Trane TRG-TRC014-EN manual Ventilation Reset

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period five

Application Considerations

notes

Ventilation Reset

outdoor airflow

RA

 

 

 

 

central air handler

measurement

 

 

 

 

and control

 

 

 

 

with controls

OA

 

 

 

 

 

 

 

 

 

 

 

 

PA

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

VAV terminal units

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

with DDC controls

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

communicating BAS

 

 

 

 

 

 

 

 

 

 

Figure 97

With all three components, DDC controls on the VAV terminal units and air handler, a method to measure outdoor airflow at the air handler, and a communicating building automation system (BAS), a VAV system can use the multiple-spaces equation (Equation 6-1) from Standard 62 to dynamically operate the VAV system.

Each VAV terminal unit continuously monitors primary airflow. The DDC controller also knows the ventilation air requirement. With this information, the controller can continuously calculate the space ventilation fraction of the space, or (the ventilation airflow required divided by the primary airflow being delivered). The BAS periodically gathers this data from all the VAV terminal units and solves Equation 6-1. This determines the amount of outdoor airflow that must be introduced at the system level, at the central air handler, to satisfy the ventilation requirements. The BAS then resets the outdoor airflow set point, and the outdoor airflow measuring device controls the damper accordingly.

This method, called ventilation reset, ensures that all spaces are properly ventilated at all load conditions while minimizing wasteful overventilation.

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TRG-TRC014-EN

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Contents Air Conditioning Clinic VAV Systems One of the Systems Series Publication of The Trane Company VAV Systems PrefaceContents TRG-TRC014-EN Constant-Volume Variable-Temperature System What Is Variable Air Volume?Constant Volume-Full Load Constant × Supply Airflow Constant Volume-Part LoadFine Constant Volume-Multiple SpacesTerminal Reheat System VAV-Full Load Variable-Air-Volume VAV SystemWhy VAV? Energy Savings VAV-Part LoadReduced fan energy Reduced refrigeration energy Dedicated terminal units Dedicated thermostats Why VAV? ComfortVAV System ComparisonVariable Thermal Load Profiles VAV Building CharacteristicsCommon Return Air Path Independent Space ControlComponents of a VAV System Components of a VAV SystemVAV Terminal Units Air Heating coil Filter Mixing fanVAV Terminal Units Primary air ir Single Duct, Cooling OnlySpace Heating with a VAV System Primary air VAV ReheatSeries Fan-Powered Terminal UnitsParallel, Fan-Powered Series, Fan-Powered Parallel Versus Series Fan-Powered Single-Duct VAV Systems Dual-Duct Cool Primary air Variable Air Volume to the SpaceSingle-Fan, Dual-Duct VAV System Constant Air Volume to the SpaceTwo-Fan, Dual-Duct VAV System VAV Terminal Unit Controls Upstream Pressure Affects AirflowVAV Terminal Unit Controls Pressure-Independent Control Pressure-Dependent ControlTerminal-Unit Control Technologies Primary Airflow MeasurementPneumatic Control Electronic Control Direct Digital Control DDC Components of a VAV System Diffusers DiffusersEffect Linear Slot DiffuserCeiling-Diffuser Compatibility Components of a VAV System Supply Duct System Supply Duct SystemDuct Design Equal friction methodStatic regain method Duct Design Recommendations Perimeter P Versus Interior System ConfigurationsPerimeter Spaces Perimeter SpacesBaseboard Perimeter Heating Overhead Supply Perimeter Heating Heat loss 250 Btu/hr/ft Dual-Duct VAV Fan-Powered VAVInterior Spaces, Reheat Required Interior SpacesChangeover/Bypass VAV System Small BuildingsSystem-Level Control Modes Occupied mode Unoccupied mode Morning warm-up/cool-down modeOccupied Mode Unoccupied Mode Morning Warm-up/Cool-down Mode Fan Modulation Fan Performance CurveFan Performance Curve System Resistance Curve System Resistance CurveRiding the Fan Curve Operating PointForward-Curved Centrifugal Fan Fan Modulation Curve Fan Modulation CurveVAV Fan Modulation Fan Control LoopDischarge Dampers Fan Modulation MethodsStatic pressure Discharge damper SP loss Inlet Vanes 0 r p m Fan-Speed ControlVariable-Pitch Blade Control BI fan with Discharge Dampers Fan Modulation ComparisonsFan Outlet Static-Pressure Control Controlling System Static PressureSensor located Down supply duct Supply Duct Static-Pressure ControlAt fan outlet Optimized Static-Pressure ControlPart-Load Comparison Period five Application ConsiderationsSystem-Level Ventilation System-Level VentilationVentilation Reset Freeze Protection for Coils Measures to Prevent Coil Freeze-UpFreeze Protection for Coils Part-Load Space Humidity Control Part-Load Space Humidity ControlPart-Load Supply Air Tempering Building Pressure Control Direct Pressurization ControlBuilding Pressure Control Application Considerations Review-Period One ReviewReview-Period Two Review-Period Four Review-Period ThreeTrane Air Conditioning Manual Review-Period FiveReview Questions for Period QuizQuiz TRG-TRC014-EN Answers Glossary Glossary Glossary Trane Company

TRG-TRC014-EN specifications

The Trane TRG-TRC014-EN is a comprehensive technical resource guide that serves as an essential tool for HVAC professionals and engineers looking to enhance their understanding of Trane's commercial HVAC systems. This guide provides an in-depth examination of Trane’s advanced technologies, key features, and design characteristics that position their products as industry leaders in heating, ventilation, and air conditioning.

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In conclusion, the Trane TRG-TRC014-EN stands as an essential guide for HVAC professionals seeking to leverage Trane’s innovative technologies and design features. With a strong emphasis on energy efficiency, sustainability, technical accuracy, smart integration, and robust support, this guide underscores Trane's position as a leader in the HVAC industry.
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