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--- opinion:solar:sizing [2023/10/22 11:32]
frater_secessus [solar panels]
+++ opinion:solar:sizing [2024/09/26 12:55] (current)
frater_secessus [battery bank]
@@ Line 25: / Line 25: @@
 Once you know your daily power and reserve requirements you can spec out a battery  bank.  The capacity and chemistry of the bank will drive much of the charging section below.
-Broadly speaking, lithium chemistries are most cost-effective when the camping experience is expected to last for many years and the batteries stored inside.((Note that it is false economy to pay for 10 years of battery cycling (as with lithium) if one is going to wreck it in 2 years)).  For shorter projects (traveling around the country for  ≤3 years) in an RV with exterior battery trays the standard T-105 style FLA bank((like 2x 6v Trojan T-105 batts in series for 12v)) may be more cost-effective.  For very short installations ( ≤1 year) marginal batteries found at walmart may be fine. I encourage people to do the //$/kWh math for the situation// rather than relying on the latest trends or loudest voices. Horses for courses.
+Having an **undersized bank** means //running out of power// at night or [[electrical:12v:battery_capacity|limits on charging current]]. Sitting in the dark at night with no fan is less fun than it sounds.
-Having an **undersized bank** means //running out of power// at night.  Sitting in the dark at night with no fan.
+Having an **oversized lead bank** for your charging ability results in [[electrical:batterycide|battery murder]] and early replacement.  Because lead batteries need frequent and full charging, it may be better in the long run an "undersized" bank you can charge rather than a bigger bank you cannot.
-Having an **oversized lead bank** for your charging ability results in [[electrical:batterycide|battery murder]] and replacement.  Having an **oversized lithium bank** is $$$ and can strain the alternator if [[electrical:12v:b2b|a current-limiting isolator]] isn't used.
+Having an **oversized lithium bank** is $$$ and can [[electrical:12v:alternator_details#current|strain the alternator]] if [[electrical:12v:b2b|a DC-DC charger]] or other [[electrical:12v:directcharginglfp#tweaking_current_with_resistance|current-limiting approaches]] are not taken.((this can also happen with large lead banks))
-IMO, with lead chemistries((flooded, agm, gel)) it is better to have an undersized bank you can charge //fully and consistently// rather than a bigger bank you cannot charge.
@@ Line 38: / Line 37: @@
 You will **need somewhat more Ah capacity**
-      * if you have undersized solar
+      * if you have undersized solar (lithium banks only)
-      * you have lead-chemistry battery bank
+      * you have lead-chemistry battery bank (50% usable capacity rather than 80% usable)
+      * if charging is time-limited and you want maximal harvest from the alternator, shore, or other high-current charging source.  **Example: ** If battery specs say you can constant-charge at [[electrical:12v:battery_capacity|0.2C]] (20A per 100Ah of capacity) then((all other things being equal)) a 100Ah bank could take 20A, 200Ah could take 40A, and 300Ah could take 60A.
 You will need **somewhat less Ah capacity**
@@ Line 45: / Line 45: @@
     * if you run loads in the daytime instead of at night
     * if you have [[electrical:solar:overpaneling|oversized solar]]
+    * if you drive often and have [[electrical:12v:alternator|altenator charging]]
     * you have lithium-chemistry battery bank((can be ~0.62% the size of the lead bank, due to deeper [[electrical:depth_of_discharge|DoD]].))
@@ Line 62: / Line 63: @@
 You will **need somewhat more solar**
-    * if you live in an area with relatively little sun, like the American Northwest.
+    * if you live in an area with relatively little sun, like the American Northwest, Northern Europe, etc.
     * if you want to run more [[electrical:12v:loads|loads]]
     * if you live offgrid full time (FT) or spend long periods [[camping:dispersed|boondocking]]
@@ Line 88: / Line 89: @@
   * overall efficiency of the solar setup (we can ballpark 85% for MPPT setups, 70% for PWM)
   * [[electrical:solar:pvwatts|average insolation sun power available at the time/place]];  in the northern hemisphere full-timers base this on December since it's the lowest-yield month.  For part-timers, it will be the month of lowest insolation you will camp in.
-  * minimum charging current requirements, if solar is the sole charging source (we can ballpark 0.2C for AGM and 0.1C for FLA)
+  * the contribution of any other charging sources
+  * minimum charging current requirements, if any.   (we can ballpark 0.2C for AGM and 0.1C for FLA.  Lithium has no minimums)
 Let's assume a 200Ah AGM bank depleted to 50% SoC, wintering in [[camping:snowbirding:quartzsite|Quartzsite]] with an MPPT-based solar config and flat-mounted panels.

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