AbdulSubhan
New Member
- Joined
- Mar 27, 2022
- Messages
- 17
I have been watching DIY videos for a while, I want to switch to solar I'm a newbie have no idea about electricity but now I'm getting hang of everything spent hours watching videos Mr.Prowse videos
My daily average consumption during summer time is 30 kWh, summer last for a while we need AC to run. It gets 10 kWh per day in winters but I'll be adding electric waters heaters but can defer it.
So building a setup at first I don't have a budget I want to start out low like buy one equipment All in one solar inverter then add in stuff over time.
Here's my future dream model 7000 watts PV array, 8kWh inverter, 30 kWh Lipo battery bank.
I don't have any heavy inductive load other than one 1.5 ton split AC (non-inverter) and an automatic washing machine.
First, I want to go with buying an 8 Kwh Inverter, 4000 watts PV array and 9.6 kWh Lipo Batteries: with this configuration, I'll be reaching a 25-30 kWh battery bank.
and add 3000 watts of PV later sometime in a year.
my question is: What type of All-in-one Inverter I should be looking for in specs to add upgrades later?
with a 30kWh battery and I want to charge that in a single day. 7000 watts PV array / 48 volts 25 kWh batteries = Solar charge controller 145.8 amps.
Am I doing the numbers correct? 145 Amps with the (headroom of 200 amps) is the type of controller should I be looking at in an inverter plus the option to charge the LiPo batteries, just saw not all inverters have the option to charge LiPo batteries.
for math purposes assuming my 7000 watts PV array generates 100% of electricity
In the day time I want to run a 1.5-ton split inverter (rated 1600 watts) + occasionally 1.5 split AC (rated 2000 watts ) + another household load 800 watts) = 4400 watts
so when the Sun is up I'd draw 4600 watts for my load and use the rest to charge the batteries for the night. leaving 2600 watts for my power bank. I understand my batteries won't be charged 100% if they are at zero.
I have an attached report that shows sun peak hours with other data that I don't understand, average hourly profiles are low for mid-summer when the temps are high and I will be using lots of AC what does that mean for my setup.
My daily average consumption during summer time is 30 kWh, summer last for a while we need AC to run. It gets 10 kWh per day in winters but I'll be adding electric waters heaters but can defer it.
So building a setup at first I don't have a budget I want to start out low like buy one equipment All in one solar inverter then add in stuff over time.
Here's my future dream model 7000 watts PV array, 8kWh inverter, 30 kWh Lipo battery bank.
I don't have any heavy inductive load other than one 1.5 ton split AC (non-inverter) and an automatic washing machine.
First, I want to go with buying an 8 Kwh Inverter, 4000 watts PV array and 9.6 kWh Lipo Batteries: with this configuration, I'll be reaching a 25-30 kWh battery bank.
and add 3000 watts of PV later sometime in a year.
my question is: What type of All-in-one Inverter I should be looking for in specs to add upgrades later?
with a 30kWh battery and I want to charge that in a single day. 7000 watts PV array / 48 volts 25 kWh batteries = Solar charge controller 145.8 amps.
Am I doing the numbers correct? 145 Amps with the (headroom of 200 amps) is the type of controller should I be looking at in an inverter plus the option to charge the LiPo batteries, just saw not all inverters have the option to charge LiPo batteries.
for math purposes assuming my 7000 watts PV array generates 100% of electricity
In the day time I want to run a 1.5-ton split inverter (rated 1600 watts) + occasionally 1.5 split AC (rated 2000 watts ) + another household load 800 watts) = 4400 watts
so when the Sun is up I'd draw 4600 watts for my load and use the rest to charge the batteries for the night. leaving 2600 watts for my power bank. I understand my batteries won't be charged 100% if they are at zero.
I have an attached report that shows sun peak hours with other data that I don't understand, average hourly profiles are low for mid-summer when the temps are high and I will be using lots of AC what does that mean for my setup.