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Waarskuwing: Resultate is by benadering, dit word aanbeveel om te controleert met verkope verteenwoordiger en bekragtig jou installasie voor die aankoop van materiaal.
Hier is ons op soek na die krag (piek, uitgedruk in W) van sonkrag panele gemonteer word om te voldoen aan jou behoeftes volgens jou geografiese ligging. Die formule is soos volg :
Pp = Dn / (Yb X Yi X Rd)
In jou geval, is die resultaat is :
Pp = 240 / (0.85 * 0.87 * 0.95022) = 342 W
Fotovoltaïese panele produseer elektrisiteit van die son (die son).
Volgens aangegaan data,342W van die sonpaneel is nodig om te voldoen aan jou daaglikse behoeftes van 240Wh/d.
Sien, verstaan die proses, die berekening
Een moontlikheid kan wees om1paneel(s)monocristalinvan360Welke (?). Wat die uitbreiding van die eenheid kapasiteit om 360W
We are looking here for the nominal capacity expressed in ampere per hour (Ah, given in C10)
Cap = (Dn x Aut) / (DD x U)
In jou geval, is die resultaat is :
Cap = (240 x 3) / (0.3 x 12) = 200 Ah
Batteries are used to store electric energy produced by the panels. You will need a battery plant of 200 Ah at 12 V.
Sien, verstaan die proses, die berekening
A wiring hypothesis would be to have 1> GEL 12V 250Ah type batteries, which increases the plant capacity up to 250Ah
The charge controller stands between batteries and panels, its role is to handle batteries charge depending on what the panels can provide.
A bedrading hipotese sou wees om'nMPTT 250/65tipe charge controller(?) wat sou verbind word 1 paneel
'n tipeMPTT 250/65 beheer kontroles, met'n12Vbattery plant, kan :
Let wel: serialisasie vermeerder spanning (V) en parallel met vermeerder die intensiteit (I)
Al hierdie eienskappe is beskikbaar in die produk se tegniese vel. Jy kan aanpas om jou charge controller eienskappe in Uitvoer af.
'n bedradingsdiagram gestig is volgens die paneel/charge controller/battery hipotese :
Die converter te hê doel is om te transformeer batterye DC huidige (hier 12V) in AC huidige bruikbaar vir die standaard toestelle. Wat jy nodig het'n converter in staat is om te lewer 10W max elektriese krag wat jy nodig het.
'n hipotese sou wees om'n van te kies 12/180 tipe converter wat gaan tot 175W max power met moontlike pieke by 350W.
Dit word aanbeveel om'n battery controleur in orde om te gaan battery plant beheer staat.
Draad afdeling keuse(bereken)is belangrik ten einde te verhoed dat elektrisiteit lossess :
The formula to calculate the wire section in order to avoid loss is :
S = Rho x L x I / VL
In our case it gives :
S = 0.019 x (8x2) x 10 / 0.47 = 6.47mm²
The formula to calculate the wire section in order to avoid loss is :
S = Rho x L x I / VL
In our case it gives :
S = 0.019 x (1x2) x (360 / 12) / 0.12 = 14.25mm²
Another and more complete wire section calculator is avalaible at sigma-tec.
_('This is an approximate estimation for new equipment, it can\'t be considered as a quote.') ?>
Which brings to a total budget between 1717 and 2206€. Cost of panels support, wire, wire terminal and protection elements (fuse, battery cut-off, ...) is not included.
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