Indoor Air Quality Monitoring for Indian Buildings — ASHRAE 62.1 + WELL v2 + IGBC + NABH

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Indoor Air Quality Monitoring for Indian Buildings — ASHRAE 62.1 + WELL v2 + IGBC + NABH

By MEPVAULT Editorial Team · MEP Consultant · HVAC / Sustainability · 11 May 2026

Reading time ~ 9 min · Originally published: 05 May 2026 · Last revised: 11 May 2026

For a 30,000 m² Delhi office in November, outdoor PM2.5 routinely exceeds 200 µg/m³. WELL v2 Air demands indoor ≤ 12 µg/m³ on 24-hour average. The gap is closed by 93 ceiling-mounted CO₂ + PM2.5/10 + TVOC + T/RH sensor packs feeding BACnet/IP to the BMS, driving DCV + PM-spike response + TVOC flush logic. Capex ₹19 lakh — picks up max WELL Air points + IGBC EQ-2 + AHRI compliance.

Why IAQ monitoring matters for Indian commercial + healthcare

For a 30,000 m² office in Delhi during November (post-monsoon, pre-winter when ambient PM2.5 exceeds 200 µg/m³), the gap between outdoor and indoor air quality determines whether occupants get sick. ASHRAE 62.1-2022, WELL v2, IGBC EQ-2, and NABH HIC.6 all set thresholds — and a real-time monitoring stack lets the BMS respond before complaints reach HR.

// FIG · MEPVAULT Indoor air quality thresholds — ASHRAE 62.1, WELL v2, IGBC, NABH 0.0 220.0 440.0 660.0 880.0 1100.0 Concentration 700 800 1000 700 CO₂ (ppm above outdoor) 15 12 15 10 PM2.5 (µg/m³ 24-hr) 50 35 50 30 PM10 (µg/m³ 24-hr) 500 500 500 300 TVOC (µg/m³) ASHRAE 62.1 WELL v2 Air IGBC EQ-2 NABH HIC.6 (hospital) SOURCE: ASHRAE 62.1-2022 §6; WELL Standard v2 Air feature; IGBC EQ-2; NABH HIC.6 · plotted 2026-05-11

What to monitor + where

Parameter ASHRAE 62.1 threshold WELL v2 threshold Sensor type + accuracy Indian sensor cost ₹/point
CO₂ ≤ outdoor + 700 ppm ≤ 800 ppm peak NDIR ± 30 ppm 12,000-18,000
PM2.5 ≤ 15 µg/m³ (24-hr avg) ≤ 12 µg/m³ Laser scattering ± 10 % 22,000-35,000
PM10 ≤ 50 µg/m³ ≤ 35 µg/m³ Laser scattering ± 10 % same sensor as PM2.5
TVOC ≤ 500 µg/m³ ≤ 500 µg/m³ MOS or PID ± 15 % 18,000-28,000
Formaldehyde (HCHO) ≤ 27 µg/m³ Electrochemical ± 20 % 25,000-40,000
Ozone (O₃) ≤ 100 µg/m³ Electrochemical ± 15 % 22,000-35,000
Radon (where applicable) ≤ 4 pCi/L same Alpha track + electronic 30,000-45,000
Temperature + RH 22-26 °C, 30-60 % same RTD + capacitive 3,000-5,000

A 30,000 m² Delhi office — IAQ monitoring stack architecture

Zone type Sensor density Total sensors Capex (₹ lakh) BMS integration
Open office (300 m² avg) 1 sensor pack / zone 60 12.5 BACnet/IP
Conference rooms (15 nos) 1 sensor pack each 15 3.2 BACnet/IP
Cabin offices (40 nos) grouped (1 per 4 cabins) 10 1.8 BACnet/IP
Corridors + circulation 1 per floor at AHU return 6 0.9 BACnet/IP
Outdoor reference 2 (one per OA intake) 2 0.6 MQTT to cloud
Total 93 19.0

Sensor pack = CO₂ + PM2.5/10 + TVOC + T/RH in a single ceiling-mounted unit. The cumulative capex on this 30,000 m² office runs ₹19 lakh for 93 sensor points + BMS integration. Sounds high, but the building delivers WELL v2 Air score 8 points (max) + IGBC EQ-2 max + AHRI 1230 IAQ compliance — material for a Platinum-tier sustainability submission worth ₹30-50 Cr in building valuation.

Control loop integration — what BMS does with the data

  1. DCV (Demand-Controlled Ventilation) — modulate AHU OA damper from 0.5 ACH minimum to 4 ACH based on CO₂ trend. Saves ~22 % cooling energy in low-occupancy periods.
  2. PM2.5 spike response — when outdoor PM2.5 > 100 µg/m³, BMS lowers OA fraction to 10 % + increases recirculation. Indoor PM2.5 stays < 25 µg/m³ even when Delhi outdoor hits 400 µg/m³.
  3. TVOC alarm + ventilation purge — > 500 µg/m³ triggers 30-minute 100 %-OA flush. Standard during deep-cleaning chemical use.
  4. Trend logging + monthly reports — IAQ dashboard for facility manager + WELL re-certification + IGBC operations data. Five-year archival.
  5. Alert thresholds + escalation — yellow at 80 % of code threshold, red at 100 %. Auto-email to facility manager + WhatsApp on red.

What goes wrong on Indian projects — three patterns we audit every quarter

  • Sensors over-specified at concept stage (every cabin gets one) then 50 % deleted at value engineering. Result: zones with no IAQ data. Fix: design sensor density at zone level not room level.
  • BMS integration paid for but never commissioned — sensors stream MQTT, but no DCV setpoint logic written. Indoor CO₂ stays at 1,100 ppm because there is no control loop. Always include commissioning + 90-day tuning in the BoQ.
  • Outdoor reference sensor placed inside the building shaft — measures plenum air, not actual ambient. Place outdoor sensor on a north-facing façade or rooftop weather mast.

References

  1. ASHRAE Standard 62.1-2022 — Ventilation for Acceptable Indoor Air Quality (§6 IAQ Procedure), ASHRAE Atlanta.
  2. WELL Building Standard v2 — Air Concept Features 01-04, International WELL Building Institute 2024.
  3. IGBC Green New Buildings v3.0 — EQ-2 Indoor Environmental Quality Monitoring.
  4. NABH Accreditation Standards 5th Edition — HIC.6 Hospital Infection Control (IAQ requirements).
  5. ISO 16000-29:2014 — Indoor Air — Test Methods for VOCs and Aldehydes.
  6. ASTM D6245-18 — Standard Guide for Using Indoor CO₂ Concentrations.
  7. CPCB National Air Quality Index — Indian National AQI methodology + thresholds.
  8. EPA IAQ Building Education and Assessment Model (I-BEAM) 2008.

// About the Authors

MEPVAULT Editorial Team — A team of practising MEP consultants based in India. ISHRAE-affiliated; FSAI-aligned.

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