Grootte van kragopwekkers by Application
Correct generator sizing is critical for reliability, doeltreffendheid, and code compliance.
Undersizing causes overload; oversizing wastes capital. This hub provides application-specific sizing guides.
| Toepassing | Typical Power | Key Factor |
|---|---|---|
| Hospital/Medical | 500kW-2000kW | N+1 redundancy |
| Datasentrum | 1000kW-5000kW | 2N redundant |
| Vervaardiging | 200kW-1500kW | Motor begin |
| Konstruksie | 50kW-500kW | Draagbaar |
| Mynbou | 500kW-3000kW | Altitude derating |
The 5-Step Sizing Process
- Load Inventory: List all electrical loads with starting kVA
- Apply Diversity Factor: Not all loads run simultaneously (0.7-0.9)
- Select Power Rating: Prime vs Standby vs Continuous
- Apply Derating: Hoogte, temperatuur, humidity corrections
- Add Margin: 10-20% future expansion
Algemene grootte foute
- Matching nameplate: Motors have 6-8x inrush, requiring 3x generator kVA
- Ignoring Kragfaktor: Low PF (0.6) requires larger generator
- No redundancy: Critical apps need N+1 (hospitaal, datasentrum)
- Skipping derating: High altitude requires 3-5% power reduction per 300m
For a personalized sizing analysis, kontak ons ingenieurspan.
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💡 Need a customized solution? Contact our engineering team for project-specific recommendations.
