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Sizing a solar hot water system is not guesswork. It is not "X panels per building" or "Y liters per room." Correct sizing is a thermodynamic and hydraulic calculation based on real demand, temperature lift, available irradiation, and system integration strategy.
A commercial hot water system that is properly sized will work the moment it is installed and will remain stable for years. A poorly sized system will produce complaints, stagnation, pump failures, and ultimately financial loss.
This guide explains how to size solar thermal systems for real commercial facilities—hotels, hospitals, schools, campuses, industrial laundries, and student housing. The goal is not maximum temperature; it is consistent delivery, minimal maintenance, and predictable ROI.
1. Determine the Actual Hot Water Demand
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- Hôtels
- Camps de dortoirs
- Camps de travailleurs
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- Hôpitaux
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The colder the inlet, the more energy you must deliver.
2.2 Define Setpoint
Commercial buildings typically run:
- 45–55°C for guest comfort
- 55–60°C for laundry and kitchens
- 60–70°C for hospitals or disinfection
ΔT = Tsetpoint − Tinlet
Example: Hotel in Greece, inlet 15°C → setpoint 50°C → ΔT = 35°C
3. Calculate Daily Thermal Load
This is the most important formula in commercial solar thermal.
Q (kWh/day) = 1.163 × V (m³) × ΔT
Where:
- 1.163 = specific heat constant of water
- V = daily hot water volume in m³
- ΔT = temperature rise in °C
Example — 70-Room Hotel
Assume:
- 50 L/guest/day
- 70 rooms → 70 guests
- Inlet 12°C → Setpoint 50°C → ΔT = 38°C
Convert L to m³:
3500 L/day → 3.5 m³/day
Q = 1.163 × 3.5 × 38 ≈ 154.7 kWh/day
This is base shower demand only. Add laundry, kitchen, pool → typically +40–100%
If you only know the number of rooms or beds, we can derive the thermal demand range and design scenario.
📧 Send us your numbers—we will calculate for free.
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5. Storage Tank Sizing
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6.1 Irradiation Reference
| Région | Irradiation annuelle |
|---|---|
| Northern EU | 950–1,150 kWh/m²·year |
| cURL Too many subrequests. | 1,400–1,700 kWh/m²·year |
| LATAM | 1,500–2,000 kWh/m²·year |
| MENA | 1,800–2,300 kWh/m²·year |
The difference is 2× annual yield.
6.2 Tilt and Orientation
- Best tilt = local latitude ±10°
- South (Northern Hemisphere) / North (Southern Hemisphere)
- Avoid shading from elevator shafts, chimneys, parapets
A 5% shading = 10–20% real output loss due to temperature cascade.
7. Integrating with Heat Pumps and Boilers
Solar should not deliver the final high-temperature lift. It should deliver preheat or base load.
Correct priority: Solar → Heat Pump → Boiler
Why?
- Solar handles low to medium lift (15–45°C or 20–50°C)
- Heat pump lifts to 55–65°C efficiently
- Boiler tops off extreme peaks
This reduces:
- Compressor workload
- Start-stop cycling
- Emergency fuel spikes
8. Case Study: 80-Room Hotel (Reliable Realistic Model)
Parameters
- 80 rooms, avg. 90% occupancy seasonally
- 50 L/guest/day = 3600 L/day
- Inlet 15°C, Setpoint 50°C → ΔT = 35°C
Q = 1.163 × 3.6 × 35 ≈ 146.5 kWh/day
Assume 70% SF (solar fraction):
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❌ No tank temperature stratification
→ System becomes a big kettle with zero optimization.
We Design Based on Your Real Load
Do not buy collectors based on photos or catalogs. Solar thermal is not decorative; it is a financial tool.
Send us 5 numbers:
- ✓ Building type
- ✓ Room count / beds / laundry capacity
- ✓ Daily DHW volume (if known)
- ✓ Inlet temperature region or city
- ✓ Energy source (electric / gas / diesel)
We will return:
→ Collector area
→ Storage strategy
→ Integration plan (HP / Boiler)
→ Annual solar coverage
→ Realistic payback
We design systems that run 365 days,
not seasonal marketing prototypes.
Summary
Sizing a commercial solar hot water system correctly requires engineering discipline, not marketing promises. The process is straightforward:
- Calculate real DHW demand based on user profiles
- Define inlet and setpoint temperatures to determine ΔT
- Use thermal load formula: Q = 1.163 × V × ΔT
- Convert to collector area based on solar fraction and climate
- Size storage tanks to bridge supply-demand gaps
- Integrate properly with heat pumps and backup systems
- Account for orientation, shading, and seasonal variations
A properly sized system will deliver consistent performance, minimal maintenance, and predictable ROI. An improperly sized system will generate complaints, failures, and financial losses.
The difference between success and failure is not the product—it's the engineering. Work with professionals who calculate, not estimate. Work with manufacturers who design systems, not sell components.
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