day. Based on batteries alone being 24 volt @ 1050 AH tells me the the batteries are capable of supplying 5 Kwh/day. However given your location and panel wattage, the panels cannot generate the 7.5 Kwh to replace 5 Kwh to the batteries.

Until you get this figured out, you need to start using your generator to keep the batteries topped off. Otherwise you will destroy them. You already raised a Red Flag with the manufacture telling them you are abusing your batteries, especially since you have a generator. That tells the manufacture and me you are not using it or using it properly. If you were, you would not have to send them off for someone else to charge them for you.

Thank you so much for your reply. I will try to answer some of your questions as best as I can.

It seems like I am underprepared. My dealer provided a glass hydrometer but I don't have a thermometer as it wasn't specified. Please try to understand that I am a complete lay person when it comes to this. Although I am learning every day, I have been operating our system based on the recommendations of the dealer and Magnum.

In terms of output, we've had a rough winter and spring but when the sun is out at high noon, we are getting closer to 40 amps and not the 60 you are suggesting. I keep imagining that as spring progresses we will see an improvement.

So you ask about watts. If I can use another measurement because I pay closer attention to this on the remote and I'm not good with converting measurements. On AVERAGE we are using between 8 and 10 amps per hour. When the house is not under load (say for example the fridge's compressor isn't running) then we are running at 2 amps for the whole house. Our fridge is electrical but our stove and dryer are propane. We have LED lighting and we heat our house by wood. Our house is passively designed.

Your thoughts on the size of our panel array interest me. I will have to discuss this with the dealer. I ask retorically, why would they have recommended this number of panels if they couldn't ever charge the batteries correctly? My understanding is that our system is capable of providing a 30 amp service with room to expand to 40 without more infrastructure.

I run the generator all the time. I have been basically running the generator every 36 to 48 hours since we went live in January but given our consumption habits I was expecting between 48 and 72 hours. So running the generator has and always was to top up the batteries. We just aren't getting the specific gravity the dealer is aiming for. Incidentally, when we got the batteries back after sulfating ordeal, I used the hydrometer to check the batteries before they were reconnected and got the 1275 we were looking for. So I know the batteries are capable of it but the charging parameters here at home are not working. It keeps me up at night because we have a lot of money invested in these batteries. Magnum assures me that there default settings are adequate for most batteries but its not working for these ones. So in my initial post I gave our most current settings.

Thanks again.

Your assessment is likely correct. Current should start rising as summer approaches.

I will give the dealer the benefit of a doubt because they likely took an educated guess as they had no hard data on power usage from you.

With all that said I know what is wrong. You are simply using more power each day than the panels can generate. As I said earlier based on battery size alone, they are capable of providing you with up to 5 Kwh/day. That does not mean your panels can generate that.

OK what is your location?

With that info I can at least calculate what panel wattage is needed to provide you with up to 5 Kwh per day in winter months.

I am in Falkland, British Columbia which is north of Vernon, B.C. (North Okanagan).

Do you have a sense of why the batteries won't charge fully even when the generator is charging them?

What kind of battery charger (amps) is the generator powering? How long do you run it? Do you set the charger to Equalize?

If I had to guess is you are not running it long enough.

It's a 6W generator. My understanding is that when the generator is running that the inverter diverts whatever power is necessary to the batteries. I notice that when I first turn the generator on it reads the Bulk Voltage plus 112 or more amps. The amps slowly go down over the charging. To that point, we keep upping the absorb time to see if that works but the voltage settings are now at the higher end of what's recommended for those batteries. I have not done an equalize charge since the batteries were reinstalled (10 days ago) as the dealer didn't recommend it. There has never been a time when the batteries have been fully charged except when they came from the dealer and I could have run the generator for 10 or 12 hours at a time to get no-where. So this is part of the puzzle.

What is the make and model of this inverter? Sounds like you are just not running the generator long enough to get the SPG up. Root cause of the problem sounds like you are using way more energy than the system can generate. That means it is undersized. You are using more power than you think you are.

There are two basic strategies to use when panels and generator are in the right ballpark for the bank size and the load:

1. Run the generator early in the morning to handle the bulk stage quickly and efficiently (generator constantly at near maximum output), then let the PV carry through the absorb into float, assuming that can be finished within the total amount of daylight available. Or
2. Let the panels do the bulk and start the absorb and just stop when the light runs out, but at least to 80% SOC, then plan to finish off using the generator at least once or twice a week.

In either case, if the batteries can take it, set the Absorb voltage higher to keep the CC in bulk mode longer. This will reduce the time spent not using the full available PV output, and can make it more possible for the PV to finish absorb at least some of the time.

If you just do not have enough combined PV and Generator, you will have to reduce your load somehow.
Remember though that using the generator for the tapering-current absorb stage is a waste of fuel and generator hours.

Thanks so much. I'm just getting back to our conversation now. I really appreciate the feedback you are providing. I will definitely explore these options. Currently, the absorb time has been set for 6 hours at 30.0 V. I will have to check with the dealer if there is any more room to increase the V but the absorb time can certainly be played with especially if the PV panels can handle it during the day.

I'll give it a shot this week and let you know the outcome. Unfortunately, for the next few days we have patchy weather but next week things will improve.

Thanks again for your help. I really appreciate it.

Kelly

You need to quickly learn to become a power plant electrician. Because you are needing to be doing the work of one. And an electrical engineer - so you can successfully design the plant.
In winter, I run my generator (3KW) 2 hours a day at most. Summer, never need it, but I have to chase the spiders off once a week.

As Sunking says, your system is way out of balance. You are destroying your batteries. You need to put yourself into lifeboat mode, and use as little power as possible till you get your batteries charged.
It will be less expensive to fly the system designer out to your place to program the the gear properly, than to ship batteries back for a recharge. And when the designer arrives, tell him you have a backhoe and he better get the system working

Thank you Mike. Yes I am particularly fearful of destroying the batteries. I suspect I will always have to run the generator more in the winter. Some days we might not get 1.5 kw hours of input. Our house can't get much quieter than it is. Other than the fridge we don't have much in the way of phantom loads.

With a 6w generator it took 2hours to reach the charge set point of 30 in absorb. That sounds like a long time to me and do I wonder where the problem is occurring.

No one can put their finger on it.

Thanks again.



QUOTE=Mike90250;72281]You need to quickly learn to become a power plant electrician. Because you are needing to be doing the work of one. And an electrical engineer - so you can successfully design the plant.
In winter, I run my generator (3KW) 2 hours a day at most. Summer, never need it, but I have to chase the spiders off once a week.

As Sunking says, your system is way out of balance. You are destroying your batteries. You need to put yourself into lifeboat mode, and use as little power as possible till you get your batteries charged.
It will be less expensive to fly the system designer out to your place to program the the gear properly, than to ship batteries back for a recharge. And when the designer arrives, tell him you have a backhoe and he better get the system working [/QUOTE]

I can put my finger on it, but your numbers are meaningless. A 6 KW does not tell me anything other than what the generator is capable of. What size battery charger is the Genny operating. Is iit 10 amps, 20, 30 , 40 what? Based on a 24 volt 1050 AH battery the charger should be rated @ 130 to 150 amps @ 24 volts. At that level the generator can bring a 50% DOD back to full charge in 4 to 5 hours. But until we know the charge amps, no one can tell you anything.

But I can tell you based on the info you have provided your system is much too small, particularly the panel wattage. If your panel wattage was correct you would not have to run the generator very often other than cloudy spells and periodic maintenance with a EQ charge. Way it is now you are goiong to have to live off the generator as your primary electric source, and as of right now does not sound like you have a large enough charger connected to the generator.

I'm just reading in the Magnum manual that the AC Input Amps default is 30 amps. Should this be changed to reflect the 50 amps its referring to in the brochure?



I am running an Ecogen generator. These are the specs from the brochure and we are running 120V not 240. If I recall properly when the generator first comes on it runs anywhere between 112 and 140 amps. We are using the Magnum 4000W inverter/charger. I have asked this very question (ie the size of the inverter). I have been told that the inverter size is fine given that we only have a maximum of 30 amps coming in through the panels on a good day but no one has made the connection that it might not be big enough to handle the generator. I don't know how to evaluate that but I will ask the question to the dealer.


GENERATOR Model 005818-0 (6 kW)
Rated Maximum Continuous Power Capacity (LP) 6 kW*
Rated Voltage 120 (240 capable w/kit – Model 6016-0)
Rated Maximum Continuous Load Current – 240 Volts 50 Amps (25@240V)
Main Line Circuit Breaker 50 Amps (25 Amps after conversion)
Phase 1
Number of Rotor Poles 2
Rated AC Frequency 60Hz
Power Factor 1
Battery Requirement (not included) Group 26R 12 Volts and 525 Cold-cranking Amperes Minimum
Unit Weight (Pounds/Kilos) 387/175.5
Dimensions (L x W x H) Inches [mm] 48 x 25 x 29 [1218 x 638 x 732]
Sound output in dB(A) at 23 ft. with generator operating at normal load 52

New but related problem. As I've been advised to tweek settings here and there I just went downstairs tonight and ALL of the Inverter and Charger settings are defaulted to what appears to be 12V specs based on the Magnum manual. I cannot increase any of the voltages beyond the default values and now my SOC is reading 24%. I just took a specific gravity and although I need to charge the batteries the SOC doesn't correspond to the voltage reading on the remote which is 23.9 right now.

Arggg... I'm losing my mind.