Effects wrote: » What's the minimum number of panels to make it worthwhile? Is 3 300w panels sufficient? Coming from a green perspective, not about cost saving on electricity. Mostly self installed so no grant or high installation costs.
Effects wrote: » The house is on a west facing terrace. They are adding a two story extension that's south facing. This is the part that'll fit a few panels, but not a lot, as it'll have two skylights in it as well.
unkel wrote: » If they still have west facing roof left, they can install a second string on that. Many modern inverters are MPPT and can use 2 or more strings. And optimise both strings separately.
Effects wrote: » West would be front of house. I can’t remember what rules apply for that?
unkel wrote: » max 50% of total roof space. These rules are antique and ridiculous at this stage, will probably change soon I would expect, but they are still here...
Effects wrote: » Is that 50% of the front roof space, or total roof space? i.e. All the front could be covered and none of the back.
kceire wrote: » 900w peak production won’t be enough to power base load and feed a battery in my opinion. I’ve a 3kw system. Would love to go bigger!
n97 mini wrote: » Here's my base load for a day. I have 2 x 300w panels which are currently peaking at about 350w combined as they're not optimally positioned. As you can see we're mostly between 250w and 500w in daylight hours. That's the low hanging fruit and can be cheaply replaced with solar. The spikes are mainly kettle, toaster and microwave during daylight, and it's pointless chasing that as their demand is very large and very brief. So the grid handles that. The really big loads are charging the car, the dish washer and washer/dryer, which are all done on night rate and would be prohibitively expensive to try to supply with solar and batteries. Estimated ROI for current setup is about 2 years and 9 months. Until a universal FIT is introduced, my advice is go after the low hanging fruit and stay small.
rolion wrote: » Is this reply or graph ... a joke !?? As I really dontvwanna take it as non knowledge or fcuking worse ... an offence !
n97 mini wrote: » Estimated ROI for current setup is about 2 years and 9 months.
unkel wrote: » Can you elaborate on that calculation? How much did you pay for the panels each and for your inverter and how many kWh do you expect to produce per year?
n97 mini wrote: » We're also exporting some amounts as the meter has detected it
n97 mini wrote: » 2x Eco Delta 300w panels, Solis inverter, cables, plugs came to €450. Currently producing 2.5kw/h per day. Electricity costs €0.21 per kw/h, so €0.52 coming from solar per day. 450/0.52 = 865 days = 2 years 4.5 months.
n97 mini wrote: » BTW, thanks for your initial advice, I'm compiling more question for you
unkel wrote: » Solis mini inverter? You did well buying. I presume your costs include all mounting bits and pieces (which can be expensive enough )
unkel wrote: » From your other posts I reckon your install is pretty recent? You said you have peaked at 350W. Given the time of year, that means you will peak at an optimal day at about 380W. This means your system will generate roughly about 360kWh per year. All at peak times of course. You said you switched to EI, so have I and afaik their peak rate is about 18c/kWh
unkel wrote: » So your revenue is 360 * .18 = €65 per year (presuming you use 100% of your production and you never feed the grid - this is a bit optimistic even with a very small system - you state yourself that it looks like you already exported)
unkel wrote: » With zero interest and zero opportunity cost of money, this represents a payback period of 7 years (flattered). Pretty good, but nowhere near as good as you thought. Happy PVing anyway :cool:
n97 mini wrote: » I don't understand how you arrived at 360kw/h annually, which is 1kw/h per day? The inverter says today's output was 2.7kw/h
n97 mini wrote: » Instead of being offended, why don't you refute my points, which are actually based on real data?
n97 mini wrote: » We'll chat again in a year