Next Class: Text 1.5 hour long Open book, open notes - Comprehensive

Slides:

Advertisements

Similar presentations

HUMIDIFICATION/COOLING TOWER

Advertisements

Heating and Air Conditioning I

Objectives Finish with ducts and fans Define project topics.

Fluid Mechanics and Applications Inter American Chapter 6 MEEN 3110 – Fluid Mechanics and Applications Fall Lecture 06 LOSSES IN PIPE SYSTEMS.

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

MECH 221 FLUID MECHANICS (Fall 06/07) Chapter 9: FLOWS IN PIPE

CHE/ME 109 Heat Transfer in Electronics LECTURE 7 – EXAMPLES OF CONDUCTION MODELS.

Piping Systems.

Objectives Learn more about Psychrometrics

Thermal Analysis and Design of Cooling Towers

Lecture Objectives: Model HVAC Systems –HW3 Asignemnet Learn about eQUEST software –How to conduct parametric analysis of building envelope.

Objectives Finish with plotting processes on Psychrometric chart

Objectives Select project topics Review for exam Learn about DOAS systems.

Water piping design.

Introduction Lecture Prepared by Prof. M. G. Wasel.

Heat Transfer Equations For “thin walled” tubes, A i = A o.

Objectives Heat exchangers Fluid mechanics (ducts and pitot tubes) Introduction to psychrometrics.

Chapter 8: Flow in Pipes.

Operated by the Southeastern Universities Research Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 1.

Heat Transfer Equations For “thin walled” tubes, A i = A o.

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 Differentiate CAV, VAV, dual-duct systems

Objectives Finish Heat Exchanger Dry HX analysis Extend dry analysis to condensing surfaces.

Lecture Objectives: Answer question related to Project 1 Finish with thermal storage systems Learn about plumbing systems.

Distributed Resistances and Fan Models Chapter 4.

Lecture Objectives: Differences in Conduction Calculation in Various Energy Simulation Programs Modeling of HVAC Systems.

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).

HW2 AHU problems: Book: 8.5, 8.25, 8.27, 8.28, 8.22 Cooling Cycles Problems: - Book: 3.1 (page 69), - Book: 3.5 ((page 70), - Out of book: Same like 3.5.

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

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)

Objectives Air Distribution Systems -Diffuser selection -Duct design.

Objectives Finish heat exchanger Heat exchanger performance

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

Duct Design Basics Lesson 3 Calculations. Fitting losses, System Effect 3.4.

Objectives Finish heat exchangers Air Distribution Systems

Lecture Objectives: Review Psychrometrics Introduce Air Handling Unit

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

Objectives Finish analysis of most common HVAC Systems

Lecture Objectives: Discuss HW4, answer your questions

Chapter 3: One-Dimensional Steady-State Conduction

Physical Behavior of Matter Review

ME 331 – Fluid Dynamics Spring 2008

Extended Surface Heat Transfer

Objectives Finish with Exchangers - Start Air Distribution Systems

Objectives Learn about Cooling towers Cooling cycles.

HW4 Problem (Use TITUS Square Ceiling MCD diffuser

Objectives Heat exchanger Dry HX vs. Vet HX (if we have time)

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 Heat exchanger Dry HX vs. Vet HX (if we have time)

Objectives Learn about Fans Discuss Exam Final Project.

Objectives - Learn about fans and fan curves

Objectives Plot processes in AHU and buildings on psychrometric chart

Objectives Finish with Exchangers - Start Air Distribution Systems

Objectives Finish with Duct Design Diffuser Selection

Lecture Objectives: Review Psychrometrics Introduce Air Handling Unit

Lecture Objectives: Finish cooling / heat pump example

Lecture Objectives: Learn about air-conditioning (psychrometric)

Objectives Duct Design AND Diffuser Selection.

Objectives Finish with Heat Exchangers

Objectives Duct Design AND Diffuser Selection.

Lecture Objectives Review what we learned about Eclectic Energy Production Learn about Thermal Comfort Introduce Psychrometric Chart.

Objectives Finish with Heat exchangers

Announcements Exam 1 Next Class (Thursday, March 14th):

Objectives Learn more about Psychrometrics

Objectives Continue with Psychometrics Psychometric chart Equations

Objectives Discuss Rotary Heat Exchangers

Objectives Air Distribution Systems Duct design HW4.

Presentation transcript:

Next Class: Text 1.5 hour long Open book, open notes - Comprehensive Bee in class at 12:20 pm Open book, open notes - Comprehensive Next week (Monday at 10-12) extra office hours related to the Test

Objectives Finish with Ducts design Review for the Exam Example Answer your

Frictional Losses

Non-circular Ducts Parallel concept to wetted perimeter

Dynamic losses Losses associated with Two methods Changes in velocity Obstructions Bends Fittings and transitions Two methods Equivalent length and loss coefficients

Loss Coefficients ΔPt = CoPv,0

Electrical Resistance Analogy

Example 18.7 Determine total pressure drop from 0 to 4

Fan selection Calculated DP and V

Fan Performance

Conversion Between Methods Se Example 18.8 and compare with 18.7

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 conductivity influences fin efficiency? Holding all other parameters equal, how important is increasing the thermal conductivity

Psychrometrics and Processes (7 & 8) Know all parameters and their location/orientation on a psychrometric chart Be able to look up conversions of parameters on a psychrometric chart and with calculations Use protractor to calculate SHR and ΔW/Δh Plot processes on a chart for real buildings List what is held constant for different processes Describe processes in AHUs in psychrometric chat

Direct Contact (10) Purpose of cooling towers Psychrometrics Describe how a cooling tower works

Cycles (3), Refrigerants (4) Describe Carnot cycle and components Understand constant variables for each component List, describe, and calculate inefficiencies Use figures, refrigerant tables and equations for different substances List important parameters for refrigerant selection/differentiation

Heat Exchangers (11) Differentiate types Calculate ε, and UA, etc. Complete broad analysis Which m is larger, which Δt is larger? Within and between heat exchangers

Heat Exchangers (11) Calculate and compare different thermal resistances Describe influence of key factors Integrate different parameters/resistances Manipulate UA equation Describe differences for wet and dry heat exchangers

Diffusers, Duct Components (18) Select diffusers Define all terms on manufacturer data sheets Calculate pressure drop of: Straight duct Duct fittings Differentiate fans and describe fan curves

Duct layout/design (18) Equal friction method Supply or return systems Balance the system