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Session Title
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1
|
4.1
|
Plenary1
|
Thermostat Startegies for Discretionary
Heating and Cooling of Dwellings in Temperate Climates
|
Australia
|
T J WilliamsonCP Riordan
|
Dep.of Architecture,The
University of Adelaide
|
2
|
2.5
|
Plenary1
|
Simulation Tools for the Exploitation of
Renewable Energy in the Built Environment:the Entrack-GIS System
|
UK
|
J@A@ClarkeCM S EvansCA D GrantCN Kelly
|
Energy Systems Research
Unit,University of Strathclyde
|
3
|
3.3
|
Plenary1
|
Energybase:the Merger of Blast and DOE-2
|
USA
|
C O PedersenCD E FisherCR J LiesenCR K StrandCR D Taylor
|
University of Illinois at
Urbana-Champaign
|
4
|
8.6
|
Plenary1
|
Experience from a Design Advice Service
Using Simulation
|
UK
|
L B McElroyCJ W HandCP A Strachan
|
Dep.of Architecture
andbBuilding Science,University of Strathclyde
|
5
|
7.1
|
Software Demonstration
|
Simulation-Based Features of the
Compressed Air System Description ToolhXCEEDTMh
|
USA
|
K L CurtnerCP J OfNei11CD WinterCP Bursch
|
Honeywell Technology Center
|
6
|
7.1
|
Software Demonstration
|
TRNSYS 14@Goes Windows and Window4.1-Tool for@Energetic and Visual Building Simulation
|
Germany
|
M SchulerCH MeyerCA KnirschCS HolstCM HillerCW A BeckmannCN Blair
|
TRANSSOLAR Energietecnik GmbH
|
7
|
7.1
|
Software Demonstration
|
CA-SISFa Design-Tool for Thermal Studies with a
Gradual@Access
|
France
|
L Tabary
|
EDF/DER
|
8
|
7.1
|
Software Demonstration
|
ENERGY-10:a Design-Tool Computer Program
|
USA
|
‚iD Balcomb
|
National Renewable Energy
Laboratory
|
9
|
7.3
|
Software Demonstration
|
Spreadsheet Modeling of Thermal and
Daylighting@Performance
|
USA
|
D Lord
|
California Polytechnic State
University
|
10
|
8.3
|
Software Demonstration
|
Building Energy Tools Directory
|
USA
|
‚cB Crawley
|
U.S.Dep.of Energy
|
11
|
1.4
|
Software Demonstration
|
COMIS 3.0 a New Simulation Environment
for Multizone Air Flow and Pollutant Transport Modelling
|
France
|
R Y PelletretCW P Keilholz
|
Software Development Division
of CSTB(Tha French Building Research Center)
|
12
|
1.2
|
Software Demonstration
|
Daylight Modelling with PASSPORT-LIGHT
|
Greece
|
A Tsangrassoulis, M Santamouris
|
Group Building Environment
Studies Laboratory of Meteorology,Dep,od Applied Physics University of Athens
|
13
|
1.2
|
Software Demonstration
|
ADELINE-an Integrated Approach to
Lighting Simulation
|
Germany
|
H Erhorn, J de BoerCM Dirksmoeller
|
Fraunhofer-Institut fur
Bauphysik (IBP)
|
14
|
7.3
|
Software Demonstration
|
New Generation of SoftwareH Modelling of Energy Demands for
Residential Ventilation with HTML Interface
|
USA
|
T Forowicz
|
Lawrence Berkeley National
Laboratory University of California at Berkeley
|
15
|
2.1
|
System and Plant Simulation
|
Simulation of a Centralized Cooling Plant
unhder Different Control Strategies
|
Belgium
|
J-P BourdouxheCP Andre
|
University of Liege
|
16
|
2.1
|
System and Plant Simulation
|
Optimisation of Mechanical Systems in an
Integrated Building Energy Analysis Program:PART‡T:Conventional Central Plant Equipment
|
USA
|
R D TaylorCC O Pedersen
|
Dep.of Mechanical and
Industrial Engineering, University of Illinois at Urbana-Champaign
|
17
|
6.6
|
System and Plant Simulation
|
Simulation and Fault Detection of the
Thermal Storage System
|
Japan
|
N Nakahara, M Zheng, Y Nishitani
|
Dep.of Architecture,Faculty
of Engineering,Kanagawa Univ.
|
18
|
6.6
|
System and Plant Simulation
|
Fault Modelling in Component-Based HVAC
Simulation
|
UK
|
P Haves
|
Dep.of Civil and Building
Engineering,Loughborough Univ.
|
19
|
1.4
|
Applications
|
Simulation of a Complex Wind and Buoyancy
Driven Building
|
UK
|
M J HolmesCS McGowan
|
Ove Arup & Partners
|
20
|
1.4
|
Applications
|
Ventilation and thermal Performance of
Design Options for Stadium Australis
|
UK
|
K J LomasCH EppelCM CookCJ Mardaljevic
|
Institute of Energy and
Sustainable Development,De Montfort Univ.
|
21
|
8.1
|
Applications
|
Recent Czech Building Energy Simulation
Case Studies
|
Czech Republic
|
F DrkalCT DunovskaCM NeuzilCV Skrlant
|
Czech Technical Univ. in
Prague Faculty of Mechanical EngineeringTechnicka 4
|
22
|
8.5
|
Applications
|
Energy Saving in Office Buildings:a Case
Study in Rome Through the Use of DOE-2 and other Simulation Tools
|
Italy
|
M BeccaliCR CaponioCS GaraCL Pagliano
|
Istituto di Ricerche Ambiente
|
23
|
1.2
|
Fundamentals:Solar and Daylighting
|
the Implications of Sky Model Selection
for the Prediction of Daylight Distribution
in Architectural Spaces
|
Singapore
|
K P LamCA MahdaviCV Pal
|
School of Architecture,
National University of Singapore
|
24
|
8.7
|
Fundamentals:Solar and Daylighting
|
Image Processing for Urban Scale
Environmental Modelling
|
UK
|
P Richens
|
The Martin Center for Architectural
and Urban Studies University of Cambridge
|
25
|
3.3
|
Fundamentals:Solar and Daylighting
|
Analysing Radiation Transport through
Complex Fenestration Systems
|
UK
|
N S CampbellCJ K Whittle
|
Dep.of Architecture and
Building Technology,University of Nottingham
|
26
|
1.2
|
Fundamentals:Solar and Daylighting
|
Comparison of Computer and Model
Simulations of a Daylight Interior with Reality
|
New Zealand
|
D JarvisCM Donn
|
School of
Architecture,VictoriaUniversity of Wellington
|
27
|
8.3
|
Implementations:New Tools and Approaches
|
An NMF Based Model Library for Building
Climate and Energy Simulation
|
Sweden
|
M VuolleCA Bring
|
HVAC-Laboratory,HelsinkiUniversity
of Technology
|
28
|
7.1
|
Implementations:New Tools and Approaches
|
An Open Ended Modular Interface and
Controller Library for CLIM 2000
|
France
|
K M MurphyCF Deque
|
Eledtricite de
France/Direction des Etudes et Recherches Department Applications de
Electricite dans les Batiments
|
29
|
1.1
|
Implementations:New Tools and Approaches
|
Guidance for the Selection of a Reduction
Technique for Thermal Models
|
France
|
E PalomoCY BonnefousCF Deque
|
GISE(Group Informatique et
Systemes Energetiques)-ENPC(Ecole Nationale des Ponts et Chaussees)
|
30
|
1.1
|
Implementations:New Tools and Approaches
|
a Substructuring Approach to 3D
Conduction Problems:Applications to Buildings' Components
|
France
|
C DurmortCB Flament
|
GISE(Group Informatique et
Systemes Energetiques)-ENPC(Ecole Nationale des Ponts et Chaussees)
|
31
|
7.2
|
Poster1
|
The Implementation of Industry Foumdation
Classes in Simuletion Tools for the Building Industry
|
USA
|
V BazjanacCD B Crawley
|
Lawrence Berkeley National
Laboratory
|
32
|
3.3
|
Poster1
|
Design of Air Conditioning Systems for
Efficient LIFE|CYCLE Operation Using the ZEBRA Software Package
|
Australia
|
P G MarshallsayCR E Luxton
|
Dep.of Mechanical Engineering,
The University of Adelaide
|
33
|
7.2
|
Poster1
|
Integration of Building Design Tools in
DUTCH PRACTICE
|
Netherlands
|
W PlokkerCL L Soethout
|
TNO Building and Construction
Research Dep.of Indoor Environment,Building Physics and Systems
|
34
|
7.2
|
Poster1
|
Numerical Simulation of Air Flows-an
Essential Tools of Comfort Optimization of Modern Buildings and HVAC Systems
|
Germany
|
B Ochocinski
|
ROM Zentralbereich
Ingenieurtechnik
|
35
|
1.4
|
Poster1
|
Validation of Displacement Ventilation
Simplified Models
|
France
|
D ManzoniCP Guitton
|
Thermal Transfer and
Aerodynamics Section Research and Development Division Electricite de France
|
36
|
1.5
|
Poster1
|
A Newmerical Analysis of Flow and
Dispersion around a Cube
|
UK
|
T J Scanlon
|
Dep.of Mechanical Engineering
University og Stratheclyde
|
37
|
3.1
|
Poster1
|
Predicting Foundation Heat Losses:Neural Networks Versus the Basesimp
Correlations
|
Canada
|
I Beausoleil-MorrisonCM Krarti
|
CANMET Energy Technology
Centre Natural Resources Canada
|
38
|
3.1
|
Poster1
|
Simplified Method for Underground Heat
Transfer Calculation
|
USA
|
S ChoiCM Krarti
|
Joint Center for Energy
Management University of Colorado CEAE Dep.
|
39
|
1.1
|
Poster1
|
Heat Transfer in Block Walls
|
Israel
|
S HassidCE Levinsky
|
Environment & Resources
Engineering Dep. Technion-Israel Institute of Technology
|
40
|
1.1
|
Poster1
|
Evaluation of the Finite Control Volume
Method in Simulating ThermalL Fire Resistance of Building Elements
|
Hong Kong
|
W K ChowCC M HoCN K Fong
|
Dep.of Building Services
Engineering,The Hong Kong Polytechnic Univ.
|
41
|
1.1
|
Poster1
|
Natural Convection in a Superposed Air
and Porous Layer When Heated from Below@@@@@@@@@@@@@@@@@@@@@@
|
Sweden
|
M Serkitjis
|
Chalmers University of
Technology Dep.of Building Pyysics
|
42
|
3.4
|
Poster1
|
Toward a Simulation-Assisted Dynamic
Comtrol Strategie
|
USA
|
A Mahdavi
|
Dep.of Architecture, Carnegie
Mellon Univ.
|
43
|
6.3
|
Poster1
|
Comtrol Stategies for Heating Systems
|
Sweden
|
N Bjorsell
|
University-Collage of
Gavle-Sandviken
|
44
|
1.1
|
Poster1
|
Moisture Permeability Date President as a
Mathematical Function Applicable to Heat and Moisture Transport Models
|
UK
|
G H GalbraithCR C McLeanCJiansong Guo
|
Glasgow Caledonian Univ.
|
45
|
8.1
|
Poster1
|
New Educational Software for Teaching the
Sunpath Diagram and Shading Mask Protractor
|
USA
|
J K W OhCJ S Haberl
|
Energy Systems Laboratory,Dep.of
Architecture,Texas A&M Univ.,College Station
|
46
|
2.5
|
Poster1
|
Optimisation of Design Criteria for Solar
Space Heating Systems through Modelling and Simulation
|
Cyprus
|
I M MichaelidesCD R Wilson
|
Dep.of Mechanical
Engineering,Higher Technical Institute
|
47
|
3.1
|
Poster1
|
Computer Model of the Apartment Building
from The Panel System T06B
|
Slovak Republic
|
R Rabenseifer
|
Faculty of Civil Engineering
Slovak Technical Univ.
|
48
|
7.3
|
Poster1
|
A User-Friendly Tool for the Integrated
Simulation of Building HVAC Control Performance
|
South Africa
|
E H MathewsCE van Heerden
|
Dep.of Mechanical Engineering
, University of Pretoria
|
49
|
1.2
|
Poster1
|
Comparative Study of Sky Luminance Models
in the Tropical Context
|
Singapore
|
K P LamCA MahdaviCM B UllahCE NgCV Pal
|
School of
Architecture,National University of Singapore
|
50
|
8.6
|
Poster1
|
Sun and Climate Modeling for Thermal
Simulation:Parametric Models Relevant at Early Design Stages
|
Austria
|
M Rudy
|
Technical University of
Vienna
|
51
|
7.4
|
Poster1
|
Simulation of Solar Gains through
External Shading Devices
|
UK
|
D K AlexanderCK A Ku HassanCP J Jones
|
Welsh School of Architecture
Bute Building
|
52
|
7.1
|
Poster1
|
Sombrero-Shadow Calculations on
Arbitraily Oriented Surfaces as a Preprocessor for Simulation Programs
|
Germany
|
J SchniedersCA EickerCF D Heidt
|
Dep.of Physics,University of
Siegen
|
53
|
3.6
|
Poster1
|
The Use of a Simple Simulation Tool for
Energy Analysis
|
Finland
|
R KosonenCJ Shemeikka
|
VTT Building Technology
|
54
|
7.4
|
Poster1
|
Role of the Model User in Results
Obtained from Simulation Software Program
|
France
|
G Guyon
|
Eledtricite de France/DER
(Direction des Etudes et Recherches) /Department AEE (Applications de
Electricite dans les Batiments)/ADEB, Site des Renardieres
|
55
|
7.4
|
Poster1
|
A Comparative Assessment of Two HVAC
Plant Modelling Programs
|
UK
|
C Underwood
|
Dep.of the Built Environment
University of Northumbria at Newcastle
|
56
|
2.1
|
Fundamentals:Heat Transfer
|
BASESIMP:a Residential-Foumdation
Heat-Loss Algorithm for Incorporating into Whole-Building Energy-Analysis
Programs
|
Canada
|
I Beausolei-MorrisonCG Mitalas
|
CANMET Energy Technology
Centre Natural Resources Canada
|
57
|
2.3
|
Fundamentals:Heat Transfer
|
Calculation Tool for Earth Heat
Exchangers Gaea
|
Germany
|
S BenkertCF D HeidtCD Schoeler
|
Dep.of Physics,University of
Siegen
|
58
|
3.3
|
Fundamentals:Heat Transfer
|
Parameter Estimation and the Use of
Catalog Data with TRNSYS
|
USA
|
R J RabehlCW A BeckmanCJ W Mitchel1
|
Solar Energy
Laboratory,University of Wisconsin-Madison
|
59
|
8.1
|
Education
|
Integration of Computer Based Modelling
and an Inter- Disciplinary Based Approach to Building Design in Post-
Graduate Education
|
UK
|
W J BattyC B Swann
|
Dep.of Applied
Energy,Cranfield Univ.
|
60
|
8.1
|
Education
|
Introducing it Based Energy Simulation
Courses in Central/Eastern Europe
|
UK
|
J HensenCM JanakCN KaloyanovCP Rutten
|
University of Strathclyde
|
61
|
8.1
|
Education
|
Forget the Tool When Training New
Simulation Users
|
UK
|
J W HandCD B Crawley
|
University of Strathclyde
|
62
|
7.4
|
Quality
Assurance:Validation
|
Validation of a Building Thermal Model in
CLIM2000 Simulation Software Using Full-Scale Expelimental DataCSensitivity Analysis and Uncertainty
Analysis
|
France
|
G GuyonCN Rahni
|
Eledtricite de France/DER
(Direction des Etudes et Recherches) /Department AEE (Applications de
Electricite dans les Batiments)/ADEB, Site des Renardieres
|
63
|
7.4
|
Quality
Assurance:Validation
|
A Comparative Validation Based
Certification Test for Home Energy Rating System Software
|
USA
|
J NeymarkCR Judkoff
|
J.Neymark & Asssociates
|
64
|
7.4
|
Quality
Assurance:Validation
|
Validation of HOT 2000TM Using Hers
Bestest
|
Canada
|
D HaltrechtCK Fraser
|
CANMET Energy Technology
Centre Natural Resources Canada
|
65
|
3.2
|
Applications:Controls
|
Predictive Optimal Control of Fabric
Thermal Storage Systems
|
UK
|
M
J RenCJ A Wright
|
Dep.of Civil and Building
Engineering,Loughborough Univ.
|
66
|
3.2
|
Applications:Controls
|
Rational Operation of a Thermal Storage
Tank with Load Prediction Scheme by ARX Model Approach
|
Japan
|
H YoshidaCT Inooka
|
Kyoto Univ.,Dep,of Global
Environment Engineering
|
67
|
3.4
|
Applications:Controls
|
A Fuzzy Control Adapted by a Neural
Network to Maintain a Dwelling within Thermal Comfort
|
Spain
|
B EgilegorCJ P UribeCG Arregi,E PradillaCL Susperregi
|
Artificial Intelligence and
Energy Departments IKERLAN Applied Research Centre
|
68
|
3.3
|
Poster2
|
Influence of Modelling Uncertainties on
the Simulation of Building Thermal Comfort Performance
|
Netherlands
|
S de Wit
|
Delft University of
Technology,Faculty of Civil Engineering
|
69
|
3.3
|
Poster2
|
A Study on the Thermal Performance
Simulation to Evaluate the Prefabricated Radiant Floor Heating Panels
|
Korea
|
M S YeoCK W Kim
|
Dep.of Architecture,Seoul
National Univ.
|
70
|
1.1
|
Poster2
|
The Optimal Insulation Detail of the
Thermal Bridge Adjacent to Hot Water Pipes in Apartment Building Slabs
|
Korea
|
S Y SongCK W Kim
|
Dep.of Architecture,Seoul
National Univ.
|
71
|
7.1
|
Poster2
|
The Main Features of a New Generation
Building Simulation Tool
|
Finland
|
P TuomaalaCK Piira
|
VTT Building Technology
|
72
|
3.3
|
Poster2
|
Methodology for Modelling/Simulation of
an Office Building Equipped with an Air-Conditioning System
|
France
|
F MilcentCL Lapenu
|
Gaz de France-Direction de la
Recherche
|
73
|
2.3
|
Poster2
|
Optimisation of Mechanical Systems in an
Integrated Building Energy Analysis Program:PART‡U:Thermal Stroage-Based Central Plant
Equipment
|
USA
|
R D TaylorCC O Pedersen
|
Dep.of Mechanical and
Industrial Engineering, University of Illinois at Urbana-Champaign
|
74
|
7.1
|
Poster2
|
A Randomised Approach to Multiple
Regression Analysis of Building Energy Simulation
|
Hong Kong
|
S C M Hui
|
Dep.of
Architecture,University of Hong Kong
|
75
|
3.3
|
Poster2
|
Application of System Simulation to WCH
Boiler Selection
|
UK
|
J HensenCK Kabele
|
University of Strathclyde
Energy Systems Reearch Unit
|
76
|
3.3
|
Poster2
|
Application of Simulation in Design and
Operation of Refurbished Buildings and Heating Systems
|
Germany
|
C FelsmanCG KnabeCA KremonkeCA Perschk
|
Technical University of
Dresden Institute of Thermodynamics and Technical Building Equipment
|
77
|
7.1
|
Poster2
|
A New System For Accessing Transfer
Function Coefficients for an Architectural Computer-Aided Thermal
Optimization Tool
|
USA
|
A
M MalkawiCJ Wambaugh
|
The University of Michigan
College of Architecture and Urban Planning
|
78
|
4.3
|
Poster2
|
The Verification of Radon Protective
Measures by Means of a Computer Model
|
Czech Republic
|
M JiranekCZ Svoboda
|
Czech Technical University in
Prague Faculty of Civil Engineering
|
79
|
1.3
|
Poster2
|
CASCADE:A Novel Computational Design
System for Architectural Acoustics
|
USA
|
A Mahdavi,G LiuCM E Ilal
|
Dep.of Architecture,Carnegie
Mellon Univ.
|
80
|
1.3
|
Poster2
|
Acoustic Rendering of Buildings
|
Germany
|
R Rabenstein,O SchipsCA Stenger
|
Universitat
Erlangen-Nurnberg,Lehrstuhl fur Nachrichtentechnik
|
81
|
2.5
|
Poster2
|
The Simulation of Photovoltaic|Integrated Building Facades
|
UK
|
J A Clarke,C Johnston,N KellyCP A Strachan
|
ESRU,Dept.of Mechanical
Engineering,University of Strathclyde
|
82
|
2.5
|
Poster2
|
Sinulation of a Photovoltaic Hybrid
Facade
|
Germany
|
O GutschkerOCH Rogass
|
Brandenburgische Technische
Universitat Cottbus, Lehrstuhl fur Angewandte Physik
|
83
|
7.1
|
Poster2
|
Building Thermal Simulations Using a New
Tool-Passport Plus
|
Greece
|
M SantamourisCC A BalarasCE DascalakiCS AivarezCJ F CoronelCE G Rodriguez
|
Dept,of Applied
Physics,University of Athens,Physics Building-V
|
84
|
3.6
|
Poster2
|
Computer-Aided Energy Use Estimation in
Supermarkets
|
France
|
M OrphelinCD Marchio
|
Centre d'Energetiqe de
I'Ecole de s Mines de Paris
|
85
|
3.1
|
Poster2
|
An Advanced Glazing Case Study from the
Image Project
|
UK
|
J A ClarkeC M JanakCP RuysseveltCR CohenCJ Bates
|
University of
Strathclyde,Energy Systems Research Unit
|
86
|
7.3
|
Poster2
|
Building Thermal Models
Reduction:Improving Existing Methods by Taking Spestral Inputs
Characteristics into Account
|
France
|
E PalomoCS DautinCA Ait-YahiaCF Deque
|
GISE(Group Informatique et
Systemes Energetiques)-ENPC(Ecole Nationale des Ponts et Chaussees)
|
87
|
7.3
|
Poster2
|
Physical System Modelling Languages:from@ALLAN to MODELICA
|
France
|
A Jeandel, F Boudaud
|
GAZ DE FRANCE-Research and
Cevelopment Division
|
88
|
6.4
|
Poster2
|
Monitoring System for Distributed Energy
and Heat Supply Complex
|
Czech Republic
|
J BilaCK BrozCV JirovskyCH Rodic
|
Czech Technical University in
Prague
|
89
|
2.3
|
Implementations:New Tools and Approaches
|
Electric Stroage Heaters in Building
Simulatiopn
|
UK
|
A
J Wright
|
EA Technology Ltd
|
90
|
3.3
|
Implementations:New Tools and Approaches
|
Design and Simulation of HVAC Systems
with Bond Graph's
|
Netherlands
|
W Zeiler
|
Kropman B.V. Mechanical &
Electrical Contracting
|
91
|
1.4
|
Implementations:New Tools and Approaches
|
Simulation of Ventilation and Indoor Air
Conditions of Agricultural Buildings
|
Czech Republic
|
P KicCR ChiumentiCS BortolussiCF da Borso
|
Czech University of
Agriculture Prague
|
92
|
6.2
|
Implementations:New Tools and Approaches
|
SIMBAD:A Simulation Toolbox for the
Design and Test of HVAC Control Systems
|
France
|
A HusaunndeeCR LahrechCH Vaezi-NejadCJ C Visier
|
Centre Scientifique et
Technique de Batiment
|
93
|
3.1
|
Fundamentals:Weather Data
|
Examination of the Concept of
UsinghTYPICAL-WEEKh Weather Data for Simulation of Annualized Energy Use in
Buildings
|
USA
|
L O Degeiman
|
Texas A&M University
|
94
|
8.7
|
Fundamentals:Weather Data
|
Modelling of The Heat Island Generated by
an Urban Unit
|
France
|
F Pignolet-TardanCP DepeckerCF Garde-L AdelardCJ C Gatina
|
Laboratoire de Genie
Industriel, Universite de la Reunion
|
95
|
3.1
|
Fundamentals:Weather Data
|
Multi-Year(my)Building Simulation:is it
Useful and PracticalH
|
Hong Kong
|
S C M HuiCK P Cheung
|
Dep.of
Architecture,University of Hong Kong
|
96
|
3.1
|
Fundamentals:Weather Data
|
Weather Sequences for Predicting HVAC
System Behaviour in Residential Units Located in Tropical Climates
|
France
|
L AdelardCF GardeCF Pignolet-TardanCH BoyerCJ C Gatina
|
Laboratoire de Genie
Industriel, Universite de la Reunion
|
97
|
8.4
|
Integration:Thermal and Lighting
|
Aggregate Space-Time Performance
Indicators for Simulation|Based Building Evaluation Procedures
|
USA
|
A Mahdavi,P MathewCK P Lam
|
Dep of Architecture,Carnegie
Mellon Univ.
|
98
|
4.5
|
Integration:Thermal and Lighting
|
Simulation of Visual and Thermal Comfort
Related to Daylighting and Solar Radiation in Office Buildings
|
France
|
P LaforgueCB SouyriCM FontoynontCG Achard
|
Laboratoire Genie Civil et
Habitat, Ecole Superieure d'Ingenieurs de Chambery, Universite de Savoie
|
99
|
1.2
|
Integration:Thermal and Lighting
|
Dynamic Link of Light-and Thermal
Simulation:on the Way to Integrated Planning Toolls
|
Germany
|
S Herkel
|
Fraunhofer Institute for
Solar Energy Systems,Solar Building Design Group
|
100
|
7.2
|
Integration:Thermal and Lighting
|
Coupling Building Energy and Lighting
Simulation
|
UK
|
M Janak
|
Energy Systems Research Unit
Dep.of Mechanical Engineering University of Strathclyde
|
101
|
1.5
|
Fundamentals:Air Flow
|
Guidance on the Use of Computational
Fluid Dynamics for Modelling Buoyancy Driven Flows
|
UK
|
M J CookCK J Lomas
|
Institute of Energy and
Sustainable Development,De Montfort Univ.
|
102
|
1.4
|
Fundamentals:Air Flow
|
A Comparison of Wind Tunnel and CFD
Methods Applied to Natural Ventilation Design
|
UK
|
D K AlexanderCH G JenkinsCP J Jones
|
Welsh School of Architecture
Bute Building
|
103
|
1.4
|
Fundamentals:Air Flow
|
Predicting Natural Ventilation Air
Velocity Using Deterministic and Non-Deterministic Methodologies
|
Greece
|
M SantamourisCE Dascalaki
|
GR-BES,University of Athens,
Dept.of Applied Physics,Division of Meteorology,University Campus,Build.
|
104
|
1.5
|
Fundamentals:Air Flow
|
Numerical and Experimental Assessment of
a Flow Field in a Ventilated Industrial Hall
|
Bulgaria
|
J DenevCP StankovCD StoyanovCP Spassov
|
Dep.of
Hydroaerodynamics,TechnicalUniversity of Sofia,
|
105
|
4.3
|
Fundamentals:Moisture
|
Development of a Simulation Tool for
Mould Growth Prediction in Buildings
|
UK
|
J A Clarke,C M JohnstoneCN J KellyCR C McLeanCA E Nakhi
|
Energy Systems Research Unit,
University of Strathclyde
|
106
|
1.1
|
Fundamentals:Moisture
|
The Selection of Appropriate Flow
Potentials for Moisture Transport Models
|
UK
|
G H GalbraithCR C McLean
|
Glasgow Caledonian University
|
107
|
1.1
|
Fundamentals:Moisture
|
A Systematic Method for Hygrothermal
Analysis of Building Constructions Using Computer Models
|
Norway
|
S Geving@@@@@@@@@@@@@@@@@@@@@@@@@@
|
Dep.of Building and
Construction Engineering The Norwegian University of Science and
Technology(NTNU)
|
108
|
3.1
|
Applications:Regional
|
The Simulations of the Thermal
Performance of Retrofited Existing Residential Buildings in Istanbul with
Micro-DOE 2.1E Computer Program
|
Turkey
|
A Tavil, N SahalCE Ozkan
|
Istanbul Technical
University,Faculty of Architecture
|
109
|
2.5
|
Applications:Regional
|
The Use of a Simulation Tool in Order to
Obtain the Thermal Performance of Passive Solar Houses in Portugal
|
Portugal
|
H P GoncalvesCM N OlivieraCA M Patricio
|
National Institute of
Engineering and Industrial Technology,Institute of Energetic Technologies,
Dep,of Renewable Energies
|
110
|
4.1
|
Applications:Regional
|
Sensitivity Analysis of a Traditional
Round Hut in the Tropical Upland Climate
|
UK
|
A Malama,S Sharples
|
School of Architectural
Studies,University of Sheffield
|
111
|
8.1
|
Practice:Present and Future
|
An Application Manual for Building Energy
and Environmental Modeling
|
UK
|
D BartholomewCJ HandCS IrvingCK LomasCL McElroyCF ParandCD RobinsonCP Strachan
|
DBA
|
112
|
7.3
|
Practice:Present and Future
|
A Survey of Users of Thermal Simulation
Programs
|
New Zealand
|
M Donn
|
School of Architecture
Victoria University Wellington
|
113
|
7.2
|
Practice:Present and Future
|
What Next for Building Energy
Simulation?a Glimpse of the Future
|
USA
|
D B CrawleyCL K LawrieCF C WinkelmannCW F BuhlCA E ErdemCC O PedersenCR J LiesenCD E Fisher
|
U.S.Dep.of Energy
|
114
|
3.6
|
Quality Assurance:Calibration
|
An Inverse Model to Predict and Evaluate
the Energy Performance of Large Commercial and Institutional Buildings
|
Canada
|
B Abushakra
|
Centre for Building Satudies
Concordia University
|
115
|
7.4
|
Quality Assurance:Calibration
|
Calibration of Hourly Energy Simulations
Using Hourly Monitored Data and Monthly Utility Records for Two Case Study
Buildings
|
USA
|
V I Soebarto
|
Dep.of Architecture Texas
A&M University College Station
|
116
|
2.2
|
Quality Assurance:Calibration
|
A Hybrid Monitoring-Modelling Procedure
for Analyzing the Performance of Large Central Chilling Plants
|
USA
|
R Troncoso
|
ACR Engineering,Incorporated
|
117
|
8.6
|
Plenary2
|
Communicating Performance Assessments of
Intermediate Building Design States
|
USA
|
G AugenbroeCS de Wit
|
Georgia Institute of
Technology College of Architecture
|
118
|
7.1
|
Plenary2
|
An Illustration of Automatic Generation
of Zonal Models
|
France
|
S GagneauCJ M Nataf,E Wurtz
|
GISE(Group Informatique et
Systemes Energetiques)-ENPC(Ecole Nationale des Ponts et Chaussees)
|
119
|
8.6
|
Plenary2
|
Decision Making through Use of
Interoperable Simulation Software
|
USA
|
K PapamichaelCJ La Porta,H Chauvet
|
Advanced Building Systems
Group Building Technologies Program Environmental Energy Technologies
Division Lawrence Berkeley National Laboratory
|