Differences
This shows you the differences between two versions of the page.
| Both sides previous revision Previous revision Next revision | Previous revision | ||
|
faq:from_pv_inverter_to_energy_storage_inverter [2019/01/09 21:42] admin |
faq:from_pv_inverter_to_energy_storage_inverter [2020/09/16 21:41] (current) |
||
|---|---|---|---|
| Line 7: | Line 7: | ||
| Once upon a time the high price of PV panels is an obstacle but thanks to the Chinese PV panel manufacturers' | Once upon a time the high price of PV panels is an obstacle but thanks to the Chinese PV panel manufacturers' | ||
| - | The only problem is the sun. | + | The only problem is the sun. Once the electric companies accepts users to feed back the extra power that generated by PV system but not consumed at site. but in the noon, there are too much more power generated than consumption, |
| + | |||
| + | So modern PV plans are mostly considered as non-export plan. | ||
| - | The electric companies are tied of net metering. there are | ||
| ===== Difference between PV + ESS and PV ===== | ===== Difference between PV + ESS and PV ===== | ||
| - | A grid tied PV system is a passive system, before CA rule 21 and HECO rule 14H, the PV system | + | A grid-tied PV system is a passive system, before CA rule 21 and HECO rule 14H, the PV inverters always generate as much power as they can output. even after CA rule 21 and HECO rule 14H, the smart PV inverters has to support reactive power when the grid needs support, the PV system |
| + | |||
| + | But in a grid-tied PV+ESS system, there must be a controller, aka EMS, to intelligently dispatch the power flow at the sites. | ||
| + | |||
| + | The EMS must know how much power is being generated, how much power is being consumed behind the meter, to calculate how much power can, and should be stored in battery. and the EMS shall always have their algorithm to calculate when to discharge, how much to discharge, focused on optimizing the energy usage. | ||