This guide provides a step-by-step battery bank sizing methodology used by professional solar engineers. Includes worksheets for both off-grid homes and hybrid grid-tie systems.
The Four Sizing Variables
- Daily consumption (Wh): Total energy used per day from all appliances
- System voltage: 12V, 24V, or 48V DC bus voltage
- Depth of discharge: How much capacity you use each cycle
- Days of autonomy: How many days the bank must supply power without solar input
Step 1: Calculate Daily Wh
Use an electricity meter or estimate from appliance nameplates:
- LED lighting (home, 10 x 10W, 5 hrs/day): 500Wh
- Refrigerator (A+ rated, 150W, 24hrs x 0.35 duty): 1,260Wh
- TV and entertainment: 300Wh
- Pumps and fans: 400Wh
- Mobile and laptop charging: 200Wh
- Total daily: 2,660Wh
Step 2: Battery Bank Ah
Bank Ah = (Daily Wh x Autonomy) / (System Voltage x DoD x 0.95)
Example: 48V system, 2,660Wh/day, 1-day autonomy, 80% DoD:
Bank Ah = (2660 x 1) / (48 x 0.80 x 0.95) = 69.3Ah
Use 4x CHISEN OPzV2-200 = 48V 200Ah (allows 3.2 days full backup)
Step 3: Solar Panel Oversizing
Design solar array to fully recharge the battery in 1 good day:
Panel Wp = (Daily Wh) / (Sun hours) x 1.3 (derating factor)
Example: 2,660Wh, 4 peak sun hours: (2660/4) x 1.3 = 865Wp minimum
Recommended: 1,200–1,500Wp panels for 48V 200Ah battery bank
Off-Grid vs Hybrid Sizing
- Off-grid: Size for 2–3 days autonomy. Higher battery cost, complete independence.
- Hybrid: Size for 1 day. Lower battery cost. Grid provides backup for extended cloudy periods.
Get a Free Battery Sizing Proposal
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