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Engineering Laboratory /Building Energy & Environment Division

Indoor Air Quality and Ventilation Group

The Indoor Air Quality and Ventilation Group develops computer simulation programs and measurement procedures and applies them to better understand the phenomena of air and contaminant transport in buildings and to support industry efforts to improve indoor conditions in buildings in a cost-effective manner. The results of this research are providing reliable methods and to evaluate ventilation characteristics and indoor pollutant concentrations

The modeling efforts include the development and application of multizone airflow and indoor air quality models, specifically the CONTAM series which predicts airflows and contaminant concentrations in multizone building systems. CONTAM is based on a graphic interface that allows the user to draw floor plans on a "sketchpad" and employ "icons" to represent airflow paths, ventilation system components, and contaminant sources. CONTAM has been used at NIST to study the indoor air quality impacts of HVAC systems in single-family residential buildings, ventilation in large mechanically-ventilated office buildings, and radon entry and transport in large residential, office, and school buildings.

Measurement procedures are being developed and demonstrated to evaluate building ventilation and indoor pollutant concentrations. These procedures range from sophisticated tracer gas methods used predominantly in building research efforts to less involved procedures that can be employed by building operators. NIST researchers are continually developing new test procedures, and then demonstrating them in the field to evaluate their feasibility and reliability. The efforts in which these procedures are demonstrated in the field has resulted in the development of an important database of building ventilation and indoor air quality performance.

Staff Directory

 

bfrl portable generator video

How Close isToo Close forPortable Generators?(NIST YouTube channel)
 

News and Updates

Projects and Programs

NIST researcher setting up air cleaner experiments in large stainless steel environmental chamber

Contaminant Control in High-Performance Buildings

Ongoing
Objective To better understand how strategies to achieve resilient buildings will impact chemical reactions, rates, and concentrations of high-priority indoor air contaminants. To develop test methods and building control strategies to reduce chemical levels in low-energy buildings, and to enable

Premise Plumbing Systems for High-Performance Buildings

Ongoing
Objective To develop new measurement methods, modeling approaches, and data to support improvements in building plumbing design, utility consumption, and water quality. The results of these efforts are intended to support standards development and industry programs to advance innovative technology
L researcher Steven Emmerich adjusts a multi-gas analyzer that will measure carbon monoxide, oxygen, carbon dioxide and hydrocarbons concentrations produced by such a generator located, against safety advice, in a garage.

Ventilation and Indoor Air Quality in Low-Energy Buildings

Ongoing
Objective: To develop tools to define and verify high-performance indoor air quality in low-energy buildings and data needed to improve the effectiveness of high-performance building standards and programs. What is the new technical idea? The ASHRAE Position Document on Indoor Air Quality (ASHRAE
CO2 Estimate

Ventilation Performance for Novel Sustainability and Resilience Challenges

Ongoing
Objective: To develop tools, metrics, and data to enable sustainable, resilient, high-performance building and ventilation system design and operation in response to current and future challenges. Also, to develop a methodology to evaluate potential changes to ventilation and IAQ standards so their

Publications

Product ion distributions using H3O+ proton-transfer-reaction time-of-flight mass spectrometry (PTR-ToF-MS): mechanisms, transmission effects, and instrument-to-instrument variability

Author(s)
Michael Link, Megan Claflin, Christina Cecelski, Ayomide Akande, Delany Kilgour, Paul Heine, Matthew Coggon, Chelsea Stockwell, Andrew Jensen, Jie Yu, Han Huyhn, Jenna Ditto, Carnsten Warneke, William Dresser, Keighan Gemmell, Spiro Jorga, Rileigh Robertson, Joost de Gouw, Timothy Bertram, Jonathan Abbatt, Nadine Borduas-Dedekind, Dustin Poppendieck
Proton-transfer-reaction mass spectrometry (PTR-MS) using hydronium ion (H3O+) ionization is widely used for the measurement of volatile organic compounds (VOCs

Software

CO2

Quick Indoor CO2 (QICO2) Tool

This tool is used for implementing the CO 2 concentration calculations. After providing the relevant inputs, or selecting from a number of predefined cases, the

LoopDA

LoopDA is a natural ventilation design tool developed by the National Institute of Standards and Technology. Version 3.0 is an update to the original version 1

Awards

Product and Services

Multizone Modeling

Contacts