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#2  Building Simulation'91, Nice, France     August 20-22, 1991

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Session Title

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1

1.1

Heat and Mass Transfer 1

Algorithms for Multi-Dimensional Heat Transfer Simulation in@Buildings

Israel

Samuel Hassid

Environmental & Water Resources Engineering Technion-Israel Institute of Technology

2

1.1

Heat and Mass Transfer 1

A Transient Model for Analyzing the Hygrothermal Behaviour of@Building Constructions

Denmark

Carsten Rode Pedersen

Termal Insulation Laboratory Technical University of Denmark

3

1.1

Heat and Mass Transfer 1

Reversible Sorption Modeling for Multi-Zone Contaminant Dispersal@Analysis

USA

James Axley

Building Technology Program Massachusetts Institute of Technology

4

1.1

Heat and Mass Transfer 2

Water Vapor Adsorption and Transfer in Microporous Building@Materials:A Network Simulation

France

Daniel Quenard@Hebert Sallee

C.S.T.B.

5

1.1

Heat and Mass Transfer 2

Computer Simulation of Moisture Transport in Walls of Residences

USA

Graig A.Spolek

Dep.of Mechanical Engineering Portland State Univ.

6

1.1

Heat and Mass Transfer 2

Dynamic Modelling of Indoor Air Humidity

Hong Kong

F.W.H.Yik

Dep.of Building Services Engineering Hong Kong Polytechnic

7

1.1

Heat and Mass Transfer 3

A Response Factor Method for Calculating Coupled Heat and@Moisture Transfer in Buildings

Australia

A.E.Delsante

CSIRO Division of Building, Construction and Engineering

8

1.1

Heat and Mass Transfer 3

Thermal Behaviour of a Heat Emitting Device in Unsteady State

France

L.Fulcheri R.Attalage

Centre d'Energetique ECOLE DES MINES DE PARIS

9

1.4

Heat and Mass Transfer 3

Use of Low Temperature Air for Cooling of Buildings

USA

Allan Kirckpatrick Tor Malstrom Kevin Knappmiller Douglas Hittle@Paul Miller Vahab Hassani Ren Anderson

Solar Energy Applications Laboratory Colorado State Univ.

10

1.5

Fluid Flow Modelling 1

Numerical Simulation of Indoor Aerodynamics in Big Enclosed Spaces

Hong Kong

W.K.Chow W.K.Wong K.T.Chan W.Y.Fung

Dep.of Building Services Engineering Hong Kong Polytechnic

11

1.5

Fluid Flow Modelling 1

Simulation of Air Flow in Naturally Ventilated Buildings

UK

 G.Gan@H.B.Awbi@D.J.Croome

Dep.of Construction Management & Engineering University of Reading

12

1.5

Fluid Flow Modelling 1

Accurate Numerical Simulation of Air Flows in Ventilated Multi-Rooms

Sweden

Yuguo Li Lazslo Fuchs@Xue-song Bai

Dep.of Gasdynamics, The Royal Institute of Technology

13

1.5

Fluid Flow Modelling 2

SIMULAR AIR;ATHREE-DimensionalTransient Air Flow Program

W.Germany

R.Mohr J.Fuerst

ROM,System Development

14

1.4

Fluid Flow Modelling 2

CLIM 2000:The Building Energy Simulation Tool and the Modelling Method

France

B.Gutier F.X.Rongere D.Bonneau

EDF - Direction des Etudes et Recherches Service Applications de I'Electricite et Environnment Department Applications De I'Electricite Centre des Renardieres

15

1.4

Fluid Flow Modelling 2

Simplified Modelling of Air Movements inside Dwelling Room

France

H.Bouia P.Doliciaux

EDF - Direction des Etudes et Recherches Service Applications de I'Electricite et Environnment Department Applications De I'Electricite Centre des Renardieres

16

1.4

Fluid Modelling 3

Simulation of Thermal Coupling between a Radiator and a Room with Zonal Models

France

C.Inard D.Buty

Centre de Thermique INSA Lyon

17

1.4

Fluid Modelling 3

Scale Models and CFD for the Analysis of Air Flow in Passively Ventilated Buildings

Italy

G.S.Barozzi E.Nobile M.S.Imbabi A.C.M.Sousa

Istituto di Fisica Tecnica,Universita degli Studi di Trieste

18

8.3

Fluid Modelling 3

Numerical Database Application to Building Models

‚t‚j

John F.Kendrick

Air Infiltration and Ventiration Centre University of Warwick Science Park Barclays Venture Centre

19

1.2

Daylighting 1

Simulation of Natural Lighting:From Geometrical Configuration to Occupants Evaluation

USA

Ardeshir Mahdavi  Liana Berberidou-Kallikova

Center for Building Performance and Diagnostics Dep.of Architecture Carnegie Mellon University

20

1.2

Daylighting 1

The Use and Evaluation of a Computer Program for the Investigation of the Daylight and Sunlight Performance of Buildings

UK

Sheila Birch Ian Frame

Anglia Higher Educatiom College,

21

1.2

Daylighting 1

A Design Tool for Interior Daylightin;Description of LuminousEnvironment with Image Sysnthesis

France

Michel Perrraudeau Gerard Le Strat

Division Eclairsge et Colorimetrie Centre Scientifique et Technique du Batiment

22

1.2

Daylighting 2

An Interactive Graphic Interface for Daylighting Design with SUPERLITE

USA

Murray Milne Updai Yuliatmo Marc Schiler

UCLA Graduate School of Architecture and Urban Planning

23

7.2

Daylighting 2

BEEM:A Simplified Procedure to Calculate Daylighting and Other Impacts of Fenestration

USA

Robert A.Rundquist

R.A. Rundquist Associates

24

6.1

Control and Management 1

Gas-Fired Heating Plant Management

France

D.Caccavelli E.Hutter S.Nibel P.Picard

Centre Scientifique du Batiment(CSTB)Etablissement de Champs-sur-Marne

25

6.2

Control and Management 1

Study on the Optimal Start/Stop Operation of Hydronic Heating Systems

Finland

R.Kohonen A.Laitinen L.Aho M.Madjidi W.Stephan

Technical Research Centre of Finland, Laboratory of Heating and Ventilation(VTT)

26

6.2

Control and Management 1

Intermittent Heating System Control based on the Quadratic Optimization Principle

China

H.Zhao J.C.Visier

Academy of Air Conditioning

27

6.3

Control and Management 2

Application of Fuzzy Control for Building Energy Management

France

Pierre Yves Glorennec

Department d'Informatique INSA de Rennes

28

3.3

Control and Management 2

The Simulation of Large Scale Interconnected Systems for Building and Equipments Performance Evaluation

France

 Louis Laret

Centre Scientifique et Tedhnique du Batiment(CSTB) Etablissement de Sophia Antipolis

29

3.4

Control and Management 2

The Use of Building Emulators to Evaluate the Performance of Building Energy Management Systems

France

E.Hutter H.Vaezi-Nejad A.L.Dexter P.Haves G.Kelly P.Nusgens S.Wang

CSTB

30

1.1

Modelling Approaches 1

A Simulation Approach to the Evaluation of Coupled Heat and Mass Transfer in Buildings

Netherlands

J.L.M.Hensen J.A.Clarke

Eindhoven University of Technology

31

3.3

Modelling Approaches 1

Impact of Simultaneous Simulation of Buildings and Mechanical Systems in Heat Balance Based Energy Analysis Progrms on System Response and Control

USA

Russell D.Taylor Curtis O.Pedersen Dan Fisher Richard Liesen Linda Lawrie

BLAST Support Office, Dep.of Mechanical and Industrial Engineering,University of Illinois at Urbana-Champaign

32

3.3

Modelling Approaches 1

Building Simulations Using Thermal and CFD Models

UK

Ara Setrakian Don McLean

ABACUS Simulationa Limited Unit 106,Kelvin Campus

33

7.1

Modelling Approaches 2

Parrallellization of Modualar Simulation Programs in an Object Oriented Environment:The TRNSYS Case

France

P.Y.Glorennec R.El  Boussarghini

INSA Rennes

34

7.1

Modelling Approaches 2

Simulation of Processes in Buildings as a Factor in the Object Representation of Built Environments

USA

Filiz Ozel

New Jersey Institute of Technology School of Architecture

35

7.1

Modelling Approaches 2

Building Design with a Multi-Discipline CAD System using Object-Oriented Environments

France

G.Achard J.Dufau M.Mommessin G.Sauce

Laboratoire Genie Civil et Habitat Universite de Savoie-E.S.I.G.E.C.

36

7.1

Modelling Approaches 3

Simulation of Thermal Building Behaviour Based on an 0bject-Oriented ADA Implementation

France

R.Ebert B.Peuportier G.Lefebvre

GISE(Groupe Informatique et Systemes Energetiques)-ENPC/EMP

37

7.1

Modelling Approaches 3

The Model Coupling Problems:Methods used in Some Buildings Analysis Tools and the ALMETH Propositions

France

A.M.Dubois L.Laret J.L.Dufresne J.Y.Grandpeix A.Lahellec R.Ebert G.Lefebvre J.L.Joly J.L.Plazy M.Pottier

C.S.T.B.,Sophia-Antipolis

38

7.1

Modelling Approaches 4

Using Regression Equations to Determine the Relative Importance of Inputs to Energy Simulation Tools

USA

Patrick J.OfNeill Dury B.Crawley J.Steven Schliesing

Pacific Northwest Laboratory

39

3.3

Modelling Approaches 4

The Simplified Simulation CodehLEGOhfor HVAC-Buildings System Design

Italy

F.Groppi C.Priolo

CRTN ENEL

40

1.1

Modelling Approaches 4

A New Technique for Themal Modelling of Buildings:The MODAL SYNTHESIS

France

B.Flament L.Blanc Sommereux A.Neveu

GISE(Group Informatique et Systemes Energetiques)

41

7.1

Simulation Environments 1

The Energy Kemel System

UK

J.A.Clarke K.James D.Tang P.Charlesworth G.Hammond A.Irving B.Lee  D.Mac Randal S.Lockley T.J.Wiltshire A.J.Wright

Energy Simulation Research Unit, University of Strathclyde

42

7.1

Simulation Environments 1

The Generalised System Solution Classes in the EKS Environment

UK

 DDTang

Energy Simulation Research Unit, Dep.of Architecture and Building Science,  University of Strathclyde

43

5.3

Simulation Environments 1

An NMF-Based Component Library for Fire Simulation

Norway

Kjell Kolsaker

University of Trondheim, The Norwegian Institute of Technology Division of Heating and Ventilation

44

7.1

Simulation Environments 2

IDA Solver-A Tool for Building and Energy Systems Simulation

Sweden

Per Sahlin Axel Bring

Swedish Institute of Applied Mathematics Chalmers  Teknikpark

45

7.1

Simulation Environments 2

Modelling Platform with Multiple Representation Formalisms

Belgium

Francis Lorenz

LORENZ CONSULTING sprl

46

7.1

Simulation Environments 2

The ALMETH Project ZOOM Code:Results and Perspectives

France

J.L.Bonin C.Butto J.L.Joly V.Platel M.Rigal J.L.Dufresne@J.Y.Grandpeix@@ A.Lahellec

L.E.S.E.T.H.,Universite Paul Sabatier

47

7.2

Simulation Environments 3

Integration of Simulation into the Building Design Process

Netherlands

Godfried Augenbroe Frederick Winkelmann

Dept.of Civil Engineering Delft University of Technology

48

7.2

Simulation Environments 3

Linking Two Building Performance Simulation TooIs to a Product Model Testbed

Netherlands

Godfried Augenbroe Pauline Wilschut Wouter Rombouts

Dept.of Civil Engineering Delft University of Technology

49

7.2

Simulation Environments 3

The Integrated Design and Control of Buildings

UK

Don McLean

ABACUS Simulationa Limited Unit 106,Kelvin Campus

50

7.2

Simulation Environments4

COMBINE:HVAC-Design Prototype Specification

Ireland

 Paul F.Monaghan Jim Flynn Martin Commins Joe Kennington

Computer Aided Thermal Engineering Research Unit,University College Galway

51

7.2

Simulation Environments4

Building Representation for Design Integration

Netherlands

 Albert A.J.Pols

Dep.of Civil Engineering Delft University of Technology

52

7.2

Simulation Environments4

The Integration of a Radiator Network Dimensioning Program with a Building Product Model

Finland

 Raine Talonpoika Hannu Rissanen

Technical Research Centre of Finland(VTT) Laboratory of Urban Planning and Building Design

53

3.5

Simulation Environments 5

Application of Simulation Programs to the Assessment of Overheating Risks in Buildings and the Work of IEA Annex21

UK

B.Warren T.J.Wiltshire D.P.Bloomfield F.Parand L.Roche

University of Newcastle School of Architecture

54

8.1

Simulation Environments 5

An Educational Design for Courseware Relating to Heating Load Calculations in Buildings

Ireland

P.F.Monaghan M.M.Keane

Dep.of Mechanical Engineering University College Galway

55

7.2

Simulation Environments 5

Performance Simulation as a Front-End Tool forhIntegrativeh Conceptual Design Evaluation

USA

Ardeshir Mahdavi Khee Poh Lam

Center for Building Performance and Diagnostics Dep.of Architecture Carnegie Mellon University

56

1.1

Intelligent Environments1

SETIS:An Intelligent System for Building Thermal Design

France

C.Robin J.Brau P.Depecker

Laboratoire Equipement de I'Habitat Centre de Thermique-URA CNRS

57

7.1

Intelligent Environments1

Learning Models-A New Approach to Simulation

UK

L.Jankovic

Intelligent Buildings Unit, Birmingham School of Architecture,Faculty of the Built Environment,Birmingham Polytechnic

58

3.6

Intelligent Environments1

An Intelligent Front End for Building Energy Simulation on Microcomputer Environment

USA

Byungseon Sean Kim Larry O.Degelman

Dep. Of Architecture Texas A&M University College Station

59

1.1

Intelligent Environments2

Coupling Expert Systems to Thermal Calculation and Simulation Computer Codes

Switzerland

Nicolas Morel Florence Hagen

Solar Energy and Building Physics Laboratory (LESO-PB),Federal Institute of Technology (EPFL)

60

7.2

Intelligent Environments2

Distributed Knowledge Bases as an Integrated Building System

W.Germany

Christof A.Hertkorn

Rud. Otto Meyer - Systementwicklung Institut fur  Industrielle Bauproduktion Universitat Karlsruhe

61

3.3

Intelligent Environments2

Expert System for Heating EquipmentsfModelling in CLIM 2000

France

Denis Covalet

EDF - Direction des Etudes et Recherches Service Applications de I'Electricite et Environnment Department Applications De I'Electricite Centre des Renardieres

62

3.6

Specific Tools1

BREHOMES:A Physically Based Model of the Energy Use of the@United Kingdom Housing Stock

Uk

 L.D.Shorrock G.Henderson J.H.F.Bown

Building Research Establishment

63

2.1

Specific Tools1

PC Screening Tools for Commercial Building Technologies

USA

 Karl F.Johnson Ronald Wendland Ingrid Rohmund

Electric Power Research Institute

64

7.3

Specific Tools1

A Graphical Man Machine Interface for Modular HVAC System@Simulation Programs

France

H.Riaux J.Miriel P.Boinet

Laboratoire GTMa de I'INSA de RENNES

65

3.3

Specific Tools2

Models and Features in Hot-2000 Version 6

Canada

Brian Bradley Mark Riley

UNIES Ltd.

66

2.5

Specific Tools2

COMFIE:A Software for Passive Solar Design

France

Bruno Peuportier Isabelle Blanc Sommereux

Centre d'Energetique,Ecole des Mines

67

5.3

Specific Tools2

Simulation of the Emergency Evacuation of Complex Buildings@Using ISI

Ireland

Gearoid M.Lane Paul J.Nolan Joseph M.Fegan

ExTech Ltd.

68

3.3

Validation1

An Approach to Thermal Modelling and Simulation of Buildings@At Gaz de France

France

Alexandre Jeandel Isabelle Palero Louis Laret

Research and Development Division-DETN Gas Utilization Research Center-CERUG

69

7.4

Validation1

Tools for Whole Model Validation of Building Simulation@Programs Experience from the CEC Concerted Action PASSYS

Denmark

Soren Ostergaard Jensen Rik C.Van de Perre

Thermal Insulation Laboratory Technical University of Denmark

70

3.1

Validation1

Sensitivity Analysis and Empirical Validation of the HLITE Using@Data from the NIST Indoor Test Cell

USA

Gene P.David

Ross & Baruzzini, Inc.

71

7.4

Validation 2

Towards an Interactive Model Validation Facility

UK

P.Strachan J.A.Clarke

Energy Simulation Research Unit University of Strathclyde

72

7.4

Validation 2

Methods to Compare Measurements and Simulations

Spain

E.Palomo J.Marco H.Madsen

Institute of Renewable Energy-CIEMAT

73

3.1

Validation 2

On Site Identification of Building Energy Performances

France

V.Richalet F.Neirac

Ecole Nationale des Travaux Publics de I'Etat

74

8.3

Validation 3

Exploring an Integrated Data Base Structure Building Energy@Monitoring Data

USA

Jeff Haberl  Vandana Jagannathan  Robert Lopez  Robert Sparks  Kelly Kissock@ Dean Willis  Davis Claridge

Mechanical Engineering, Texas A&M University

75

8.3

Validation 3

A Statistically-Based Hourly Weather Data Generator for Driving@Energy Simulation and Equipment Design Software for Buildings

USA

Larry O.Degelman

Dep.of Architecture Texas A&M University College Station

76

8.3

Validation 3

The Design Reference Year

Denmark

Hans Lund

Thermal Insulation Laboratory Technical University of Denmark

77

4.1

Design&

Technology 

Transfer 1

An Energy Evaluative Comparison of a Thermal Comfort Design Model

USA

Loukas Kalisperis  Mitch Steinmann  Luis H.Summers

Dep.of Architecture The Pennsylvania State Universuty

78

4.1

Design&

Technology 

Transfer 1

Comfort Analysis as Criterion for Energy Management

France

F.Thellier A.Cordier M.Galeou F.Monchoux O.Fudym

Laboratoire Energie Solaire Et Thermique de I'Habitat(LESETH)

79

4.4

Design&

Technology 

Transfer 1

Multi Approaches of Comfort in Architectural Design of Residential Buildings:The AMACH Project

France

Luc Adolphe Lubica Mudri

Ecole des Mines de Paris-Centre d'energetique

80

3.6

Design&

Technology 

Transfer 2

Whole-Building Energy Targets:A Methodology for Future@Performance-Based Standards

USA

Robert S.Briggs Michael R.Brambley

Building System Performance Group Pacific northwest Laboratory

81

6.5

Design&

Technology 

Transfer 2

Life-Cycle Cost Optimization of Residential Building Designs

USA

William L.Carroll

Applied Science Division Lawrence Berkeley Laboratory University of California

82

8.6

Design&

Technology 

Transfer 2

Computer Use in Industrialised Housing Sales, Design and@Manufacturing Processes

USA

G.Z.Brown Margot McDonald Matt Meacham

Center for Housing Innovation University of Oregon

83

8.6

Design&

Technology 

Transfer 3

Computer-Aided Design of Energy-Efficient HVAC Systems

Canada

Radu Zmeureanu Paul Fazio Dan Seth

Centre for Building Studies Concordia University

84

7.1

Design&

Technology 

Transfer 3

The Application of Building Performance Assessment Tools in Professional Practice

UK

Jon W.Hand

Energy Simulation Research Unit University of Strathclyde

85

3.3

Design&

Technology 

Transfer 3

The Development and Support of Public Domain Simulation Software

USA

R.E.Urban W.A.Beckman J.W.Mitchell

Solar Energy Laboratory University of Wisconsin-Madison

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