Find the standard you are looking for at Engineering360. Documents are available for purchase from the IHS Standards Store.

1 - 20 of 127 results

ASHRAE - 4721 - INDOOR HUMIDITY MODELING AND EVALUATION OF CONDENSATION ON INTERIOR SURFACES Organization: ASHRAE
Date: 2004-01-01
ASHRAE - QC-06-016 - AN INTEGRATED ZONAL MODEL TO PREDICT TRANSIENT INDOOR HUMIDITY DISTRIBUTION Organization: ASHRAE
Date: 2006-01-01
ASHRAE - 3952 - INDOOR HUMIDITY AND HUMAN HEALTH: PART II - BUILDINGS AND THEIR SYSTEMS Organization: ASHRAE
Date: 1996-01-01
ASHRAE - 3951 - INDOOR HUMIDITY AND HUMAN HEALTH - PART I: LITERATURE REVIEW OF HEALTH EFFECTS OF HUMIDITY-INFLUENCED INDOOR POLLUTANTS Organization: ASHRAE
Date: 1996-01-01
ASHRAE - 4070 - STUDY OF CONTROL STRATEGY USING OUTDOOR AIR TO REDUCE WINTER INDOOR HUMIDITY IN TAIWANESE APARTMENTS - DEMONSTRATED BY VENTILATION DESIGN FOR A BATHROOM Organization: ASHRAE
Date: 1997-01-01
ASHRAE - 4747 - NEURAL-BASED AIR-HANDLING UNIT FOR INDOOR RELATIVE HUMIDITY AND TEMPERATURE CONTROL Organization: ASHRAE
Date: 2005-01-01
Description: Humidity is an important factor contributing to one 's thermal sensation and comfort. It also affects one's perception of the air quality.
ASHRAE - NA-04-8-4 - PREDICTING INDOOR TEMPERATURE AND HUMIDITY CONDITIONS INCLUDING HYGROTHERMAL INTERACTIONS WITH THE BUILDING ENVELOPE Organization: ASHRAE
Date: 2004-01-01
ASHRAE - AB-10-010 - TIGHT HUMIDITY CONTROL FOR FLEXIBLE APPLICATIONS Organization: ASHRAE
Date: 2010-01-01
Description: With the advances in simulation programs which permit detailed analysis of the indoor environment, the individual elements necessary for the creation of a comfortable indoor climate can be analyzed and optimized.
ASHRAE STD 62 - VENTILATION FOR ACCEPTABLE INDOOR AIR QUALITY - ADDENDAS T, U AND V: 01/12/02; ADDENDUMS K AND O: 06/27/02; ERRATA: 10/02/2002; ADDENDUMS R, Z, AD, AND AF: 01/30/03; ADDENDUMS X AND AE: 07/03/03;ERRATA: 07/17/03; ADDENDUMS H AND N 6/28/2003; ADDENDUM Y AND AA : 08/05/04 Organization: ASHRAE
Date: 2001-01-01
Description: Acceptable indoor air quality may not be achieved in all buildings meeting the requirements of this standard for one or more of the following reasons: (a) because of the diversity of sources and contaminants in indoor air; (b) because of the many other factors that may affect occupant perception and acceptance of indoor air quality, such as air temperature, humidity, noise, lighting, and psychological stress; and (c) because of the range of susceptibility in the population.
DSF/ISO/FDIS 16000-4 - INDOOR AIR - PART 4: DETERMINATION OF FORMALDEHYDE - DIFFUSIVE SAMPLING METHOD Organization: DS
Description: The method is suitable for measurements in atmospheres with conventional indoor air relative humidity and for monitoring at air velocities as low as 0,02 m/s.
DS/ISO 16000-4 - INDOOR AIR - PART 4: DETERMINATION OF FORMALDEHYDE - DIFFUSIVE SAMPLING METHOD Organization: DS
Date: 2013-01-23
Description: The method is suitable for measurements in atmospheres with conventional indoor air relative humidity and for monitoring at air velocities as low as 0,02 m/s.
BRE BR450 - A PROTOCOL FOR THE ASSESSMENT OF INDOOR AIR QUALITY - D CRUMP, GJ RAW, S UPTON, C SCIVYER, C HUNTER AND R HARTLESS Organization: BRE
Date: 2002-10-28
Description: The aim is for this report to be used as guidance by specialists undertaking an IAQ assessment and by building owners/managers concerned about indoor air quality. The key parameters identified are temperature, humidity, non-biological particles and fibres, biological particles, radon, other inorganic gases, organic compounds and gases associated with landfill sites (eg methane).
BRE BR477 - VENTILATION, AIR TIGHTNESS AND INDOOR AIR QUALITY IN NEW HOMES - C DIMITRILOUPOLOU, D CRUMP, S K D COWARD, V BROWN, R SQUIRE, H MANN, M WHITE, B PIERCE AND D ROSS Organization: BRE
Date: 2005-03-04
Description: This involved a winter (January–March 2003) and summer (June–August 2003) period of sampling in five homes selected on the basis of high relative humidity, high indoor air pollutant concentrations and low ventilation rates.
ASHRAE - LO-09-087 - INDOOR MOISTURE IN 30 HOMES USING UNVENTED GAS FIREPLACES Organization: ASHRAE
Date: 2009-01-01
Description: Since unvented gas fireplaces release all combustion products into the home this means that a substantial amount of moisture is added to the indoor air during fireplace operation. An analysis of the indoor moisture levels in 30 homes using unvented gas fireplaces was performed using measurements from multiple locations in each home.
ESDU TM 180 - MODELLING OF VENTILATION FOR THERMAL COMFORT AND INDOOR AIR QUALITY Organization: ESDU
Date: 2015-03-01
Description: Theoretical modelling of ventilation, including zone and field methodologies, is included, with pointers to best practice guidelines for computational modelling. Heat transfer mechanisms, humidity, condensation, jets and plumes are also described and explained.
ISO 16000-4 - INDOOR AIR — PART 4: DETERMINATION OF FORMALDEHYDE — DIFFUSIVE SAMPLING METHOD - SECOND EDITION Organization: ISO
Date: 2011-12-01
Description: The method is suitable for measurements in atmospheres with conventional indoor air relative humidity and for monitoring at air velocities as low as 0,02 m/s.
ASTM D7297 - STANDARD PRACTICE FOR EVALUATING RESIDENTIAL INDOOR AIR QUALITY CONCERNS Organization: ASTM
Date: 2014-04-01
Description: This practice describes a pathway for characterizing indoor air, though adherence to this practice does not guarantee that an investigator will be able to identify or resolve an IAQ complaint for one or more of the following reasons: (1) the diversity of sources and contaminants in indoor air; (2) other factors that may affect occupant perception and acceptance of indoor air quality, such as air temperature, humidity, noise, lighting, and psychological stress; (3) the range of susceptibility in the population.
ISO 16814 - BUILDING ENVIRONMENT DESIGN — INDOOR AIR QUALITY — METHODS OF EXPRESSING THE QUALITY OF INDOOR AIR FOR HUMAN OCCUPANCY - FIRST EDITION Organization: ISO
Date: 2008-10-15
Description: — There are many factors that affect occupant perception and acceptance of IAQ, such as air temperature, humidity, noise, odours, lighting and psychological stress.
DS/ISO 16814 - BUILDING ENVIRONMENT DESIGN - INDOOR AIR QUALITY - METHODS OF EXPRESSING THE QUALITY OF INDOOR AIR FOR HUMAN OCCUPANCY Organization: DS
Date: 2008-10-15
Description: The requirements of this document may not achieve acceptable IAQ for all people in all buildings, due to one or more of the following sources of uncertainty: - the outdoor air brought into the building may be unacceptable or may not be adequately cleaned; - the diversity of sources and contaminants in indoor air; - the many factors that may affect occupant perception and acceptance of IAQ, such as air temperature, humidity, noise, odours, lighting and psychological stress; - the range of susceptibility and preference in the population.
DSF/ISO/DIS 16814 - BUILDING ENVIRONMENT DESIGN - INDOOR AIR QUALITY - METHODS OF EXPRESSING THE QUALITY OF INDOOR AIR FOR HUMAN OCCUPANCY Organization: DS
Description: The requirements of this document may not achieve acceptable IAQ for all people in all buildings, dueto one or more of the following sources of uncertainty:- the outdoor air brought into the building may be unacceptable or may not be adequately cleaned;- the diversity of sources and contaminants in indoor air;- the many factors that may affect occupant perception and acceptance of IAQ, such as airtemperature, humidity, noise, odours, lighting and psychological stress;- the range of susceptibility and preference in the population.

1 - 20 of 127 results