Objectives Finish with Duct Design Diffuser Selection

Slides:

Advertisements

Similar presentations

AIR DISTRIBUTION (Additional information. Also see Chapter 18) General The proper delivery of air for heating, cooling, or ventilation is a crucial part.

Advertisements

Elementary Mechanics of Fluids

Key HVAC Design Concepts. Agenda Discuss relevance of thermal enclosure system to HVAC system. Present the three major steps to design an HVAC system.

1 HVAC SHEET METAL SHEET METAL THEORY. 2 THE AIR DISTRIBUTION SYSTEM SHEET METAL IS USED FOR: – PLENUM’S (RETURN & SUPPLY) –TRUNK LINES –RETURN AIR GRILLS.

Coupling a Network HVAC Model to a Computational Fluid Dynamics Model Using Large Eddy Simulation Jason Floyd Hughes Associates, Inc Fire + Evacuation.

Heating and Air Conditioning I

Objectives Finish with ducts and fans Define project topics.

1 Meeting ASHRAE Fundamentals, Standard 55 & 62.1 with Chilled Beams Displacement Ventilation.

Trevor Thompson Senior Project II Vermont Technical College Spring 2011.

ARCH-4372/6372 HVAC Distribution & Sizing HVAC Distribution Systems

Announcement Course Exam October 11 th (Tuesday) In class: 90 minutes long Examples are posted on the course website.

1 Lec 26: Frictionless flow with work, pipe flow.

Enclosure Fire Dynamics

HVACR416 - Design Pressure Measurement Part 2. Pressure Measurement Several pressure measurements exist. They all measure the same things, the force of.

(material to be checked with local legislation)

AIR QUANTITY REQUIRED TO TRANSFER HEAT IN A FORCED AIR SYSTEM In all four mechanical systems considered, the transfer of heat, either by taking it out.

HVACR416 - Design Grills, Registers, and Diffusers.

Chapter 12: Fans and Building Air Distribution

The International Authority on Air System Components Fan Performance Mark Stevens Director of Laboratory Services AMCA International.

Lecture Objectives Answer your questions related to CFD software Ventilation Effectiveness Thermal Comfort.

Chapter 11: Space Air Diffusion Conditioned air is normally supplied to air outlets at velocities much higher than would be acceptable in the occupied.

Drafts and Duct System Sizing

Objectives Analyze Rotary Heat Exchangers

Objectives Airflow in Ducts Fluid dynamic review Duct Design.

3.4 Equal friction method This method of sizing is used for supply, exhaust and return air duct system and employs the same friction lose per foot of length.

Objectives Describe room distribution basics Select diffusers

Objectives Learn about Fans Discuss: Exam (I will have an extra office hour on Monday at 8:00 am) Final Project (I need your group member lists till tomorrow).

Objectives Finish with Duct Design Review the design procedure and explain the theoretical background Diffuser Selection Answer question related to the.

Flow of Compressible Fluids. Definition A compressible flow is a flow in which the fluid density ρ varies significantly within the flowfield. Therefore,

Review Project 1 Define Project 2 Define parameters for Thermal Comfort and Air Quality analyses in CFD Lecture Objectives.

AIR CONDITIONING (COOLING) UNIT 37 AIR DISTRIBUTION AND BALANCE

Course Exam Next Thursday (April 15) 7 pm Same classroom (ECJ 7.208) 2.5-hour exam Open book open notes All problem types of questions (short but comprehensive)

FANS & BLOWERS Presented By Pranav 11MTFTFE009 Food Engineering.

Objectives - Air Distribution Systems -Diffuser selection -Duct design Reading Assignment: Chapter 18.

Objectives Air Distribution Systems -Diffuser selection -Duct design.

Duct Design Basics Lesson 4 Manual D Primer. Available Static Pressure 4.4.

Objectives Finish heat exchangers Air Distribution Systems

HCB 3-Chap 20A: Room Air Distribution 1 Chap 20A: ROOM AIR DISTRIBUTION METHODS Agami Reddy (July 2016) Common types of diffusers and grilles Basic concepts.

Part 15 Technician’s Guide & Workbook for Duct Diagnostics and Repair.

Chapter 6 technology institute of HAVC from usst INDUSTRIAL VENTILATION TUTORIAL 王丽慧.

Space Air Diffusion. Fundamentals  Objectives – thermal comfort and indoor air quality – even space air conditions – acceptable air cleanliness – acceptable.

Field Trip Time: Tomorrow (Tuesday) 8 am Duration 1 hour (you will be back latest at 10 am) Location Texas State University: Round Rock

Learning, our way DUCT DESIGN (material to be checked with local legislation) Daikin Europe, Consulting sales section.

System Diagrams Symbol Library – Black Background David Sellers

Chapter 16B: FANS AND SYSTEM EFFECTS

Technology in Architecture

Lecture Objectives Discuss: Project 1 Diffuser modeling

Objectives Finish with Exchangers - Start Air Distribution Systems

MECH 8250 – Building Systems Winter 2015

Chap 20A: ROOM AIR DISTRIBUTION METHODS

Maria’s Restaurant Chapter 4 Section 14

HW4 Problem (Use TITUS Square Ceiling MCD diffuser

Presented by Dan Int-Hout, Chief Engineer ASHRAE Fellow Life Member

Objectives Finish duct systems Learn about plumbing systems

Review for the Exam Should be able to do all calculations associated with lectures as well as HWs Problems may deal with context i.e. Explain how thermal.

Objectives Learn about Fans Discuss Exam Final Project.

Objectives - Learn about fans and fan curves

Objectives Finish with Exchangers - Start Air Distribution Systems

Objectives Finish with heat exchangers (ch.11)

FBE03: Building Construction & Science

Objectives Duct Design AND Diffuser Selection.

Objectives Finish with Heat Exchangers

Lecture Objectives: Boundary Conditions Project 1 (software)

Objectives Duct Design AND Diffuser Selection.

Objectives Discuss Rotary Heat Exchangers

Objectives Discuss Exam Finish with Diffuser Selection

Objectives Air Distribution Systems Duct design HW4.

Copyright Materials This educational activity is protected by U.S. and International copyright laws. Reproduction, distribution, display, and use of.

Presentation transcript:

Objectives Finish with Duct Design Diffuser Selection Review the design procedure and explain the theoretical background Diffuser Selection

Frictional Losses

Dynamic losses Losses associated with Changes in velocity Obstructions Bends Fittings and transitions

Air Distribution System Design Describe room distribution basics Select diffusers Supply and return duct sizing

Forced driven air flow Diffusers Grill (side wall) diffusers Linear diffusers Vertical Horizontal one side

Diffusers types Valve diffuser swirl diffusers ceiling diffuser wall or ceiling floor

Diffusers http://www.titus-hvac.com/techzone/ Perforated ceiling diffuser Jet nozzle diffuser Round conical ceiling diffuser Square conical ceiling diffuser Wall diffuser unit Swirl diffuser Floor diffuser Auditorium diffuser Linear slot diffuser DV diffuser External louvre Smoke damper http://www.titus-hvac.com/techzone/ http://www.halton.com/halton/cms.nsf/www/diffusers

Low mixing Diffusers Displacement ventilation

Diffuser Selection Procedure Select and locate diffusers, divide airflow amongst diffusers V = maximum volumetric flow rate (m3/s, ft3/min) Qtot = total design load (W, BTU/hr) Qsen = sensible design load (W, BTU/hr) ρ = air density (kg/m3, lbm/ft3) Δt = temperature difference between supply and return air (°C, °F) Δh = enthalpy difference between supply and return air (J/kg, BTU/lbm)

Find Characteristic Length (L)

Indicator of Air Distribution Quality ADPI = air distribution performance index Fraction of locations that meet criteria: -3 °F < EDT < 2 °F or -1.5 °C < EDT < 1 °C Where, EDT = effective draft temperature Function of V and Δt (Eqn 18.1) EDT=(tlocal-taverage)-M(Vlocal-Vaverage) , M=7 °C/(m/s) ADPI considers ONLY thermal comfort (not IAQ)

Ideal and Reasonable Throws

Diffuser testing

ADPI

Select Register Pick throw, volumetric flow from register catalog Check noise, pressure drop http://www.titus-hvac.com/ecatalog/subcategory.aspx?refid=186 http://www.nailor.com/ http://www.price-hvac.com/

Summary of Diffuser Design Procedure Find Q sensible total for the space Select type and number of diffusers Find V for each diffuser Find characteristic length Select the diffuser from the manufacturer data

Fans Driving force to move air in buildings Raise pressure and produce flow Two main types: Centrifugal Axial

Relevant Fan Parameters Total pressure rise Static pressure rise Power requirement Efficiency Note ηtot does not account for motor efficiency

Balance Point

Fan Performance

Centrifugal fans

Axial Fans

Fan Laws “Approximate relationships” Given two aerodynamically similar fans, can extrapolate performance data Be very careful