Presentation is loading. Please wait.

Presentation is loading. Please wait.

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

Published byJonathan Whitehead Modified over 8 years ago

Similar presentations

Presentation on theme: "Review Project 1 Define Project 2 Define parameters for Thermal Comfort and Air Quality analyses in CFD Lecture Objectives."— Presentation transcript:

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

2 Final project topics Open for various topics Research problems –Different environmental engineering problems –Airflow around human body and exposure –Smoke distribution simulation –Unsteady-state flow –Your topic Various Engineering Problems Natural ventilation – buoyancy and cross-ventilation Exhaust and supply air positions in large spaces Your topic I will need 0.5-1 page proposal for the next class

3 Thermal comfort Temperature Relative humidity Air velocity Mean radiant temperature

4 Thermal comfort Temperature and relative humidity

5 Thermal comfort Velocity Can create draft Draft is related to air temperature, air velocity, and turbulence intensity.

6 Thermal comfort Mean radiant temperature potential problems Asymmetry Warm ceiling (----) Cool wall (---) Cool ceiling (--) Warm wall (-)

7 Prediction of thermal comfort Predicted Mean Vote (PMV) + 3hot + 2warm + 1slightly warm PMV =0neutral -1 slightly cool -2cool -3cold PMV = [0.303 exp ( -0.036 M ) + 0.028 ] L L - Thermal load on the body L = Internal heat production – heat loss to the actual environment L = M - W - [( C sk + R sk + E sk ) + ( C res + E res )] Predicted Percentage Dissatisfied (PPD) PPD = 100 - 95 exp [ - (0.03353 PMV 4 + 0.2179 PMV 2 )] Empirical correlations Ole Fanger

8 IAQ parameters Number of ACH quantitative indicator ACH - for total air - for fresh air Ventilation effectiveness qualitative indicator takes into account air distribution in the space Exposure qualitative indicator takes into account air distribution and source position and intensity

9 IAQ parameters -Age-of-air air-change effectiveness (E V ) -Specific Contaminant Concentration contaminant removal effectiveness 

10 Single value IAQ indicators E v and ε 1.Contaminant removal effectiveness (  ) concentration at exhaust average contaminant concentration Contamination level 2. Air-change efficiency (  v ) shortest time for replacing the air average of local values of age of air Air freshness

11 Air-change efficiency (  v ) Depends only on airflow pattern in a room We need to calculate age of air (  ) Average time of exchange What is the age of air at the exhaust? Type of flow –Perfect mixing –Piston (unidirectional) flow –Flow with stagnation and short-circuiting flow

12 Air exchange efficiency for characteristic room ventilation flow types Flow pattern Air-change efficiency Comparison with average time of exchange Unidirectional flow1 - 2  n <  exc < 2  n Perfect mixing1  exc =  n Short Circuiting0 - 1  exc >  n

13 Contaminant removal effectiveness (  ) Depends on: -position of a contaminant source -Airflow in the room Questions 1) Is the concentration of pollutant in the room with stratified flow larger or smaller that the concentration with perfect mixing? 2) How to find the concentration at exhaust of the room?

14 Differences and similarities of E v and  Depending on the source position: - similar or - completely different air quality  v = 0.41  = 0.19  = 2.20

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

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.

AIR DISTRIBUTION (Additional information. Also see Chapter 18) General The proper delivery of air for heating, cooling, or ventilation is a crucial part.
1 Application of for Predicting Indoor Airflow and Thermal Comfort.

1 Application of for Predicting Indoor Airflow and Thermal Comfort.
Environmental Controls I/IG Lecture 14 Mechanical System Space Requirements Mechanical System Exchange Loops HVAC Systems Lecture 14 Mechanical System.

Environmental Controls I/IG Lecture 14 Mechanical System Space Requirements Mechanical System Exchange Loops HVAC Systems Lecture 14 Mechanical System.
Air Flow Modeling Study: Central Gallery of the National Museum of the Marine Corps Analysis by: Galen Burrell Fred Porter Architectural Energy Corporation.

Air Flow Modeling Study: Central Gallery of the National Museum of the Marine Corps Analysis by: Galen Burrell Fred Porter Architectural Energy Corporation.
Czech Technical University in Prague Faculty of Civil Engineering Department of Microenvironmental and Building Services Engineering Czech Technical University.

Czech Technical University in Prague Faculty of Civil Engineering Department of Microenvironmental and Building Services Engineering Czech Technical University.
BRE Energy Efficient Office of the Future

BRE Energy Efficient Office of the Future
BASIC PRINCIPLES IN OCCUPATIONAL HYGIENE Day 4. 15 - THERMAL ENVIROMENT.

BASIC PRINCIPLES IN OCCUPATIONAL HYGIENE Day THERMAL ENVIROMENT.
Philip Demokritou, Ph.D PART I

Philip Demokritou, Ph.D PART I
Air Conditioning & Refrigeration:

Air Conditioning & Refrigeration:
BEM class 3 Climate & Human Comfort. Class (lecture) objectives Appreciation of the indoor and outdoor environments and how they relate to our energy.

BEM class 3 Climate & Human Comfort. Class (lecture) objectives Appreciation of the indoor and outdoor environments and how they relate to our energy.
I NVESTIGATION OF ENERGY FLOWS IN THERMALLY ACTIVATED BUILDING CONSTRUCTIONS Part 1: Transferring energy between 2 building zones Nordic PhD Seminar 08.

I NVESTIGATION OF ENERGY FLOWS IN THERMALLY ACTIVATED BUILDING CONSTRUCTIONS Part 1: Transferring energy between 2 building zones Nordic PhD Seminar 08.
Chapter 4 Thermal Comfort

Chapter 4 Thermal Comfort
Industrial Ventilation - A major control measure Dr. AA, UTM.

Industrial Ventilation - A major control measure Dr. AA, UTM.
Unit 6.2. Mechanical and mixed mode ventilation TB Infection Control Training for Managers at National and Subnational Level.

Unit 6.2. Mechanical and mixed mode ventilation TB Infection Control Training for Managers at National and Subnational Level.
The Air We Breathe - Indoor Air Quality and Natural Ventilation Dr Yuguo Li Associate Professor Department of Mechanical Engineering The University of.

The Air We Breathe - Indoor Air Quality and Natural Ventilation Dr Yuguo Li Associate Professor Department of Mechanical Engineering The University of.
Strategically Targeted Research in Intelligent Built.

Strategically Targeted Research in Intelligent Built.
Personal Ventilation Nathan Tainter John Dannenhoffer.

Personal Ventilation Nathan Tainter John Dannenhoffer.
HVAC523 Heat Gain. Heat First law of thermal dynamics states that HEAT TRAVELS FROM HOT TO COLD. 95 degree outside air will flow through the building.

HVAC523 Heat Gain. Heat First law of thermal dynamics states that HEAT TRAVELS FROM HOT TO COLD. 95 degree outside air will flow through the building.
Indoor Environmental Quality: Investigating the Problem

Indoor Environmental Quality: Investigating the Problem
Important variables Water: Air: Conversion:

Important variables Water: Air: Conversion:

Similar presentations

Ads by Google