Q2- volage=120V. The days of autonomy=12 day. The total daily load=34AH/day. For PV /Battery Stand-Alone System, the system nominal 1- Find the battery capacity. Hinit: take capacity to be 1.5 of calculated value. 2- For PV panel of Vmpp=24V and Impp=6.1A, A:L=1.5, sun hours(SH=4h) and efficiency of system=70%. a-Find the number of PV panels for each string(N,). b- Find the number of strings (Np). c- Find the total number of PV panels used.
Q2- volage=120V. The days of autonomy=12 day. The total daily load=34AH/day. For PV /Battery Stand-Alone System, the system nominal 1- Find the battery capacity. Hinit: take capacity to be 1.5 of calculated value. 2- For PV panel of Vmpp=24V and Impp=6.1A, A:L=1.5, sun hours(SH=4h) and efficiency of system=70%. a-Find the number of PV panels for each string(N,). b- Find the number of strings (Np). c- Find the total number of PV panels used.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Q2 For PV /Battery Stand-Alone System, the system nominal volage=120V. The days of autonomy=12 day. The total daily load=34Ah/day. 1- Find the battery capacity. Hinit: take capacity to be 1.5 of calculated value. 2- For PV panel of V.up=24V and Lugy=6.1A, A:1L=1.5, sun hours(SH=4h) and efficiency of system=70%. a-Find the number of PV panels for each string(N.). b- Find the number of strings (Ny). ¢- Find the total number of PV panels used.
Transcribed Image Text:Q2- For PV /Battery Stand-Alone System, the system nominal
volage=120V. The days of autonomy=12 day. The total daily
load=34AH/day.
1- Find the battery capacity.
Hinit: take capacity to be 1.5 of calculated value.
2- For PV panel of V mpp=24V and Impp=6.1A, A:L=1.5, sun hours(SH=4h)
and efficiency of system=70%.
a-Find the number of PV panels for each string(N,).
b- Find the number of strings (Np).
c- Find the total number of PV panels used.
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