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Buildings I proceedings
Buildings II proceedings
Buildings III proceedings
Buildings IV proceedings
Buildings V proceedings
Buildings VI proceedings
Buildings VII proceedings
Buildings VIII proceedings
Buildings IX proceedings
Buildings X proceedings
Buildings XI proceedings
Buildings XI Conference photos
Buildings XII proceedings
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Buildings V Proceedings
| Paper 1 |
Two DOE-2.1C Model Calibration Methods |
W.E. Koran
M.B. Kaplan
T. Steele
|
| Paper 2 |
The Design, Simulation, and Operation of a Comfortable Indoor Climate for a Standard Office |
P. Simmonds |
| Paper 3 |
As-Operated Heat Loss Coefficients of Residential Buildings in the Pacific Northwest—An Analysis of Empirical Space-Heating Energy Data |
R.G. Lucas
R.G. Pratt
|
| Paper 4 |
Energy Savings and Interactions from Retrofit Measures in Small Commercial Buildings in Boston |
T.R. Sharp
J.M. MacDonald |
| Paper 5 |
The Energy Impact of Combined Solar Radiation/Infiltration/Conduction Effects in Walls and Attics |
M. Liu
D.E. Claridge |
| Paper 6 |
The SALFORD House—Cost-Effective Integrated Design of Thermal Envelope and Mass |
P.J. Webster
G.P. Keeffe
|
| Paper 7 |
Materials for a Sustainable Building Industry |
S. Loken |
| Paper 8 |
A Perspective from the Field: The House as a System |
M. Uniacke |
| Paper 9 |
Indoor Air Quality Design and Performance of Modern Office Building Designed for both Energy Efficiency and Superior Indoor Air Quality and Comfort |
W.A. Turner
F.W. McKnight
S.M. Martel
Lorin Belinda
|
| Paper 10 |
Thermal Performance of Transparent Insulation in Exterior Envelopes of Buildings |
G. Brouwer |
| Paper 11 |
Energy and Global Warming Impacts of CFC Alternative Technologies for Foam Building Insulations |
S.K. Fischer
P.D. Fairchild
P.J. Hughes |
| Paper 12 |
Long-Term Performance of Closed-Cell Foam Insulation |
L.R. Glicksman
M. Page |
| Paper 13 |
Modeling the Thermal Conductivity of Concrete Based on its Measured Density and Porosity |
J.A. Tinker
J.G. Cabrera |
| Paper 14 |
Gas-Filled Panels: A Thermally Improved Building Insulation |
B.T. Griffith
D. Arasteh |
| Paper 15 |
Innovative Materials and Construction Systems for Energy-Efficient Building Envelopes |
J. Crowley
J. Dentz
L. Gibson
L. Glicksman
L. Morse-Fortier
M. Parent
T.Tonyan |
| Paper 16 |
The Performance of an Attic Radiant Barrier for a Simulated Minnesota Winter |
H. Chen
T. Larson
R.W. Erickson |
| Paper 17 |
A Review of the Permanency of Fire-Retardant Chemicals Used in Cellulosic Insulation |
D.W. Yarbrough |
| Paper 18 |
The Experimental Long-Term Performance of Some Thermal Foundation Systems |
L.F. Goldberg
K.W. Luke |
| Paper 19 |
Comparison of Energy Performance of Commonly Used Insulation Configurations for Slab-on-Grade Floors |
M. Krarti |
| Paper 20 |
Assessment of Apparent Soil Thermal Conductivity |
R.L. Sterling
|
| Paper 21 |
Soil Thermal Conductivity: Effects of Saturation and Dry Density |
B.A. Fricke
A. Misra
B.R. Becker
W.E. Stewart |
| Paper 22 |
A Shape Factor Method for Computing Heating Loads from Building Slab-on-Grade Foundations |
W.W. Rust
J.E. Christian |
| Paper 23 |
Temperatures and Relative Humidities in Heated and Ventilated Crawl Spaces |
L. Tobin |
| Paper 24 |
Crawl Space Ventilation in a Warm, Humid Climate |
C. DeWitt |
| Paper 25 |
The Installation of a Frost-Protected Shallow Foundation |
M. Bohn
L. Goldberg
P. Hendrickson
S. Meland |
| Paper 26 |
Frost-Protected Shallow Foundations |
Bill Eich |
| Paper 27 |
Basement and Slab Insulation Thermal Performance Field Measurements |
J.E. Christian
W. Rust
R. Linkous |
| Paper 28 |
Thermal Properties of Wood and Wood Products |
W.P. Goss
R.G. Miller |
| Paper 29 |
The Convergence Criterion in Measuring Building R-Values |
S.N. Flanders |
| Paper 30 |
Impact of Hygrothermal Gradients on Juvenile Wood |
T. Larson
R. Erickson |
| Paper 31 |
The Potential for Improved Affordability and Energy Efficiency in Panelized Housing |
J. Laquatra
J.A. McCarty
M.E. Levy
P. Romano |
| Paper 32 |
Airtightness of Joints in Wall Sheathing as a Function of Lumber Drying and Attachment |
D.M. Onysko |
| Paper 33 |
Thermal Performance of A Residential Dynamic Wall |
I.D. Morrison
A.N. Karagiozis
K. Kumaran |
| Paper 34 |
A Systems Approach to Extend the Limit of Envelope Performance |
J. Timusk
A.L. Seskus
K. Linger |
| Paper 35 |
Application of the Transfer Function Approach in the Thermal Analysis of Dynamic Wall Structures |
M. Virtanen
I. Heimonen
R. Kohonen |
| Paper 36 |
Insulating Masonry Walls |
M. Bradfield
S.S. Szoke |
| Paper 37 |
Performance of Wood-Based Siding in Energy-Efficient Homes Located in Cold Climates |
R.E. Kroll
K.C. Au
R.O. Gertjejansen |
| Paper 38 |
Modeling Windows in DOE-2.1E |
S. Rielly
F. Winkelmann
D. Arasteh
W. Carroll |
| Paper 39 |
Improving the Thermal Performance of Vinyl-Framed Windows |
F.A. Beck
D. Arasteh |
| Paper 40 |
Setting the Criteria for the 1992 California Residential Energy Standards |
C. Eley
B. Wilcox |
| Paper 41 |
Testing and Simulation of High-Performance Windows—Phase II of the Canadian/U.S. Joint Research Project on Window Performance |
A.H. Elmahdy |
| Paper 42 |
A New Method for Predicting the Solar Heat Gain of Complex Fenestration Systems |
J.H. Klems
J.L. Warner |
| Paper 43 |
A Method of Optimizing Solar Control and Daylighting Performance in Commercial Office Buildings |
R. Sullivan
E.S. Lee
S. Selkowitz |
| Paper 44 |
Integrated Envelope and Lighting Technologies for Commercial Buildings |
S. Selkowitz
J. Schuman |
| Paper 45 |
Fenestration Optimization for Commercial Building Energy Standards |
C. Eley
E. Kolderup |
| Paper 46 |
Thermal Performance of Window Framing Systems |
S. Carpenter |
| Paper 47 |
The NFRC Window U-Value Rating Procedure |
D. Arasteh
R.C. Mathis
W. DuPont |
| Paper 48 |
Thermal Performance of Fiberglass and Cellulose Attic Insulations |
K.E. Wilkes
P.W. Childs
|
| Paper 49 |
The Influence of Underroof Systems on the Hygrothermal Behavior of Sloped Insulated Roofs |
A. Janssens
H. Hens
A. Silberstein
J. Boulant |
| Paper 50 |
Measured Values of Temperature and Sheathing Moisture Content in Residential Attic Assemblies |
W.B. Rose |
| Paper 51 |
System Effects on the Thermal Aging of Experimental Polyisocyanurate Roof Insulation Foamed with an Alternative Blowing Agent |
A.O. Desjarlais
J.E. Christian
R.L. Linkous |
| Paper 52 |
Attic Ventilation Model |
T.W. Forest
I.S. Walker |
| Paper 53 |
Setting of Loose-Fill Thermal Insulation—Development of a Laboratory Method for Attic Application |
B. Svennerstedt |
| Paper 54 |
Application and Experience in the Use of Aluminum Chips as a Reflective Surface for Commercial Roofing |
S.L. Fawcett
P.D. Shull
D. Smith
|
| Paper 55 |
In Situ Thermal Performance of APP-Modified Bitumen Roof Membranes Coated with Reflective Coatings |
J.D. Carlson
J.E. Christian
T.L. Smith
|
| Paper 56 |
Enhancement of Thermal Performance of Domestic Roofing System for Tropical Climes |
G.S. Kochhar
R.W.A. Osborne
E.R. Lewis |
| Paper 57 |
No Fault Cathedral Ceilings |
R. Harrington |
| Paper 58 |
A Water-Ballasted Lifetime Energy-Saving Roof System: Economic Projections |
R.C. Bourne
L.I. Rainer |
| Paper 59 |
New Focus for Using Two Layers of Insulation in Single-Ply Roof Systems |
L.D. Hogan |
| Paper 60 |
Measured Performance of Ten Roof Assemblies in a Hot, Arid Climate |
W.T. Grondzik |
| Paper 61 |
An Analysis of Moisture Accumulation in a Wood-Frame Wall Subjected to Winter Climate |
D.M. Burch
W.C. Thomas |
| Paper 62 |
Laboratory and Practical Experience with a Novel Water-Permeable Vapor Retarder |
V. Korsgaard
C. Rode |
| Paper 63 |
Air Exfiltration and Moisture Accumulation in Residential Wall Cavities |
T. Ojanen
M.K, Kumaran
|
| Paper 64 |
Measurements of Moisture Diffusivity for Porous Building Materials |
R.F. Richards |
| Paper 65 |
Moisture Control in a Ventilated Attic |
I. Samuelson |
| Paper 66 |
Determination of the Effects of Moisture on the Thermal Transmissivity of Cellulose Fiber Loose-Fill Insulation |
P.I. Sandberg |
| Paper 67 |
A New Technique for Analyzing the Hygrothermal Performance of Building Walls |
A. Keresteciuglu
J. Jhinger
T. Hamlin |
| Paper 68 |
The Drying of Wood Framing in Residential Construction |
E. Burnett
A.J. Reynolds
T. Kervin
|
| Paper 69 |
Introduction to Hotel Mold/Moisture Problems in Warm, Humid Climates |
M.V. Peart
D.P. Gatley
|
| Paper 70 |
Two Studies of Mold and Mildew in Florida Buildings |
J.W. Lstiburek |
| Paper 71 |
Moisture Conditions of Non-Ventilated, Wood-Based, Membrane-Roof Components |
C. Rode
G. Christensen
M. Vesterlokke
|
| Paper 72 |
Effect of Cavity Ventilation on Moisture in Walls and Roofs |
A. TenWolde
C. Carll |
| Paper 73 |
A Field Study of Indoor Moisture Problems and Damage in New Northwest Homes |
G. Tsongas |
| Paper 74 |
Review of Parts 1 and 2 of the ASTM Manual on Moisture Control in Buildings |
H. Treschsel |
| Paper 75 |
Review of Parts 3 and 4 of the ASTM Manual on Moisture Control in Buildings |
P.R. Achenbach
|
| Paper 76 |
Economical Humidity Control: An Alternative to Reheat |
W.R. Beckwith |
| Paper 77 |
Development of a Computer Model for Analyzing Moisture Problems in Hotels and Motels |
D. Odom
G. DuBose
P. Fairey |
| Paper 78 |
Advances in Passive Solar Design Tools |
B.D. Howard
S.S. Szoke
|
| Paper 79 |
Selection of Optimal Test Sequences for Identification of the Heat Dynamics of Passive Solar Components |
H. Melgaard
H. Madsen
J. Holst |
| Paper 80 |
Application of the APH Method to the Planning of a Solar House in China |
Y. Run-Ming
L. An-Tian
L. Bai-Zhan |
| Paper 81 |
Daylight and Energy Analysis Using an Integrated Software System |
J. Christoffersen
K. Johnsen
J.E. Christensen
|
| Paper 82 |
Advanced Solar Low-Energy Buildings—Danish Work within IEA Task 13 |
K.E. Thomsen
K.B. Wittchen
B. Saxhof
|
| Paper 83 |
Residential Air-Distribution Systems: Interactions with the Building Envelope |
M.P. Modera
R. jansky
|
| Paper 84 |
Power Demand and Energy Savings Through Air Leakage Control in High-Rise Residential Buildings in Cold Climates |
A. Parekh |
| Paper 85 |
Fan Pressurization of School Buildings |
T. Brennan
W. Turner
G. Fisher
B. Thompson
B. Lingman
|
| Paper 86 |
Creating Effective Air Barriers: Materials and Techniques |
J. Rousseau |
| Paper 87 |
Modeling Study of the Cooling Season Performance of Exterior Wall Insulation |
H.A. McLain
|
| Paper 88 |
Affordable Housing Through Energy Efficiency |
R.C. Diamond
J.A. McAllister
H.E. Feustel
C. Patullo
T. Buckley |
| Paper 89 |
Diagnosing Envelope Problems by Field Performance Monitoring |
M.D. Lawton |
| Paper 90 |
Problems and Practical Solutions to Exterior Envelope Defects |
R.R. Marshall |
| Paper 91 |
Interaction of Heating and Cooling Energy Conservation Envelope Measures with Mechanical System Retrofits |
M.B. Gettings |
| Paper 92 |
The Use of Interactive Computer Tools for Training and Technology Transfer |
L.S. Shen
J.C. Carmody
E.C. Tam
|
| Paper 93 |
NIST/GSA Design Guidelines for Thermal Envelope Integrity |
A.K. Persily |
| Paper 94 |
Better Building Codes for Energy Efficiency |
B.D. Howard
M. McBride
|
| Paper 95 |
The U.S. Department of Energy's Voluntary Residential Energy Standard—Development and Implementation of an Economics-Based Energy Standard |
Z.T. Taylor
C.C. Conner
|
| Paper 96 |
Airtightness Standards for Residentail Buildings in Japan |
H. Yoshino |
| Paper 97 |
ASHRAE Standard 90.2P Building Envelope Requirements |
M.F. McBride |
| Paper 98 |
Codes and Standards |
G. Nordeen
J. Bowman
|
| Paper 99 |
Standards, Codes, and Guidelines |
R.L. Beck, Jr. |
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