HVAC Assessment Handbook - A Practical Guide to
Contents
1. 10 What Differential Pressure sumussa ssa asua aus oa or ik ua ene Tama omaa vad si s Cn Een 11 W hat Systemi Pos Sans Ss EM E EE MEE M E 12 dui TINS RT AN 14 eM TORRE m m MQ M 16 Sources for Information Relating to Managing Mechanical HVAC Systems 17 Standards sEdic E E E 18 National Ambient Air Quality Standards e maa maama a maama tentent tentent 18 Zur Cua G 0110 lt 10 lt E EE IEE e E E 19 GIOSSALY asiaan M ojaa HA KS SINISEN K KK TA IAIN 20 Typical Mechanical Ventilation SVSLEPETL sonent rencontre tnn nta chat vean n etude kk ken nce korea Fasern randa icu tei Eua 21 VIIInstruments Don TSL oei niri oio triti eek ien Donar aee de rto cis even ec secun cote Eiern 22 IN OTOS aren eee aaa nu M Osorio wt Ein n d X A cee DX mals t RS ands ue Con IE conga EU Sx adc E DIE m 27 HVAC Assessment Handbook e HVAC Assessment Handbook INTRODUCTION Heating Ventilating and Air Conditioning HVAC relates to systems that perform processes designed to regulate the air conditions within buildings for the comfort and safety of occupants or for commercial and industrial processes or for storage of goods HVAC systems condition and move air to desired areas of an indoor environment to create and maintain desirable temperature humidity ventilation and ai2. Pressure referenced to a vacuum or gauge plus atmospheric pressure System elements including air intake fan blower filters coils and humidification dehumidification equipment The movement of air Static pressure increase due to restriction of air flow Adjustment of the HVAC system to ensure operation in accordance with design An outlet or grill designed to direct air into a desired pattern A method of determining average air velocity in a duct which can be multiplied by the duct area in square feet to calculate air volume or flow rate Air velocity perpendicular to a fume hood sash opening Pressure referenced to atmospheric pressure An instrument for measuring pressure A small bent tube which measures velocity by means of differential pressure The half of an HVAC system which returns air from various areas of a building to some type of air handler An instrument for measuring velocity related to revolutions over time Resistive temperature device Force per area that would be exerted by a moving fluid on an object in order to move it The half of an HVAC system which delivers air from some type of air handler to various areas of a building A means of detecting air velocity using the heat loss of a heated wire or film Voltage developed by joining two dissimilar metals to measure temperature differential A device for measuring temperature Positive pressure caused by moving ai
3. HVAC ASoESSMENI HANDBOOK A PRACTICAL GUIDE TO PERFORMANCE MEASUREMENTS IN MECHANICAL HEATING VENTILATING AND AIR CONDITIONING SYSTEMS HVAC ASSESSMENI HANDBOOK A PRACTICAL GUIDE TO PERFORMANCE MEASUREMENTS IN MECHANICAL HEATING VENTILATING AND AIR CONDITIONING SYSTEMS TSI TSI logo Alnor VelcoiCalc and AccuBalance are regis E ds rks of TSI Incorporated K o LogDat2 a 1 a rademarks of TSI Inc a rated e Copyright 2013 by TSI Incorporated Contents PILKO TUOTTO D eese rt rn ae tren er et SI mM TS K aims nta k 1 builds Desipn and ODE ON mastossa dau er idioma dieta dcdit bun id TU ridere 1 BIBGIGHO VS ECVE NE SS meer E ENNEN ae eer ee UII Etui eee eee 2 PECA LONS A TAO ee 2 1100 Air eoram M 3 NOY LIE coeleste iit emu Mo dap MM MEME IM EIE 3 KO PTO rmanot Measurements ssssavesastatempisss ma teiestec ioquit semecutesedeeusoschccsteces saute Un cep ER AASENS 4 VW at Am handing e g i prie Niais EES aaia Ei aea aaa EiS 4 Waar A 03 1010 y EN EE EE E E AE E ree eee 5 What nium 6 What Air volume and number of changes eee esee eerrenne tente ntntnn tentent ae aa eee 7 What Thermal Comfort scssssssssesssssssssecssonssssnssssnssssnessonssssnsssonestonessonestonestonearonestonestonesteneatsnestenestaneateneateneateneates 9 What Airborne contaminants as related to Indoor Air Quality IAQ
4. The percentage of outside air can be calculated with the following equation using either temperature or CO levels return air measurement supplyair measurement outsideair x 100 return air measurement outside air measurement measurement refers to either CO2 or temperature What Air volume and number of changes Why ASHRAE Standard 62 recommends a certain volume of fresh air be supplied to various areas in a building which is dependent on the number of people present and the nature of the activity taking place This is typically expressed as cubic feet per minute cfm cubic meters per hour m3 hr or liters of air per minute l min per person When Proper volume flows and air exchanges per hour should be verified any time changes or renovations occur that may affect the HVAC system Volume flow verification should also be done when there are increases in occupant complaints higher than normal operating costs odors abnormal ventilation noise or when changes in building differential pressures create noticeable conditions such as unexpected drafts and difficulty opening doors Fresh air volume and air changes can be compared to recommendations in ASHRAE Standard 62 If measurements conform to these guidelines it is a good general indicator that the system is performing properly Where Measuring volume flow can be accomplished in several ways e Performing duct traverses with a thermoanemometer or micromanometer wi
5. This will extend eguipment life and allow for major repair or replacement to be scheduled at a time when it has less impact on disrupting business Over time dirt can lead to the demise of an HVAC system At a minimum unwanted contaminants can inflict damage to equipment that leads to premature wear and tear increased maintenance costs increased cleaning costs and lower operating efficiency 4 TSI Incorporated HVAC Assessment Handbook When It is recommended that a regular routine schedule be established for checking system components Some items may need inspection more often than others so establish a procedure that indicates when each element should be checked Periodic inspection of components is critical to identify and remedy potential problems at the earliest stage when corrective action can be done in less time and usually at considerably less expense than waiting until failure occurs Where Most of these inspections must be made directly inside the air handler and ductwork Air handlers often have access doors for performing inspections service repair or replacement Other areas of the air handler and ducts are often equipped with small access holes for inspection and taking duct traverse measurements These holes are re sealed with a small plastic plug which can be removed for future measurements How Outdoor air is introduced to the air handler through an inlet vent that is typically controlled with a damper either
6. e Omnidirectional probe tip e Accurate at low velocities from 10 to 100 ft min 0 05 to 0 5 m s e Ideal for unknown or varying flow direction 26 TSI Incorporated HVAC Assessment Handbook NOTES HVAC Assessment Handbook 27 HVAC Assessment Handbook NOTES 28 TSI Incorporated e UNDERSTANDING ACCELERATED TSI Incorporated Visit our website www tsi com for more information USA Tel 1 800 874 2811 India Tel 91 80 67877200 UK Tel 44 149 4 459200 China Tel 86 10 8219 7688 France Tel 33491118764 Singapore Tel 656595 6388 Germany Tel 49 241 523030 P N 2980245 Rev C 2013 TSI Incorporated Printed in U S A
7. 1 0 emissions EACs commercial Lead dust milled 65 lt E2 lt 80 85 lt E3 1 0 flour Box filter Health care Legionella 85 lt E2 90 lt E3 1 0 humidifier dust Bag filter Health care Copier toner face Industrial Smoking 1 4 powder EACs areas p 80 to 90 E1 lt 75 90 lt E2 90 lt E3 Insecticide dust Hospital 90 to 95 75 lt E1 lt 85 90 lt E2 90 lt E3 most smoke Box filter labs Droplet nuclei Isolation 5 85 lt E1 lt 95 90 lt E2 90 lt E3 sneeze cooking oil Box filter areas All bacteria most General 95 lt E1 95 lt E2 95 lt E3 1 4 tobacco smoke Box filter Surgery Table 2 MERV 1 16 Air Cleaning Devices 1 Pa EN EP Conclusion Proper system design accounts for building type and size layout surrounding area the nature of activities taking place the number of occupants climate and other factors making each situation distinct A good understanding of the entire HVAC system from the outdoor air intake to the furthest diffuser is essential for good management In optimizing system operation a number of economic factors must be considered including fuel source and cost electricity consumption filtration life of the equipment maintenance costs and more These must be balanced against occupant comfort and special manufacturing or storage considerations Making and analyzing certain key measurements is essential for optimizing the HVAC system performance Information collected
8. and transfers it to the inside during cold weather periods Unit ventilator a single self contained system found in hotel motel rooms schools garages and other applications where individual room environments must be maintained separately Why The HVAC system can be viewed as the cardiovascular and respiratory system of a building supplying clean conditioned air to all areas The air handler is the heart of the system since this is where outdoor air is drawn in filtered conditioned and mixed with return air This supply air is O then distributed through a network of ducts to and from areas of the building Basic components include dampers fans or blowers heating and cooling coils air filters boilers or furnaces compressors ductwork to convey the air and diffusers or registers to distribute the air evenly A number of controlling mechanisms including thermostats sensors and actuators help control the distribution of air throughout a building Routine preventative maintenance is the key to avoiding premature wear and tear on components that can lead to repair or premature replacement Repair and replacement can be costly and often lead to inconvenient even unacceptable downtime There are situations such as in hospitals where unexpected system downtime is simply not an option for a 24 7 operation Therefore it is critical to be aware of the system s condition and components to perform routine cleaning and do minor repairs
9. balance comfort against cost so both are optimized Special Considerations Some situations require special attention with respect to the HVAC system This section lists a few examples from the many situations where HVAC systems play a key role in success or failure Some applications have strict requirements for precise temperature and humidity control These include food processing storage of perishables certain industrial processes chemical processing and storage computer rooms green houses and other applications where a few degrees difference in temperature could mean the ruin of costly product or equipment In some laboratories and health care facilities the potential for the migration of dangerous or infectious substances is a concern Patients recovering from surgery transplants or other immune compromised conditions are especially prone to airborne infections and may require special consideration with respect to filtration and ventilation TSI has published a brochure featuring instrumentation for managing differential pressure in health care facilities Visit our website at www tsi com to view the brochure Cleanrooms in the semiconductor industry require very stringent filtration and control of ambient air Here even a small breach in contamination control could mean the loss of a considerable amount of valuable product Many buildings have adjacent or underground parking areas and controlling the introduction of vehic
10. manually or mechanically operated This outdoor air is mixed with the return air and this mixed air passes through an air filter The filtered air may then be conditioned by heating coils cooling coils moisture reduction devices and humidifiers The conditioned air is then passed through a final filter and delivered via ductwork to all the zones of the building Damper positioning sensors temperature controls volume flow and humidity controls are some ofthe measurement parameters that should be continuously monitored to give an indication of system performance or to signal alarms if any control aspect is outside of acceptable limits Fan belt tension clogged drain pans dirty heating cooling coils and fan blades misaligned filters and other mechanical components may require visual inspections performed on a periodic basis Economic implication too often the ventilation system is taken for granted until some sort of mishap occurs Unforeseen preventable problems can have serious consequences including work stoppage spoiled inventory and unexpected equipment service or replacement costs Many of these problems can be prevented by implementing and following scheduled maintenance tasks What Air velocity Why Fans are used to introduce distribute recirculate and exhaust air in a building Checking air velocity periodically at various points assures that air is being distributed as expected through the ventilation system Measurements
11. migrate from areas of relatively high to low differential pressure as well as from relatively warm to cool areas Managing differential pressure between the inside and outside and between different areas of the building by regulating supply and return air volumes is a key means of controlling the migration of unwanted contaminants Verifying and maintaining building pressures is essential in preventing infiltration of outdoor contaminants and moisture into the building envelope If the building is maintained at a negative pressure in relation to the outdoors then the negative pressure can pull in outdoor contaminants through gaps or cracks in the building structure Building pressures can also impact the difficulty of opening or closing doors to the outside which is a particular concern to the elderly or handicapped especially in emergency situations When Proper building pressures should be checked whenever renovation or reconstruction might affect the HVAC system and alter its performance from the original design Seasonal changes usually involve a change over from winter to summer or summer to winter mode If mixed signals are sent to the automated controls affecting damper positioning for outdoor air or return air for example then more or less air may be introduced which could result in varying building pressures and creating unwanted conditions HVAC Assessment Handbook 11 HVAC Assessment Handbook Where Monitoring differential pre
12. age 35 ppm Primary 8 hour Average Primary POLLUTANT 1 hour Average 100 ppb Primary Annual 53 ppb Primary amp Secondary 8 hour Average 0 075 ppm Primary amp Secondary Quarterly Average 0 15 ug m Primary amp Secondary 24 hour Average 150 ug m Primary amp Secondary 24 hour Average 35 ug m Primary amp Secondary Annual 12 ug m Primary Annual 15 ug m Secondary 1 hour Average 75 ppb Primary 3 hour Average 0 5 ppm Secondary 18 TSI Incorporated HVAC Assessment Handbook Air Quality Guidelines Parameter Limit Range Reference TSI Instrument Temperature Summer 74 to 82 F ASHRAE Standard 55 Q Trak 23 to 28 C 2010 IAQ Calc Winter 68 to 78 F ISO 7730 20 to 25 5 C VelociCalc Relative Humidity 30 to 65 ASHRAE Standard 55 Q Trak 2010 IAQ Calc ISO 7730 VelociCalc Air Movement 0 8 ft s or 0 25 m s WHO VelociCalc ISO 7730 DP Calc AccuBalance Ventilation fresh air 15 to 60 cfm person ASHRAE Standard 62 1 Q Trak minimum depending ontype 2010 IAQ Calc of space Ventilation COz About 700 ppm over outdoor ASHRAE Standard 62 1 Q Trak ambient 2010 IAQ Calc Particle Concentration in 1 0 ug 100cm2 NADCA 1992 01 P Trak Cleaned HVAC Systems DustTrak SidePak Ultrafine Particles N A N A P Trak 1 0 micron WA ma Carbon Monoxide 50 ppm Q Trak 35 ppm IAQ Calc 9 ppm 9 ppm peak 25 ppm 9 ppm HVAC Assessment Handbook 19 HVAC Assessment Handbook GLOSSARY
13. at a given location such as an air diffuser Capture hoods are also very useful in balancing an HVAC system to ensure that the correct amount of air is being supplied to each area and that proper differential pressure relationships are maintained U Note Capture hood flow measurements can be affected by several ventilation system parameters Therefore it is recommended that capture hood readings be compared with those from a duct traverse calculation A properly executed duct traverse is considered a reliable method for reference in making this comparison and can be used to characterize system flow at outlet diffusers A field correction factor known as a K factor can then be applied to capture hood measurements to compensate for unusual configurations that may impact the measured flow m T i I gt sas NN 3 p l AS 3 M The percent outdoor air calculated in a ventilation assessment can then be multiplied by the volume of air entering a space to determine the amount of fresh air being delivered in cubic feet per minute Compare this to the recommendations in the tables provided in ASHRAE Standard 62 The following gives a few examples taken from Table 2 in the Standard Ammann Sh 8 TSI Incorporated HVAC Assessment Handbook cfm perso
14. ational HBI www hbi com au Indoor Air Quality Association IAQA www iaga org International Facility Management Association IFMA www ifma org International Society of Indoor Air Quality and Climate ISIAQ www isiaq org National Air Dust Cleaners Association NADCA www nadca com National Air Filtration Association NAFA www nafahg org National Institute for Occupational Safety and Health NIOSH www cdc gov niosh homepage html National Institute of Standards and Technology NIST www nist gov National Institute of Health NIH www nih gov Sheet Metal amp Air Conditioning Contractors National Association SMACNA www smacna org U S Department of Health and Human Services HHS www hhs gov U S Department of Labor Occupational Health and Safety Administration OSHA www osha gov U S Department of Energy DOE www energy gov U S Environmental Protection Agency EPA www epa gov World health Organization WHO www who int There are also numerous seminars training programs trade publications text books web sites and other media available that are dedicated to air quality heating ventilating and air conditioning installation operation testing and maintenance There are far too many to adequately include in this guidebook HVAC Assessment Handbook 17 HVAC Assessment Handbook STANDARDS AND GUIDELINES National Ambient Air Quality Standards STANDARD STANDARD VALUE TYPE 1 hour Aver
15. ciency actually improves as it traps material since the captured particles actually help trap additional particles but this is true only up to the point where the pressure required to pull or push air through the filter exceeds the system design and may cause damage to the system The key is to not change filters too often thereby adding to filter replacement costs but also not too infrequently to the point where air flow is impeded HVAC Assessment Handbook 15 HVAC Assessment Handbook ASHRAE Composite Average Particle Size 52 1 Efficiency PSE Equivalent Min Final Dust Spot Range 1 Range 2 Range 3 Resistance Typical Controlled Typical type Typical MERV Efficiency 0 3 3 0 uum 3 0 10 0 um 1 0 3 0 um in wg Contaminants of Filter Applications E3 lt 20 0 3 Pollen moss insects Disposable Prefilter Dust mites sanding E3 20 0 3 dust Washable Roughing Paint dust textile E3 lt 20 0 3 fibers Electrostatic Roughing 1 to 3 E3 lt 20 Carpet fibers Electronic AC Residential Electronic Air 20 lt E3 lt 35 Powdered milk Cleaner Residential Household and Electronic 35 lt E3 lt 50 cement dust panel Residential Hair spray fabric Electrostatic Light 50 lt E3 lt 70 protection cartridge commercial N A N A N A vi s a os vi EUN vi os 7 p se os Nebulizer drops E2 lt 50 85 lt E3 1 0 welding fumes Box filter Paint booths Coal dust auto Residential Heavier 50 to 55 50 lt E2 lt 65 85 lt E3
16. condary usage for filters is to prevent contaminants from dispersing throughout the ventilation system and into occupied areas which could pose health hazards or create a dirty dusty environment When It is recommended that filters be thoroughly checked each time they are changed to be sure there are no tears or breaches and that gaskets are tight Periodic checks between changes will ensure that they are functioning properly and prevent unwanted particle contamination from entering the HVAC system Overlooking or minimizing the significance that air filters are properly installed and functioning will decrease the life of system components increase maintenance costs and disperse contaminants throughout the building Where Air filters are found in different locations depending on the application Mechanical equipment rooms process and shop areas storage areas and warehouses typically have a pre filter located atthe input of the air handler prior to the juncture of the outdoor and return air ducts A secondary filter may also be found after the fan but prior to the main trunk The main purpose of this filtration system is to remove larger particles and to protect the heating and cooling coils from dirt build up Analytical laboratories cleanrooms hospitals pharmaceutical R amp D areas and similar facilities may have two different types of pre filters at the air handler input and also at the final filter stage after the air handler The p
17. d filters A thorough understanding of the entire system from the outdoor air intake to the furthest diffuser is essential to good system design It is also important to understand the specific purpose of the space and activities taking place This will greatly influence the building s conditioning requirements This further dictates appropriate equipment and the capacity needed to meet those requirements Design parameters must account for cooling load heating load ventilation and filtration requirements Other considerations that directly impact the HVAC system include the number of people in each space interior elements like wall placements furnishings and equipment that may create barriers to impede airflow and distribution Internal loads such as lights computers and other equipment that may produce heat humidity or otherwise affect ambient air conditions must also be considered The design of air distribution equipment in today s buildings presents challenges for the mechanical engineer Equipment selection must combine properly engineered products which efficiently provide conditioned air to the occupied space while blending in with the architectural features of the interior Considerable time and money can be spent developing and purchasing the appropriate mechanical components system controls ductwork and piping If components are selected improperly the HVAC system will operate inefficiently not meet requirements and create cost
18. d negative port which can be connected to access ports in the duct on each side of the element being checked For supply side measurements the positive port should be positioned upstream and the negative downstream For return lines these should be reversed Economic implication Routine checks along the system will help determine when cleaning is necessary or filters need to be changed Proactive monitoring of system pressure measurements can be vital in reducing maintenance costs extending the life of the equipment maximizing filter efficiency and preventing costly downtime HVAC Assessment Handbook 13 HVAC Assessment Handbook What Air Filters 14 Air filter elements capture particles and prevent them from entering the conditioned air stream Filters are available in a wide range of sizes and configurations depending on the application Examples of filter media include paper sponge foam spun glass and pleated woven bags Other filters include electrostatic particle arresting types where the filter media is electrically charged to make it more effective in attracting and capturing particles Activated charcoal filters are used to address unpleasant odors associated with vapors or gases but they should always be used in conjunction with a particle filter Why Filters are placed ahead of key system components mainly to extend life reduce maintenance and repair costs and prevent damage from dirt and other pollutants A se
19. dmill like device Other styles use thermal anemometer technology that employ hot wires or thermisters that compare small changes in resistance and display it as an air velocity measurement Micomanometers are commonly used to measure duct pressures and can also measure duct velocities when used with a pitot probe Instruments can be used to conduct real time surveys and some instruments allow the data to be recorded so different locations can be compared or a study can be done over time in a given location to help assess system performance or occupant comfort Economic implication proper ventilation air velocity and even distribution are key contributors to perceived air quality and comfort People tend to perform better when they are comfortable and offer fewer distractions to others due to complaints It is good practice to make routine checks to ensure the HVAC system is performing as expected in each occupied zone What Ventilation Why Ventilation refers to the amount of fresh air supplied throughout the building In the interest of energy conservation air is typically recirculated and mixed with some amount of fresh air at the air handler Introducing fresh air helps dilute any airborne contamination and exhausts it out of di the building faster According to industry studies over half of the indoor air quality complaints reported can be traced to problems in ventilation ASHRAE Standard 62 offers detailed recommendations pertaining t
20. e The Standard suggests a goal of satisfying 8096 or more of the occupants A flow of air is created when a differential pressure condition exists between spaces and a sensation of draft is perceived when this difference is high enough Drafts below 40 fpm 0 20 m s are generally not noticed by occupants and therefore maintaining levels near this is recommended Too little draft may create a sensation of stuffiness or stale air When Periodic checks in different locations throughout the building should be conducted to be sure that the system is performing as expected Special attention should be paid whenever something in the building changes that may impact the HVAC system s performance Occupant complaints should be investigated whenever they occur and appropriate corrective action taken HVAC Assessment Handbook 9 HVAC Assessment Handbook Where Temperature can vary widely throughout a building and the sensitivity to temperature is influenced by air movement proximity to windows and doors clothing worn and other factors Therefore it will not likely be sufficient to set a temperature goal and adjust the system from one location Intermittent measurements should be taken throughout occupied spaces and the system adjusted accordingly Likewise humidity measurements should be taken throughout all occupied spaces to ensure that the HVAC system is distributing the desired amount of properly conditioned air to all areas Complaints o
21. ents through the building Special training for building personnel may be required for them to recognize situations requiring certain action and be familiar with the proper plan of action Indoor Air Quality Indoor air quality IAQ is a growing concern today Concern with energy conservation has made building construction nearly airtight which in turn has made proper ventilation more important than ever People today are spending the majority of their lives indoors more than 90 of the time according to the EPA Managing indoor air quality can have a big impact on the satisfaction productivity and health of occupants Three general categories of contaminants can impact IAQ biological chemical and particle related pollutants The key to effective IAQ management is finding and controlling the exact source of the contamination It is not acceptable to treat symptoms The problems will not go away until the source is removed repaired or controlled so that creation and migration of unwanted pollutants is completely arrested TSI has published a practical guide to address some of the key issues in IAQ management today It can be viewed on the TSI web site at ittp iag tsi com Outdoor Air An issue that is frequently overlooked and ends up being dealt with after the fact is the impact of the surrounding environment on a building Too often aesthetic consideration places outdoor air intakes in areas of the building that may be exposed to all
22. eturn air ll Typical System Elements Affecting Pressure Why Each element in a system such as a damper filter or coil resists air flow causing a pressure drop When the drops across each element are added together in a run the result is total pressure loss Too much drop results in inadequate air volume affecting the system s ability to meet design requirements and resulting in poor ventilation in a building Another key consideration is that as debris accumulates in filters or on the surface of other components their resistance to air movement increases This increased resistance also decreases the volume of air supplied When A routine schedule to check pressures across system elements should be established based on the size of the system maintenance costs filter costs and activities in the building Further testing should be performed whenever there is a change in the building such as an addition remodeling or rearrangement Variations from system design requirements should be investigated and corrected before they lead to expensive repairs or replacement Where Access holes in ductwork should be placed on the up and downstream side of components that affect system pressure by causing a drop Dampers filters and coils are examples of system components that should be checked periodically How Taking pressure measurements using a portable manometer can be done quickly and easily Manometers are equipped with a positive an
23. f air exchanges and or percentage of outdoor air supplied to the conditioned space To ensure that a building is properly ventilated it is important to take CO measurements in occupied areas air distribution zones at varying heights and compare them to the outdoor level To get accurate data on CO levels in an occupied space data should be logged over a period of time so any fluctuations can be analyzed CO levels will naturally fluctuate during the work day based on occupancy and facility usage During the evening hours when the building is unoccupied CO levels generally drop As the day begins and workers arrive CO levels will tend to rise Keep in mind that recommended guidelines should be followed closely so that too much fresh air is not introduced unnecessarily Careful regulation of the introduction of fresh air which in turn must be filtered conditioned and distributed will help keep energy costs down Many commercial systems employ a system control called Variable Air Volume VAV or on demand ventilation Monitors are placed in the system usually in the return air duct to measure the level of CO or temperature or both When the measured level falls outside some predetermined set points the monitor triggers an automatically controlled damper to increase or decrease the amount of outdoor air introduced Make sure that the system is in a fully operating mode and not cycling automatically when taking ventilation measurements
24. f draftiness should be investigated by tracking air currents to their sources Remedies for undesirable draft may include redirecting diffuser throw patterns installing plastic draft curtains in open doorways rebalancing a zone to get better supply and exhaust flow correlation along with other options How As comfort pertains to the ventilation system the key comfort parameters involve temperature relative humidity draft and ventilation Measurements should be taken in all occupied areas Portable instruments that measure these parameters in real time or record values over time are very helpful in making accurate assessments and identifying areas where corrective action may be needed Temperature humidity and air flow are often linked together to provide a measure of thermal comfort ASHRAE Standard 55 offers guidelines and the chart below illustrates thermal comfort ranges for summer and winter The objective is to adjust the system to satisfy at least of 8096 of the occupants Temperature Humidity Ranges for Comfort Acceptable Operating Temperatures Conditions Relative Humidity C oF If 30 then 24 5 to 28 76 to 82 Summer light clothing If 60 then 23 to 25 5 74 to 78 If 30 then 20 5 to 25 5 69 to 78 Winter warm clothing If 60 then 20 to 24 68 to 75 What Airborne contaminants as related to Indoor Air Quality IAQ Why Some substances can become airborne and pose a threat to individual health cau
25. gives you the tools to make the correct decisions More information can be found in the Ventilation Test Instruments brochure that can be viewed on the TSI web site at http www tsi com Ventilation Test Instruments 16 TSI Incorporated HVAC Assessment Handbook SOURCES FOR INFORMATION RELATING TO MANAGING MECHANICAL HVAC SYSTEMS The following is a list of some of the organizations that may be able to offer additional information on air quality heating ventilating and air conditioning issues Air Conditioning Contractors of America ACCA www acca org Air Conditioning and Refrigeration Institute ARI http www lightindustries com ARI Air Diffusion Council ADC www flexibleduct org American Council for Accredited Certification ACAC http www acac org American Industrial Hygiene Association AIHA www aiha org American National Standards Institute ANSI www ansi org American Society for Testing and Materials ASTM www astm org American Society of Heating Refrigeration and Air Conditioning Engineers ASHRAE www ashrae org American Society of Safety Engineers ASSE www asse org Building Air Quality Alliance BAQA British Occupational Hygiene Society BOHS www bohs org Building Owners and Managers Association BOMA www boma org Center for Disease Control and Prevention CDC www cdc gov Heating Refrigeration Air Conditioning Institute of Canada HRAI www hrai ca Healthy Buildings Intern
26. le emissions into the building is imperative Smoking restrictions have been implemented in public buildings restaurants and many corporate facilities In general proper exhaust and ventilation is an important concern to rid the building of unwanted contaminants During construction or renovation special attention must be paid to the HVAC system to contain and control unwanted airborne contamination and prevent it from migrating to other areas of a building Maintaining negative relative pressure in the construction area is an important consideration along with special filtration and perhaps dedicated exhaust Another matter regarding our national interest is protecting buildings from the infiltration of dangerous material particularly airborne nuclear biological or chemical NBC agents Here special consideration must be given to controlling and protecting the outdoor air intake filtration 2 TSI Incorporated HVAC Assessment Handbook the level of uncontrolled leakage and the ability of the system to purge a building Mechanical ventilation systems have various controls to regulate air flow and pressure in a building that can be essential in an emergency response situation In some cases with sufficient time it may be wise to shut off the building s HVAC and exhaust system to help prevent the introduction of NBC agents Other times the system can be used to regulate pressure and airflow to control the migration or spread of unwanted ag
27. lexibility for measuring a variety of diffusers Variety of hood sizes lets you take readings from most diffusers registers or grilles Model 8380 e Back lit display is easy to read in poor lighting conditions Model 8380 e Ergonomic design and ultra light weight for easy one person operation Automatically senses and displays supply or return flows saving time on the job Back pressure compensation ensures accurate readings Detachable digital micromanometer offers flexibility to use in multiple applications Includes Swirl X Flow Conditioner for use with twist or swirl type supply air diffusers Only available outside of North America Please see the Alnor EBT731 for availability in North America HVAC Assessment Handbook 23 HVAC Assessment Handbook DP CALC Micromanometers e Models 5815 5825 8715 W e Measure differential and static pressure from 15 to 15 in H20 Model 8715 3735 to 3735 Pa e Calculate and display velocity when using a Pitot tube Added Features Model 5825 Calculates flow Variable time constant Statistics Data logging with time and date stamp Stores 12 700 samples and 100 test IDs Includes LogDat2 downloading software Programmable K factors Features 8715 Accurately measures pressure velocity and flow Auto zeroing pressure sensor Automatic density correction Intuitive menu structure Integrated Log Tchebycheff duct traverse calculations Bluetooth communications Includes do
28. lling unwanted migration of contaminants from outside sources or from within the building will reduce cleaning and maintenance costs It can be used to help control the spread of infectious or contagious diseases Pressure controls will help contain the migration of other airborne contaminants that may be irritating harmful or even deadly What System Pressure 12 Air pressure becomes an issue in the HVAC system itself Fans or blowers bring outdoor air in mix it with some of the return air and then distribute the air to all parts of the area being served by that system System pressure actually has three components e Static Pressure the driving force to move air e Velocity Pressure the additional force exerted when air contacts an obstruction e Total Pressure the sum of static and velocity pressure Fans are sized to meet the requirements of adequate air distribution Characteristics of the blower including size and rotational speed combined with the resistance of the ductwork determine how much air is moving and the pressure in the HVAC system see diagram below for example of some HVAC components that can affect system pressure TSI Incorporated HVAC Assessment Handbook Pre filter Heating coils Cooling coils l Turns Damper Primary filter w H ES Transitions n CC m 4 1 Air Intake b S 2 gt Supply Air W Take offs Diffusers Local Exhaust TA qm i Damper gt f amp R
29. n Application outdoor air 10 School classroom School laboratories Air flow can also be used to determine the number of air changes that occur in a space over a period of one hour This is accomplished by determining the supply air flow rate in CFH cubic feet per hour and dividing it by the total volume of a given space length x width x height to come up with the number of air exchanges per hour Likewise the calculated fresh air percentage can be applied to this air change calculation to determine changes of fresh air over time in a given space The exchange of air between inside and outside is important in diluting and removing unwanted contaminants What Thermal Comfort Why The perception of thermal comfort varies by individual Thermal comfort is influenced by a combination of temperature humidity and air flow and can be affected by parameters outside of the HVAC system such as time of day activity level clothing number of individuals in a space and other factors It can have a profound impact on human concentration and productivity If people are uncomfortable they may also distract other people with their complaints ASHRAE Standard 55 recommends temperature range guidelines perceived as comfortable to be 74 to 82 F 23 to 28 C during the summer and 68 to 78 F 20 to 25 5 C during winter Most individuals generally consider an indoor relative humidity level maintained between 30 and 65 percent to be comfortabl
30. nd of this book HVAC Assessment Handbook 3 HVAC Assessment Handbook Key Performance Measurements What Air handling equipment The following are some examples of the many different types of HVAC systems available today Single zone system serves a single temperature controlled zone Found in small shops or computer rooms where the environment and usage generally remains the same Multi zone system delivers conditioned air to several zones from a single central air handling unit The zones served should have similar thermal load requirements such as offices or classrooms Conditions in each space are maintained by temperature controllers in each zone which vary the amount of heated or cooled air to be delivered Constant volume system the volume of air delivered to an occupied zone by this system does not change or changes very little The discharge temperature is controlled in the zone by a temperature controller which activates heating and or cooling coils VAV Variable Air Volume system air volume to a zone is adjusted via a damper that responds to a zone thermostat controlling heating and cooling coils VAV boxes can be found on multi zone system duct runs that are new to the building or are a considerable distance away from the central air handler unit Heat pumps a type of refrigeration system that draws out heated indoor air in the warm weather to keep the occupied space cool and removes heat from the outdoor air
31. o ventilation in occupied spaces When Assessment should be done on a regular basis In climates with wide shifts in weather conditions this analysis should be done at a minimum when the system is being changed over from heating to cooling and vice versa Ventilation should always be checked whenever an occupant complaint triggers an investigation and when changes or modifications are made to the HVAC system or to physical characteristics of a building Where Measurements need to be made in all occupied spaces within a building It is important to remember that in buildings with multiple air handling systems each system must be evaluated separately almost like another building How A good indicator of proper ventilation in a space is the level of CO a natural by product of respiration combustion and other processes Elevated levels of carbon dioxide can be an indication that additional ventilation or outdoor air may be needed ASHRAE Standard 62 recommends that indoor levels not exceed roughly 700 ppm more than outside ambient conditions Higher levels of CO may cause slight drowsiness enhance odors or give the impression of stale air Increased levels are rarely considered a health hazard since concentrations up to 10 000 ppm can be tolerated by most people in good health without any ill 6 TSI Incorporated HVAC Assessment Handbook effects Reducing CO levels in an occupied space is accomplished by increasing the number o
32. overruns to correct the situation Since one aspect of the system affects another proper selection of every component regardless of apparent significance is imperative HVAC Assessment Handbook 1 HVAC Assessment Handbook Efficiency vs Effectiveness With any mechanical ventilation system there is a trade off between optimizing occupant comfort and controlling operating costs Common measurements for assessing effectiveness or the level of comfort among occupants include a variety of parameters such as temperature humidity air velocity ventilation vibration and noise Individual perception plays a significant role since comfort is both physical and psychological and can vary greatly by individual What is comfortable for one person may be too warm for the next and too cool for a third When maximizing the operating efficiency of a system a number of factors must be considered including fuel source and cost electrical consumption air filtration equipment life maintenance costs and more These expenditures are often very visible Controlling them has a direct impact on the day to day cost of building operation and can impact a company s profitability Reducing HVAC operating expenditures to a point where occupants are dissatisfied has other costs associated with it including increased costs due to absenteeism loss of people due to employee turnover recruiting training and decreased productivity to name but a few So it is important to
33. polling Includes TrakPro and LogDat2 downloading software with USB cable VELOCICALC Rotating Vane Anemometers Model 5725 Reversible 4 inch 100 mm head to read supply and exhaust flows Calculates volumetric flow rate when user inputs duct shape and size or area Sampling function records multiple point measurements Automatic averaging of air velocity Simultaneously displays velocity and temperature Sweep mode for one overall measurement Optional 36 inch telescopic probe available Compatible with optional Aircone flow hoods Data Logging Features e Logs 12 700 samples with a time and date stamp e Recall review store data e LogDat2 downloading software included 22 TSI Incorporated HVAC Assessment Handbook VELOCICALC Air Velocity Meters Models 9535 9535 A 9545 9545 A Accurate air velocity measurement Easy to read display Simple to operate Calibration certificate included Simultaneously measure temperature and velocity Displays up to three measurements simultaneously Calculates volumetric flow and actual standard velocity Data log 12 700 samples and 100 test IDs LogDat2 downloading software included Model 9545 Articulated probe versions available 9535 A and 9545 A Measures humidity Model 9545 and 9545 A ACCUBALANCE Air Capture Hood Models 8371 8380 Model 8371 Variable time constant modes minimize display variations when measuring fluctuating flows K factor function enables f
34. r related to air speed squared 2 O TSI Incorporated Typical Mechanical Ventilation System Supply To Other Areas UNIT HEATER PROPELLER FLEXIBLE CONNECTION AUTOMATIC VOLUME DAMPER FAN AND MOTOR WITH BELT GUARD UNIT HEATER CENTRIFICAL pry DUCTWORK WITH ACCOUSTICAL LINING EXHAUST RETURN OR OUTSIDE AIR DUCT SECTION FLOOR REGISTER HVAC Assessment Handbook Heating and Cooling Coils Damper Return Air UNIT VENTILATOR LE FIRE DAMPER WITH ACCESS DOOR DAMPER SUPPLY DUCT SECTION TURNING VANES HE HVAC Assessment Handbook Booster Fan THERMOMETER RE MANUAL VOLUME DAMPER CEILING DIFFUSER SUPPLY OUTLET LOUVER OPENING Primary Filters Outdoor Air DIRECTION OF FLOW L J CEILING DIFFUSER SUPPLY OUTLET mx TED Jii 100 CFM LINEAR DIFFUSER 21 HVAC Assessment Handbook VTI INSTRUMENTS FROM TSI VELOCICALC Multi Functional Ventilation Meter Models 9565 9565 A 9565 P 9565 X Best in class air velocity accuracy Optional smart plug in probes including VOC CO and rotating vane probes Accommodates up to two K alloy thermocouples Large graphic display o Displays up to five measurements simultaneously o On screen messages and instructions o Program for local language Intuitive menu structure allows for ease of use and setup Multiple data logging formats Bluetooth communications for transferring data or remote
35. r purity Depending on geographic location and building construction various types of interior climate control systems help ensure that interior spaces are maintained at comfortable levels year round With today s energy conservation concerns buildings are constructed to be much tighter reducing the level of natural exchange between indoor and outdoor air As a result more and more buildings rely on mechanical conditioning and distribution systems for managing air A properly operated HVAC system finds the often delicate balance between optimizing occupant comfort while controlling operating costs Comfort is an important issue for occupant satisfaction which can directly affect concentration and productivity At the same time controlling these comfort and health parameters directly affects HVAC system operating costs in terms of energy maintenance and equipment life This handbook is not intended to be a comprehensive guide for all possible issues associated with HVAC system operation and maintenance There are volumes on the subject Rather it highlights some measurements and techniques that can be used to evaluate HVAC systems for optimum operation Building Design and Operation Some basic considerations to address when specifying the equipment needed to control and condition the air should include the size and physical layout of the building which determines equipment requirements such as the size and type of fans boilers coils an
36. re filters having ratings of 75 to 8596 arrestance and 25 to 4096 dust spot efficiency remove a large number of the airborne particles The final filters would then have some higher efficiency rating like 9896 arrestance and 80 to 85 dust spot efficiency This type of setup is very effective on fumes and smoke as well as particles How A filter s ability to stop particles is a function of several factors including fiber material and density as well as particle characteristics such as size shape density mass electrical charge and speed As filters become loaded with particles they become more and more effective in blocking additional particles until they reach a point where they begin to impede air flow and tax the air moving equipment That can cause damage and shorten equipment life Today most filters are evaluated based on ASHRAE Standard 52 2 and are assigned a MERV minimum efficiency reporting value rating This rating represents the resistance to particle penetration based on ranges of average particle size and also shows a minimum pressure drop across the filter See table 2 on page 16 TSI Incorporated HVAC Assessment Handbook The filter effectiveness ratings are determined by testing a filter with a known number of particles of a given size at a known air velocity and comparing the value to the number of particles exiting the filter In an actual installation regular checks using a particle counting instrument is an effec
37. should be made on both the supply and return air sides of the system Air movement or velocity has an impact on perceived comfort by occupants When Regular spot checks should be performed in different locations throughout the building to be sure that the system is performing as expected Special attention should be paid whenever something in the building changes that may impact the HVAC system s performance Examples include switching over from heating to cooling remodeling rearranging a space enlarging or reducing the area being served and adding or subtracting people Where Air velocity measurements should be made at diffusers or registers both on the supply and return sides of the system Measurements should be made in the ductwork paying particular attention to sections close to dampers transitions elbows branches and take offs to be sure air is moving as expected throughout the system and that nothing is impeding air movement For highest accuracy measurements should be made in a straight section of duct roughly the equivalent of HVAC Assessment Handbook 5 HVAC Assessment Handbook 7 5 duct diameters downstream and 3 duct diameters upstream from anything that may cause a disturbance in air flow How A number of instruments typically called anemometers reliably measure air velocity and calculate air flow or volume Some types use rotating vanes that measure air speed based on how fast moving air turns a small win
38. sing symptoms ranging from temporary irritation to chronic problems and ultimately death in extreme cases Three basic groups of contaminants are of concern e Gases or chemical vapors such as CO NOx SOx volatile organic compounds VOCs and radon e Particles particularly those less than 4 microns in diameter defined as respirable e Biologicals including animal parts bacteria viruses and plants such as fungi mold and pollen While most individuals can tolerate many airborne contaminants some people have acute Sensitivities to certain substances when they reach a threshold limit In a group of people for example only one individual may be affected If complaints occur and it is suspected they may be air related they should not be treated lightly An investigation should be done quickly the source s identified and remedial action completed in a timely fashion 10 TSI Incorporated HVAC Assessment Handbook When Routine checking may be a good proactive measure Any time a complaint is received and there is reason to believe that it may be associated with airborne contamination a complete investigation is warranted to identify and isolate sources followed by determining and executing proper corrective action Where Identifying specific sources becomes the challenge in dealing with airborne contaminants They are driven by air movement and differential pressure high to low so often the problem is dispersed throughou
39. sorts of problems The quality of the indoor air will be affected if an intake is facing heavy traffic industrial discharges or other sources of unwanted pollutants Such situations may require special filtration could lead to premature loading of filters increased maintenance and cleaning costs and unexpected wear and tear on the equipment Corrective action may involve upgrading to more effective filters or in extreme cases relocating the outdoor air intake The EPA enacted the National Ambient Air Quality Standards in reaction to the Clean Air Act passed in 1970 The Clean Air Act established two types of national air quality standards Primary standards set limits to protect public health including the health of sensitive populations such as asthmatics children and the elderly Secondary standards set limits to protect public welfare including protection against decreased visibility damage to animals crops vegetation and buildings The Clean Air Act requires the EPA to set National Ambient Air Quality Standards NAAQS see table on page 18 for pollutants considered harmful to public health and the environment The NAAQS is instrumental in providing guidelines for the location of outdoor air intakes The EPA Office of Air Quality Planning and Standards OAQPS has set National Ambient Air Quality Standards for seven principal pollutants which are called criteria pollutants They are listed in the table on page 18 near the e
40. ssures between a room and a hallway or anteroom is a common practice with hospital isolation wards laboratories high tech semiconductor manufacturing plants and other critical areas Maintaining a negative differential pressure within a lab or isolation room helps prevent the spread of contaminants to the rest of the building Measuring duct static pressures and comparing them to previous measurements is a quick way of determining if changes have occurred to the system flow rate Taking velocity pressure measurements within HVAC ductwork provides a means of determining how much airflow is being delivered This information can be used to balance the system to meet ventilation specifications cut down on operating costs and increase efficiency How Pressure measurements are obtained using some type of analog or digital manometer Manometers have a positive and a negative pressure port that can be connected to a pitot static probe for performing duct velocity pressure measurements The velocity pressure can then be converted to velocity or volume flow rates using simple formulas Most digital models perform these calculations automatically Differential pressure measurements between two separate areas are accomplished by placing the meter with one pressure port open to atmosphere in one area connecting a hose to the other port and running it under a door or connecting it to a through the wall pressure tap to another area Economic implication contro
41. t an area In addition to differential air pressure and air movement unwanted contamination including gases and airborne particles will migrate from relatively warm to cool areas ud LE How Surveys should be done in real time if possible and in some cases depending on the contaminant it may be necessary to take samples and have them analyzed by an environmental laboratory Specific protocol for procedures and transport is usually provided by the laboratory when conducting sampling for further analysis In the case of biological substances it is critical to control moisture Before any clean up or treatment is done make sure the source of any moisture from plumbing condensation or a breach in the exterior envelope is identified and corrected Unless the moisture source is removed other efforts will probably end in vain In addition to cleaning the intake air through proper filtration controlling air movement differential pressure and temperature within the building are the primary tools that will allow you to manage the movement of airborne contaminants Economic implication health insurance premiums increase potential litigation increased absence increased cleaning and maintenance costs reduced equipment life more frequent filter changes can all have a negative impact on the operating costs of a building What Differential Pressure Why Small airborne particles and gases are transported by air movement and will also
42. th pitot probe and then doing the necessary conversions e Using a capture hood directly on the supply diffuser or exhaust grille or e With a micromanometer connected directly to a pressure based flow station or diffuser taps to calculate flow using Kfactors provided by the manufacturer of the flow station and diffuser HVAC Assessment Handbook 7 HVAC Assessment Handbook How First the percentage of outside air being supplied to an area must be determined see ventilation section page 6 Air velocity is rarely uniform in an air duct since the shape of the duct frictional forces bends branches dampers and transitions all affect the movement of air For this reason when average air velocity is used to determine volume flow a special technique called the log Tchebycheff method should be employed As shown in the diagrams below several velocity measurements should be taken in the cross sectional area of a duct to ensure the most accurate estimate of average velocity is determined This average velocity can then be multiplied by the cross sectional area of the duct in square feet to give an estimate of volume based on velocity ASHRAE Standard 111 has additional details on measuring air flow in ducts Location of measuring points for traversing round or rectangular ducts using the log Tchebycheff method Another method of obtaining air flow volume is through the use of capture hoods which give a quick direct reading of air volume
43. tive means of evaluating filters to be certain they are performing as they should have no tears or holes and that gaskets and support framing are tight Measuring the pressure drop across a filter is a cost effective method for verifying filter and system performance An air filter should be changed when the filter fills up with debris and creates an excessive pressure drop resulting in reduced airflow through the filter Periodic visual inspections and monitoring the pressure drop across the filter with a mechanical or digital manometer is a simple solution for general ventilation system maintenance Applications requiring contaminant free air such as pharmaceutical labs biological research labs hospital operating and intensive care rooms isolation areas and some high tech assembly areas require the use of HEPA High Efficiency Particulate Arresting filters These filters trap 99 97 of all particles and are rated at 0 3 microns in diameter a size which is among the most difficult size to stop The HEPA filter is composed of randomly positioned micro glass fibers woven into a thick bed of material that may be several inches thick There is no direct or straight line of flow through the filter but a random twisted path that forces multiple particle impacts with fibers greatly increasing the chance of being captured Economic implication optimizing filter usage involves careful monitoring of the filter s performance An air filter s effi
44. ulb temperatures Electrochemical sensor measures CO Model 7545 Displays up to three parameters TSI LogDat2 software permits easy transfer of CO oT data toa CO computer Temperature Data can be Humidity reviewed on Percentage outside air screen or Dew point downloaded to a Wet bulb temperature computer Data logging downloading Statistics Statistics function displays Review data average Certificate of Calibration maximum and minimum values and the number of recorded samples Volatile Organic Compounds VOC Indoor Air Quality Probes Models 984 985 986 987 e Pre calibrated plug and play accessory probes for TSI Q Trak Monitor 7575 VelociCalc Meter 9565 and Airflow Instruments TA465 Meter Compact design with ergonomic handle Four versions available with multiple measurement capability Model 984 Low concentration ppb VOC and temperature Model 985 High concentration ppm VOC and temperature Model 986 Low concentration ppb VOC temperature CO and humidity Model 987 High concentration ppm VOC temperature CO2 and humidity 25 HVAC Assessment Handbook Air Velocity Transducers Models 8455 8465 8475 General Purpose 8455 Protected probe tip Rugged ceramic sensor Wide range of measurement applications Fast response time Windowless 8465 e Less flow blockage e Ideal for measuring in confined spaces e Fast response time Omnidirectional 8475
45. wnloading software with USB cable Accommodates optional pitot air flow straight pitot temperature relative humidity velocity matrix or thermoanemometer probes for use in multiple applications e Large graphic display with backlight offers easy to use interface Model 8715 is only available outside of North America Please see the Alnor EBT730 for availability in North America Q TRAK Indoor Air Quality Monitors Model 7575 Simultaneously measures CO CO temperature and humidity Calculates dew point wet bulb and percent outside air Large graphic display o Displays up to 5 measurements o On screen messages and instructions o Supports 12 different languages One instrument with multiple plug in probe options including VOCs and air velocity Store up to 39 days of data collected at one minute log intervals TrakPro Data Analysis Software provided for data logging analysis and documenting results Bluetooth communications 24 TSI Incorporated HVAC Assessment Handbook HVAC Assessment Handbook TAQ CALC Indoor Air Quality Meters Models 7515 7525 7545 e Low drift NDIR CO sensor for stable accurate readings e Sampling function records multiple point measurements e Ergonomic overmolded case design Models 7525 and 7545 Temperature and relative humidity measurements help determine thermal comfort Calculates percentage outside air from either CO or temperature Directly calculates dew point and wet b
Download Pdf Manuals
Related Search