unkel wrote: » Of course it is. It has a separate emergency AC circuit that you can power your house with when the grid is down, provided of course there's enough juice in your battery and subject to the max discharge rate of your battery. In the case of 2 * Pylontech US2000, that should be 2 * 25A or 2.5kW Plenty to power the base of your house with plus about one heavy appliance at a time like a washing machine or microwave. You can't use kettle / shower / oven / EV charger and the like though My own AC side inverter (Sofar ME3000) is the same. I'm connecting the emergency AC output to a waterproof outside socket. If the grid should go down, I'll connect up a 25m extension reel into my house and connect the essentials onto it People are getting shockingly bad information from what are supposed to be reputable (because SEAI approved) installers
reklamos wrote: » Ok, but for this you need to wire your all house onto backup output and have automatic switch when the power is cut. In other inverters all that stuff is done internally by the inverter.
Northumberland wrote: » I dont think so. As Unkel has already suggested. I already have a manual switch already installed to switch to the 'backup' output from the inverter to connect with my whole house in the event of a grid supply failure. So long as we are careful not to use the electric kettle etc etc, this should be fine to keep the lights and TV going on a dark winters night during a power cut, and we would just have to remember to turn the switch back to 'grid' when the mains came back.
Sir Liamalot wrote: » This contrived problem of not being able to use the power we produce being arguably and controversially solved by storing a lesser percentage of it in a high tech battery with complex electronics rather than offsetting gas and coal-fired utility power plant load... Can we not solve the issue by optimising our array according to load demand instead of pointing everything due South? It'd be simpler, cheaper, a better investment (faster return) and more efficient I think.
garo wrote: » I agree and the solution is net metering which makes it uneconomical to store anything in a battery. It does have a negative impact on the long-term grid health though as net demand drops midday while the evening peak remains the same. So peak generation capacity has to remain the same and since thermal generators have a cost for every stop and start they are keep running during the day even when not needed. See California having problems with so much solar the midday wholesale power prices are zero in the summer. Ireland is nowhere near that so the only things stopping us is the powers that be not doing anything to give us net metering or a FIT.
unkel wrote: » We'll have V2G and hundreds of thousands EVs before there is substantial PV generation in Ireland
Sir Liamalot wrote: » More power is not the same as more usable power. The idea is to synchronise our generators to our loads. Not to produce as much as possible while we are at work.
air wrote: » The government is directed by civil servants and various commercial interest groups and as such it should be no surprise that all policy is shaped to benefit one party or the other (or themselves obviously!) The SEAI stands to maintain or increase it's workforce by continuing with needlessly bureaucracratic grant schemes. This benefits the head of SEAI as he or she is now more secure and head of a bigger organisation, more wage and pension potential. A FIT will potentially reduce profits for energy suppliers and so they will lobby against it. I'm not in the least surprised that no FIT was announced. I seem to recall an EU court case which mandated us to introduce one recently though?
garo wrote: » I really don’t know how you can seriously claim that battery costs have not come down. See this figure from a Bloomberg annual price survey.
Cortina74 wrote: » So, I would imagine I would require a dual MPPT inverter (such as the Solis Dual 3.6kW).
Cortina74 wrote: » Would anyone know if this can take as little as 3/4 panels to a single input? The data sheet says the start up voltage is 120V. Would this be to each input?
Cortina74 wrote: » Would the inverter start/stop a lot during the day with clouds passing etc.?