ŒfÚ‡
|
•ª–ì
|
Session Title
|
ƒ^ƒCƒgƒ‹
|
‘
|
’˜ŽÒ–¼
|
’˜ŽÒŠ‘®‹@ŠÖ
|
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
|