DG Set Sizing for Indian Buildings — Practical Guide

Electrical

DG Set Sizing for Indian Buildings — A Practical Guide

Despite the improvement in grid reliability across major Indian cities, a diesel generator set (DG) remains essential backup power infrastructure for all commercial, institutional, and hospitality buildings. Incorrect DG sizing is common — oversized DGs waste capital and run inefficiently at low load (wet-stacking, high fuel consumption), while undersized DGs trip under load and fail when most needed.

1. DG Set Rating — kVA vs kW

DG sets are rated in kVA (apparent power). The relationship to kW (real power) depends on power factor:

kW = kVA × Power Factor (typically 0.8 for DG output)

A 500 kVA DG can supply 500 × 0.8 = 400 kW of real power at 0.8 power factor. The building’s actual connected load power factor (typically 0.85–0.90 with capacitor banks) may be different — always calculate kVA demand.

2. Load Assessment Methodology

Step 1 — Critical vs Total Load

Load Category	Examples	DG Required?
Essential (life safety)	Fire pumps, emergency lighting, lift (one)	Yes — must run within 10 seconds
Critical (business continuity)	Data servers, ICU equipment, POS systems	Yes — UPS + DG
Important (operations)	HVAC, kitchen, guest lifts	Yes — DG within 30–60 sec
Non-essential	Decorative lighting, non-critical equipment	No — load shed during DG operation

Step 2 — Calculate Maximum Demand on DG

List all loads that will run simultaneously on DG supply
Apply demand factor: fraction of connected load operating at any one time
Typical demand factors: HVAC 0.7–0.85, lighting 0.6–0.8, lifts 0.5–0.6, general power 0.5–0.7
Sum the demands: total kW demand
Convert to kVA: kVA = kW / power factor (use 0.85 for mixed load)
Add 20–25% margin for future load growth and efficient DG operation

Step 3 — Motor Starting Current

The largest motor starting load (typically the biggest HVAC motor — chiller, AHU, or pump) draws 5–7× running current for 2–8 seconds during starting. The DG must handle this without voltage dip exceeding 15% or frequency drop exceeding 2 Hz.

Soft starters and VFDs dramatically reduce motor starting current — specify for all motors >7.5 kW on DG circuits
If starting all HVAC together after DG start: sequence start delays (15–30 seconds between each large motor)

3. Sizing Example — 200-Room Hotel, Delhi

Load Group	Connected kW	Demand Factor	Demand kW
HVAC (chillers, AHUs, FCUs)	380 kW	0.75	285 kW
Lighting (all areas)	120 kW	0.65	78 kW
Elevators (8 nos.)	80 kW	0.55	44 kW
Kitchen equipment	200 kW	0.60	120 kW
Laundry	80 kW	0.70	56 kW
General power / sockets	100 kW	0.50	50 kW
Fire pumps (standby — jockey only)	15 kW	0.30	4.5 kW
Total demand	—	—	637.5 kW
With 20% margin	—	—	765 kW
kVA (PF = 0.85)	—	—	900 kVA
DG selection	—	—	1000 kVA (next standard size)

4. AMF Panel Requirements

AMF (Automatic Mains Failure) panel detects mains failure and starts DG within 10 seconds
Change-over time: NBC Part 9 Clause 8.3 — emergency lighting within 5 seconds, other loads 10–30 seconds
ATS (Automatic Transfer Switch): rated for full DG kVA, 4-pole switching (neutral switching essential for floating neutral systems)
Interlocking: mains and DG cannot be connected simultaneously — prevent back-feeding
Load shedding relay: automatically disconnects non-essential loads when DG starts — prevent overload

5. Indian DG Brands and CPCB Norms

Brand	Range	CPCB Compliance	Notes
Kirloskar Green	25–3000 kVA	CPCB II	Market leader India — very good service
Mahindra Powerol	25–2000 kVA	CPCB II	Strong after-sales, widely available
Cummins India	35–2750 kVA	CPCB II	Premium — excellent for critical installations
Caterpillar (GMMCO)	22–3500 kVA	CPCB II	Premium — data centres, hospitals
Jakson Power	62.5–3000 kVA	CPCB II	Good value, strong North India

Note: CPCB II emission norms are mandatory for all DG sets above 800 kW in India. Below 800 kW, CPCB II is widely adopted. Ensure emission certificate accompanies supply.

// from the field — engineer’s notebook

From the Field — DG Set Sizing Mistakes Common in Indian Hotel and Office Projects

The most expensive DG sizing mistake I see repeatedly on Indian projects is using the connected load × diversity factor shortcut to land at kVA, without engaging the genset’s transient-step kW capacity. On a 380-room business hotel in Mumbai, the original 1,250 kVA Cummins QSK19 was sized correctly on running-load grounds (940 kW running on 1,000 kW prime rating) but failed two consecutive black-start tests when the fire pump (110 kW VFD-bypass start) and one chiller (185 kW DOL — yes, DOL — start, vintage panel design) were sequenced within the standard 90-second auto-load-pickup window. The voltage dip exceeded the genset’s BS5514 / ISO 8528 G2 governor recovery limit and dropped the BMS UPS.

The fix was a combination of (a) re-staging the fire-pump start to T+120s instead of T+45s, (b) retrofitting a star-delta starter on the DOL chiller, and (c) up-sizing the genset to a 1,500 kVA prime-rated unit. The overall lesson: cross-check three numbers on every DG sizing exercise — running kW, transient step kW (the largest single starter), and harmonic kVA loading from VFDs (THDi target ≤ 8% per IEEE 519). The MEPVAULT DG sizing template flags all three on a single sheet — a 30-second check that has prevented multiple commissioning surprises across our project portfolio.