DOCSLIB.ORG

Air Conditioning, Heating, and Refrigeration Technology Curriculum AHR 111 HVACR Electricity

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Air Conditioning, Heating, and Refrigeration Technology Curriculum AHR 111 HVACR Electricity 2016 – 2017 AIR CONDITIONING, HEATING, AND Air Conditioning, Heating and Refrigeration • D35100 REFRIGERATION TECHNOLOGY Evening Courses Are Offered On Demand Diploma Program (D35100) (See Your HVAC Advisor) Courses required to meet graduation requirements in this ENG 111 Writing and Inquiry ...............................................................................3 curriculum are offered during day and evening hours. Minimum OR ENG 102 Applied Communications II ..................................................3 time for completion: Day – two semesters full-time attendance; MAT 110 Math Measurement & Literacy .............................................................3 Evening – four semesters of part-time attendance. The Diploma is OR MAT 121 Algebra/Trigonometry I ........................................................3 awarded graduates of this curriculum. AHR 110 Intro to Refrigeration.............................................................................5 The Air Conditioning, Heating, and Refrigeration Technology curriculum AHR 111 HVACR Electricity ................................................................................3 AHR 112 Heating Technology ..............................................................................4 provides the basic knowledge to develop skills necessary to work with AHR 113 Comfort Cooling ...................................................................................4 residential and light commercial systems. Topics include mechanical AHR 114 Heat Pump Technology .........................................................................4 refrigeration, heating and cooling theory, electricity, controls, and safety. AHR 130 HVAC Controls .....................................................................................3 The diploma program covers air conditioning, furnaces, heat pumps, AHR 151 HVAC Duct Systems I .........................................................................2 tools and instruments. Diploma graduates should be able to assist in the AHR 160 Refrigerant Certification........................................................................1 AHR 180 HVACR Customer Relations .................................................................1 start up, preventive maintenance, service, repair, and/or installation of AHR 210 Residential Building Code ....................................................................2 residential and light commercial systems. AHR 211 Residential System Design ....................................................................3 WBL 110 World of Work .......................................................................................1 GENERAL EDUCATION COURSES: ............................................SHC English/Communications: Total Credit Hours Required ........................................................................39 ENG 111 Writing and Inquiry ................................................................................3 DEVELOPMENTAL COURSE REQUIREMENTS* OR ENG 102 Applied Communications II ..................................................3 CTS 080 Computing Fundamentals .....................................................................3 Natural Sciences/Mathematics: DRE 098 Integrated Reading Writing II ...............................................................3 MAT 110 Math Measurement & Literacy .............................................................3 DMA DMA 010, DMA 020, DMA 030 (MAT 110) ................................................3 OR MAT 121 Algebra/Trigonometry I ........................................................3 DMA DMA 010, DMA 020, DMA 030, DMA 040, DMA 050, DMA 060 (MAT 121) ................................................................................................6 MAJOR COURSES: AHR 110 Intro to Refrigeration.............................................................................5 *Developmental coursework (including all prerequisites) will be required of students AHR 111 HVACR Electricity ................................................................................3 whose placement test scores indicate a need for greater proficiency in the areas of AHR 112 Heating Technology ..............................................................................4 reading, English, mathematics, and computers. Please refer to the Course Descriptions AHR 113 Comfort Cooling ...................................................................................4 section for prerequisite course information. AHR 114 Heat Pump Technology .........................................................................4 AHR 130 HVAC Controls .....................................................................................3 AHR 151 HVAC Duct Systems I .........................................................................2 AHR 160 Refrigerant Certification........................................................................1 Air Conditioning, Heating and Refrigeration Certificate • C35100 AHR 180 HVACR Customer Relations .................................................................1 AHR 210 Residential Building Code ....................................................................2 MAJOR COURSES: AHR 211 Residential System Design ....................................................................3 AHR 110 Intro to Refrigeration ..................................................... 5 WBL 110 World of Work .......................................................................................1 AHR 111 HVACR Electricity ........................................................ 3 AHR 112 Heating Technology ....................................................... 4 Total Credit Hours Required ........................................................................39 AHR 160 Refrigerant Certification ................................................ 1 DEVELOPMENTAL COURSE REQUIREMENTS* Total Credit Hours Required ........................................................................13 CTS 080 Computing Fundamentals .....................................................................3 DEVELOPMENTAL COURSE REQUIREMENTS* DRE 098 Integrated Reading Writing II ...............................................................3 CTS 080 Computing Fundamentals .....................................................................3 DMA DMA 010, DMA 020, DMA 030 (MAT 110) ................................................3 DRE 097 Integrated Reading Writing II ...............................................................3 DMA DMA 010, DMA 020, DMA 030, DMA 040, DMA 050, *Developmental coursework (including all prerequisites) will be required of students DMA 060 (MAT 121) ................................................................................................6 whose placement test scores indicate a need for greater proficiency in the areas of *Developmental coursework (including all prerequisites) will be required of students reading, English, mathematics, and computers. Please refer to the Course Descriptions whose placement test scores indicate a need for greater proficiency in the areas of section for prerequisite course information. reading, English, mathematics, and computers. Please refer to the Course Descriptions section for prerequisite course information. Air Conditioning, Heating and Refrigeration Certificate • C35100 Air Conditioning, Heating and Refrigeration • D35100 Suggested Program Sequence Day Suggested Program Sequence Day Fall – 1st year AHR 110 Intro to Refrigeration 2 6 0 5 Fall – 1st year Class Lab Clin/WkExp Credit AHR 111 HVACR Electricity 2 2 0 3 AHR 110 Intro to Refrigeration (1st 8 weeks) 2 6 0 5 AHR 112 Heating Technology 2 4 0 4 AHR 111 HVACR Electricity (1st 8 weeks) 2 2 0 3 AHR 160 Refrigerant Certification 1 0 0 1 AHR 112 Heating Technology (2nd 8 weeks) 2 4 0 4 Total 7 12 0 13 AHR 151 HVAC Duct Systems I 1 3 0 2 AHR 180 HVACR Customer Relations (2nd 8 weeks) 1 0 0 1 Grand Total 7 12 0 13 AHR 211 Residential Systems Design (2nd 8 weeks) 2 2 0 3 Total 10 17 0 18 Air Conditioning, Heating and Refrigeration Certificate • C35100 Spring – 1st year Evening Courses Are Offered On Demand AHR 113 Comfort Cooling (2nd 8 weeks) 2 4 0 4 (See Your HVAC Advisor) AHR 210 Residential Building Code (1st 8 weeks) 1 2 0 2 AHR 114 Heat Pump Technology (1st 8 weeks) 2 4 0 4 AHR 110 Intro to Refrigeration ..................................................... 5 AHR 130 HVAC Controls (2nd 8 weeks) 2 2 0 3 AHR 111 HVACR Electricity ........................................................ 3 AHR 160 Refrigerant Certification (2nd 8 weeks) 1 0 0 1 AHR 112 Heating Technology ....................................................... 4 WBL 110 World of Work 1 0 0 1 AHR 160 Refrigerant Certification ................................................ 1 MAT 110 Math Measurement & Literacy 2 2 0 3 Total Credit Hours Required ........................................................................13 OR MAT 121 Quantitative Literacy 2 2 0 3 DEVELOPMENTAL COURSE REQUIREMENTS* CTS 080 Computing Fundamentals .....................................................................3 Total 11 14 0 18 Summer – 1year DRE 097 Integrated Reading Writing II ...............................................................3 ENG 111 Writing and Inquiry 3 0 0 3 *Developmental coursework (including all prerequisites) will be required of students OR ENG 102 Applied Communications II 3 0 0 3 whose placement test scores indicate a need for greater proficiency in the areas of reading, English, mathematics, and computers. Please refer to the Course Descriptions Total 3 0 0 3 section for prerequisite course information. Grand Total 24 31 0 39.
Load more

Recommended publications
  • Wind- Chimney
    WIND-CHIMNEY Integrating the Principles of a Wind-Catcher and a Solar-Chimney to Provide Natural Ventilation A Thesis presented to the Faculty of California Polytechnic State University, San Luis Obispo In Partial Fulfillment of the Requirements for the Degree Master of Science in Architecture by Fereshteh Tavakolinia December 2011 WIND-CHIMNEY Integrating the Principles of a Wind-Catcher and a Solar-Chimney to Provide Natural Ventilation © 2011 Fereshteh Tavakolinia ALL RIGHTS RESERVED ii COMMITTEE MEMBERSHIP TITLE: WIND-CHIMNEY Integrating the Principles of a Wind-Catcher and a Solar-Chimney to Provide Natural Ventilation AUTHOR: Fereshteh Tavakolinia DATE SUBMITTED: December 2011 COMMITTEE CHAIR: James A. Doerfler, Associate Department Head COMMITTEE MEMBER: Jacob Feldman, Professor iii WIND-CHIMNEY Integrating the principles of a wind-catcher and a solar chimney to provide natural ventilation Fereshteh Tavakolinia Abstract This paper suggests using a wind-catcher integrated with a solar-chimney in a single story building so that the resident might benefit from natural ventilation, a passive cooling system, and heating strategies; it would also help to decrease energy use, CO2 emissions, and pollution. This system is able to remove undesirable interior heat pollution from a building and provide thermal comfort for the occupant. The present study introduces the use of a solar-chimney with an underground air channel combined with a wind-catcher, all as part of one device. Both the wind-catcher and solar chimney concepts used for improving a room’s natural ventilation are individually and analytically studied. This paper shows that the solar-chimney can be completely used to control and improve the underground cooling system during the day without any electricity.
    [Show full text]
  • Solar Heating and Cooling & Solar Air-Conditioning Position Paper
    Task 53 New Generation Solar Cooling & Heating Systems (PV or solar thermally driven systems) Solar Heating and Cooling & Solar Air-Conditioning Position Paper November 2018 Contents Executive Summary ............................................................. 3 Introduction and Relevance ................................................ 4 Status of the Technology/Industry ...................................... 5 Technical maturity and basic successful rules for design .............. 7 Energy performance for PV and Solar thermally driven systems ... 8 Economic viability and environmental benefits .............................. 9 Market status .................................................................................... 9 Potential ............................................................................. 10 Technical potential ......................................................................... 10 Costs and economics ..................................................................... 11 Market opportunities ...................................................................... 12 Current Barriers ................................................................. 12 Actions Needed .................................................................. 13 This document was prepared by Daniel Neyer1,2 and Daniel Mugnier3 with support by Alexander Thür2, Roberto Fedrizzi4 and Pedro G. Vicente Quiles5. 1 daniel neyer brainworks, Oberradin 50, 6700 Bludenz, Austria 2 University of Innsbruck, Technikerstr. 13, 6020 Innsbruck, Austria
    [Show full text]
  • Air Conditioning and Refrigeration Systems
    AAS (60 SCH*) ® Air Conditioning *Semester Credit Hour 8/2020 First Semester - 15 SCH Second Semester - 15 SCH COSC 1301 - Introduction to Computing HART 1341 - Residential Air Conditioning HART 1301 - Basic Electricity for HVAC HART 1345 - Gas and Electric Heating HART 1307 - Refrigeration Principles HART 2341 - Commercial Air Conditioning HART 1310 - HVAC Shop Practices and Tools HART 2349 - Heat Pumps PSYC 1300 - Learning Framework SPCH 1321 - Business & Professional Communication Third Semester - 15 SCH Fourth Semester - 15 SCH HART 2331 - Advanced Electricity for HVAC HART 2334 - Advanced Air Conditioning Controls HART 2336 - Air Conditioning Troubleshooting HART 2343 - Industrial Air Conditioning HART 2338 - Air Conditioning Installation & Startup HART 1356 - EPA Recovery Certification Preparation HART 2345 - Residential Air Conditioning Systems Design MATH 1332 - Contemporary Mathematics ENGL 1301 - Composition I DRAM 1310 - Introduction to Theater Marketable Skills Program Outcomes Math Skills; manage time and materials; acquire and evaluate • Install, troubleshoot and repair refrigerators, freezers, and information; interpret and communicate information; oral and window air conditioners. written communications skills; computer skills; teamwork; cultural • Install, troubleshoot and repair split or package residential diversity; apply technology to work; creative thinking; decision air conditioning systems, including electric furnaces, gas making; problem solving; self-management; construction and furnaces and heat pumps. industrial
    [Show full text]
  • Wind Catchers
    Journal of Sustainable Development Vol. 3, No. 2; June 2010 Wind Catchers: Remarkable Example of Iranian Sustainable Architecture Amirkhani Aryan (Corresponding author's address) Department of Architecture, Faculty of Art, University of Tarbiat Modares, Jalal Ale Ahmad St, Tehran, Iran Tel/Fax: 98-21-4441-6537 E-mail: [email protected] Zamani Ehsan Department of Architecture, Faculty of Art, University of Tarbiat Modares, Jalal Ale Ahmad St, Tehran, Iran Tel/Fax: 98-21-4427-2493 E-mail: [email protected] Saidian Amin Department of Architecture, Faculty of Art, University of shahid beheshti, velenjak St, Tehran, Iran Tel/Fax: 98-21-6601-9587 E-mail: [email protected] Khademi Masoud Department of Urban design, Faculty of Art, University of Tarbiat Modares, Jalal Ale Ahmad St, Tehran, Iran Abstract As scientists we tend to view technology as a scientific system but in fact the success of a particular technology at a particular time may rest less on its efficient performance and more on its 'social' relevance and impact. We now need to identify sustainable design investments for a very uncertain future of expanding populations, scarcer resources and climate change. Buildings in the Iranian desert regions are constructed according to the specific climatic conditions and differ with those built in other climates. Desert buildings are equipped with air traps, arched roofed, water reservoirs with arched domes and ice stores for the preservation of ice. The operation of modern coolers is similar to the old Iranian air traps which were built at the entrance of the house over underground water reservoirs or ponds built inside the house.
    [Show full text]
  • Indoor Air Quality in Commercial and Institutional Buildings
    Indoor Air Quality in Commercial and Institutional Buildings OSHA 3430-04 2011 Occupational Safety and Health Act of 1970 “To assure safe and healthful working conditions for working men and women; by authorizing enforcement of the standards developed under the Act; by assisting and encouraging the States in their efforts to assure safe and healthful working conditions; by providing for research, information, education, and training in the field of occupational safety and health.” This publication provides a general overview of a particular standards-related topic. This publication does not alter or determine compliance responsibili- ties which are set forth in OSHA standards, and the Occupational Safety and Health Act of 1970. More- over, because interpretations and enforcement poli- cy may change over time, for additional guidance on OSHA compliance requirements, the reader should consult current administrative interpretations and decisions by the Occupational Safety and Health Review Commission and the courts. Material contained in this publication is in the public domain and may be reproduced, fully or partially, without permission. Source credit is requested but not required. This information will be made available to sensory- impaired individuals upon request. Voice phone: (202) 693-1999; teletypewriter (TTY) number: 1-877- 889-5627. Indoor Air Quality in Commercial and Institutional Buildings Occupational Safety and Health Administration U.S. Department of Labor OSHA 3430-04 2011 The guidance is advisory in nature and informational in content. It is not a standard or regulation, and it neither creates new legal obligations nor alters existing obligations created by OSHA standards or the Occupational Safety and Health Act.
    [Show full text]
  • Solar Cooling Used for Solar Air Conditioning - a Clean Solution for a Big Problem
    Solar Cooling Used for Solar Air Conditioning - A Clean Solution for a Big Problem Stefan Bader Editor Werner Lang Aurora McClain csd Center for Sustainable Development II-Strategies Technology 2 2.10 Solar Cooling for Solar Air Conditioning Solar Cooling Used for Solar Air Conditioning - A Clean Solution for a Big Problem Stefan Bader Based on a presentation by Dr. Jan Cremers Figure 1: Vacuum Tube Collectors Introduction taics convert the heat produced by solar energy into electrical power. This power can be “The global mission, these days, is an used to run a variety of devices which for extensive reduction in the consumption of example produce heat for domestic hot water, fossil energy without any loss in comfort or lighting or indoor temperature control. living standards. An important method to achieve this is the intelligent use of current and Photovoltaics produce electricity, which can be future solar technologies. With this in mind, we used to power other devices, such as are developing and optimizing systems for compression chillers for cooling buildings. architecture and industry to meet the high While using the heat of the sun to cool individual demands.” Philosophy of SolarNext buildings seems counter intuitive, a closer look AG, Germany.1 into solar cooling systems reveals that it might be an efficient way to use the energy received When sustainability is discussed, one of the from the sun. On the one hand, during the time first techniques mentioned is the use of solar that heat is needed the most - during the energy. There are many ways to utilize the winter months - there is a lack of solar energy.
    [Show full text]
  • Air Conditioning and Refrigeration Chronology
    Air Conditioning and Refrigeration C H R O N O L O G Y Significant dates pertaining to Air Conditioning and Refrigeration revised May 4, 2006 Assembled by Bernard Nagengast for American Society of Heating, Refrigerating and Air Conditioning Engineers Additions by Gerald Groff, Dr.-Ing. Wolf Eberhard Kraus and International Institute of Refrigeration End of 3rd. Century B.C. Philon of Byzantium invented an apparatus for measuring temperature. 1550 Doctor, Blas Villafranca, mentioned process for cooling wine and water by adding potassium nitrate About 1597 Galileo’s ‘air thermoscope’ Beginning of 17th Century Francis Bacon gave several formulae for refrigeration mixtures 1624 The word thermometer first appears in literature in a book by J. Leurechon, La Recreation Mathematique 1631 Rey proposed a liquid thermometer (water) Mid 17th Century Alcohol thermometers were known in Florence 1657 The Accademia del Cimento, in Florence, used refrigerant mixtures in scientific research, as did Robert Boyle, in 1662 1662 Robert Boyle established the law linking pressure and volume of a gas a a constant temperature; this was verified experimentally by Mariotte in 1676 1665 Detailed publication by Robert Boyle with many fundamentals on the production of low temperatures. 1685 Philippe Lahire obtained ice in a phial by enveloping it in ammonium nitrate 1697 G.E. Stahl introduced the notion of “phlogiston.” This was replaced by Lavoisier, by the “calorie.” 1702 Guillaume Amontons improved the air thermometer; foresaw the existence of an absolute zero of temperature 1715 Gabriel Daniel Fahrenheit developed mercury thermoneter 1730 Reamur introduced his scale on an alcohol thermometer 1742 Anders Celsius developed Centigrade Temperature Scale, later renamed Celsius Temperature Scale 1748 G.
    [Show full text]
  • Operating and Maintenance Manual Slope Or Flat Top Console Unit
    Operating and Maintenance Manual CHPW Slope or Flat Top Console Unit Water Source Heat Pump (WSHP) Unit Contents Welcome Welcome........................................................ 2 Congratulations on your selection of the ICE AIR Water Source Heat Consumer Safety Information/Guidelines ... 3 Pump (WSHP). The WSHP is a combination cooling and heating Components and Parts View ........................ 4 unit that provides an efficient room by room source for comfort Nomenclature ............................................... 5 conditioning of your living environment. Controls ......................................................... 6 ICE AIR WSHP Console units are built to a high standard of quality LCD Programmable Operation..................7-9 and reliability, employing commercial grade components and heavy Maintenance ..........................................10-11 duty, galvanized sheet metal casings. With proper maintenance and Troubleshooting .......................................... 12 usage, ICE AIR WSHPs should provide many years of efficient, quiet Warranty/Contact Information ................... 16 and trouble-free comfort. To enhance the use of your ICE AIR equipment, you will want to read and carefully follow all of the instructions contained in this Operating and Maintenance Manual. We recommend that you pay special attention to the Safety and Warning Information section at the beginning of this Manual, and to the various safety advisories throughout this Manual. Please retain this Manual for your future reference. We suggest that you keep it with other important documents and product manuals. If your unit has optional features, they will be explained in a separate instruction sheet specific to that option. On behalf of ICE AIR, and our network of distributors and dealers, we are happy to welcome you to our base of satisfied customers! We recommend that you record the following information about your ICE AIR product(s).
    [Show full text]
  • Solutions for Air Humidification and Evaporative Cooling
    Solutions for air humidication and evaporative cooling Control Solutions and Humidification Systems for HVAC/R high efficiency solutions Can protecting the environment be reconciled with our industrialised society? Yes, today this is possible. Indeed, this is the concept of sustainable development: improving the quality of the life, without overloading the supporting ecosystems that it depends on, now made possible by progresses in technology. While until recently sustainable development was simply a desire, a cost and an obligation defined by legislators so as to bequeath a healthy planet to future generations, today it is the only plausible choice. Changing public awareness continues to focus on the more worthy companies, rewarding these with higher sales. A need has thus become an opportunity, a chance not to be missed to unite the need to develop products and services that save energy with the possibility to effectively reduce environmental impact. To encourage sustainable development, many activities are underway as concerns both the environmental policies of individual nations and international organisations (above all the European Union), and specific research and development work. Today, then, solutions to combat global warming and pollution, to live a sustainable existence, to make our cities more liveable and our factories more efficient and virtuous all exist: the technology is here. control energy respect for the consumption environment CAREL has always developed and promoted evolved control systems, proposing innovative solutions in the HVAC/R sector. These are our “high efficiency solutions”, a clear response for environmental protection through optimised and integrated control systems, capable of bringing significant energy savings and consequently reducing environmental impact.
    [Show full text]
  • Air Conditioning Fans One of the Equipment Series
    Air Conditioning Clinic Air Conditioning Fans One of the Equipment Series February 2012 TRG-TRC013-EN Air Conditioning Fans One of the Equipment Series A publication of Trane Preface Air Conditioning Fans A Trane Air Conditioning Clinic Figure 1 Trane believes that it is incumbent on manufacturers to serve the industry by regularly disseminating information gathered through laboratory research, testing programs, and field experience. The Trane Air Conditioning Clinic series is one means of knowledge sharing. It is intended to acquaint a nontechnical audience with various fundamental aspects of heating, ventilating, and air conditioning. We’ve taken special care to make the clinic as uncommercial and straightforward as possible. Illustrations of Trane products only appear in cases where they help convey the message contained in the accompanying text. This particular clinic introduces the concept of air conditioning fans. © 2004 Trane. All rights reserved ii TRG-TRC013-EN Contents Introduction ........................................................... 1 period one Fan Performance .................................................. 2 Fan Performance Curves ....................................... 11 System Resistance Curve ...................................... 17 Fan – System Interaction ....................................... 19 period two Fan Types .............................................................. 27 Forward Curved (FC) Fans ..................................... 28 Backward Inclined (BI) Fans ..................................
    [Show full text]
  • The Future of Air Conditioning for Buildings
    The Future of Air Conditioning for Buildings July 2016 W. Goetzler, M. Guernsey, J. Young, J. Fuhrman Navigant Consulting, Inc. O. Abdelaziz, PhD Oak Ridge National Laboratory (This page intentionally left blank) NOTICE This report was prepared as an account of work sponsored by an agency of the United States Government. Neither the United States Government, nor any agency thereof, nor any of their employees, nor any of their contractors, subcontractors, or their employees, makes any warranty, express or implied, or assumes any legal liability or responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process disclosed, or represents that its use would not infringe privately owned rights. Reference herein to any specific commercial product, process, or service by trade name, trademark, manufacturer, or otherwise, does not necessarily constitute or imply its endorsement, recommendation, or favoring by the United States Government or any agency, contractor or subcontractor thereof. The views and opinions of authors expressed herein do not necessarily state or reflect those of the United States Government or any agency thereof. Available electronically at www.osti.gov/home/ Prepared for: U.S. Department of Energy Office of Energy Efficiency and Renewable Energy Building Technologies Office eere.energy.gov/buildings Prepared by: Navigant Consulting, Inc. 77 South Bedford Street, Suite 400 Burlington, MA 01803 William Goetzler Matt Guernsey Jim Young Jay Fuhrman Oak Ridge National Laboratory
    [Show full text]
  • Improving Ventilation and Indoor Air Quality During Wildfire Smoke Events Recommendations for Schools and Buildings with Mechanical Ventilation
    Improving Ventilation and Indoor Air Quality during Wildfire Smoke Events Recommendations for Schools and Buildings with Mechanical Ventilation Overview • Smoke is a complex mixture of carbon dioxide (CO2), water vapor, carbon monoxide (CO), hydrocarbons, other organic chemicals, nitrogen oxides (NOX), trace minerals, and particulate matter. o Particulate matter consists of solid particles and liquid droplets suspended in the air. Particles with diameters less than 10 microns (PM10) are upper respiratory tract and eye irritants. o Smaller particles (PM2.5) are the greatest health concern – they can be inhaled deep into the lungs, and can affect respiratory and heart health. o Carbon monoxide, a colorless, odorless gas produced by incomplete combustion, is a particular health concern and levels are highest during the smoldering stages of a fire. • Outdoor (ambient) air pollutants, including smoke, enter and leave buildings in three primary ways: 1. Mechanical ventilation systems, which actively draw in outdoor air through intake vents and distribute it throughout the building. 2. Natural ventilation (opening of doors or windows). 3. Infiltration, the passive entry of unfiltered outdoor air through small cracks and gaps in the building shell. • Tightly closed buildings reduce exposure to outdoor air pollution. Upgrading the filter efficiency of the heating, ventilating, and air-conditioning (HVAC) system and changing filters frequently during smoke events greatly improves indoor air quality. Supplementing with HEPA filters, particularly those with activated charcoal or other adsorbents, improves air quality even more. • During long-term smoke events, take advantage of periods of improved air quality (such as during rain or shifts in wind) to use natural ventilation to flush-out the building.
    [Show full text]