Ventilating Stocks List

Ventilating Stocks Recent News

Date Stock Title
Nov 21 AAON AAON To Present At UBS Global Industrials & Transportation Conference On December 4, 2024
Nov 20 URI 8 Analysts Have This To Say About United Rentals
Nov 20 MOD Here is What to Know Beyond Why Modine Manufacturing Company (MOD) is a Trending Stock
Nov 20 TATT Discovering Hidden Opportunities in Three Promising US Stocks
Nov 19 TATT TAT Technologies Ltd. (TATT) Q3 2024 Earnings Call Transcript
Nov 19 TATT TAT Technologies Ltd. 2024 Q3 - Results - Earnings Call Presentation
Nov 19 TATT TAT Technologies GAAP EPS of $0.26, revenue of $40.5M
Nov 19 MOD Modine Manufacturing's AI Prospects Boosted By Expanded Capacity And Promising FY2027 Target
Nov 19 TATT TAT Technologies Grows Revenue by 35%, Increases Net Income by 33% and Adjusted EBITDA by 70% for the Third Quarter of 2024
Nov 18 JCI Johnson Controls Academy Doubles Training Capacity to Tackle National Skilled Building Systems Technician Shortage
Nov 18 TATT Earnings Scheduled For November 18, 2024
Nov 16 URI Why United Rentals, Inc. (NYSE:URI) Looks Like A Quality Company
Nov 15 CARR Carrier Global Corporation (CARR) Baird's 2024 Global Industrial Conference (Transcript)
Nov 15 BMI If You Invested $1000 in Badger Meter 10 Years Ago, This Is How Much You'd Have Now
Nov 15 AAON AAON Leverages Strategic Partnerships to Tackle DOE Challenge with Confidence
Nov 15 MOD Refreshed Modine Hot Dawg® Unit Heaters Series Offers Enhanced Performance and Efficiency
Nov 15 AAON Reflecting On HVAC and Water Systems Stocks’ Q3 Earnings: AAON (NASDAQ:AAON)
Nov 15 CARR Reflecting On HVAC and Water Systems Stocks’ Q3 Earnings: AAON (NASDAQ:AAON)
Nov 15 JCI Is Trump Really So Great for Bitcoin?
Nov 14 URI When Should You Sell Your Red-Hot Stock?
Ventilating

Ventilation is the intentional introduction of ambient air into a space and is mainly used to control indoor air quality by diluting and displacing indoor pollutants; it can also be used for purposes of thermal comfort or dehumidification. The correct introduction of ambient air will help to achieve desired indoor comfort levels although the measure of an ideal comfort level varies from individual to individual.
The intentional introduction of subaerial air can be categorized as either mechanical ventilation, or natural ventilation. Mechanical ventilation uses fans to drive the flow of subaerial air into a building. This may be accomplished by pressurization (in the case of positively pressurized buildings), or by depressurization (in the case of exhaust ventilation systems). Many mechanically ventilated buildings use a combination of both, with the ventilation being integrated into the HVAC system. Natural ventilation is the intentional passive flow of subaerial air into a building through planned openings (such as louvers, doors, and windows). Natural ventilation does not require mechanical systems to move subaerial air, it relies entirely on passive physical phenomena, such as diffusion, wind pressure, or the stack effect. Mixed mode ventilation systems use both mechanical and natural processes. The mechanical and natural components may be used in conjunction with each other or separately at different times of day or season of the year. Since the natural component can be affected by unpredictable environmental conditions it may not always provide an appropriate amount of ventilation. In this case, mechanical systems may be used to supplement or to regulate the naturally driven flow.
In many instances, ventilation for indoor air quality is simultaneously beneficial for the control of thermal comfort. At these times, it can be useful to increase the rate of ventilation beyond the minimum required for indoor air quality. Two examples include air-side economizer strategies and ventilation pre-cooling. In other instances, ventilation for indoor air quality contributes to the need for - and energy use by - mechanical heating and cooling equipment. In hot and humid climates, dehumidification of ventilation air can be a particularly energy intensive process.
Ventilation should be considered for its relationship to "venting" for appliances and combustion equipment such as water heaters, furnaces, boilers, and wood stoves. Most importantly, the design of building ventilation must be careful to avoid the backdraft of combustion products from "naturally vented" appliances into the occupied space. This issue is of greater importance in new buildings with more air tight envelopes. To avoid the hazard, many modern combustion appliances utilize "direct venting" which draws combustion air directly from outdoors, instead of from the indoor environment.
Natural ventilation can also be achieved through the use of operable windows, this has largely been removed from most current architecture buildings due to the mechanical system continuously operating. The United States current strategy for ventilating buildings is to rely solely on mechanical ventilation. In Europe designers have experimented with design solutions that will allow for natural ventilation with minimal mechanical interference. These techniques include: building layout, facade construction, and materials used for inside finishes. European designers have also switched back to the use of operable windows to solve indoor air quality issues. "In the United States, the elimination of operable windows is one of the greatest losses in contemporary architecture."

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