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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 I Proceedings
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| Paper 1 |
A Calculator Programming Technique for Estimating Thermally Optimum Wall Construction |
John E. Twenty
Lee V. McQueen
|
| Paper 2 |
Proposed Streamlined Residential Heating Energy Budget Analysis by a Variable Temperature Design Method |
Gunard E. Hans
|
| Paper 3 |
Simple Methods for Predicting Thermal Behavior and Energy Consumption in Buildings |
L. Agnoletto
P. Brunello
R. Zecchin
|
| Paper 4 |
Energy Conservation Design Guidelines for Including Mass and Insulation in Building Walls |
Michael E. Dexter |
| Paper 5 |
A Rational Manual Method for Determination of Space Temperature Swing Due to Solar Gains |
E.L. Cuplinskas |
| Paper 6 |
Computer-Aided Energy Savings Redesign of the Exterior Envelope of an Apartment Building |
Gerhard R. Mueller
Donald C. Pedreyra |
| Paper 7 |
The Use of Sound to Locate Infiltration Openings in Buildings |
David N. Keast |
| Paper 8 |
The Low Pressure Leakage Function of a Building |
M.H. Sherman
D.T. Grimsrud
R.C. Sonderegger |
| Paper 9 |
A Model Correlating Air Tightness and Air Infiltration in Houses |
Ake K. Blomsterberg
M.H. Sherman
D.T. Grimsrud |
| Paper 10 |
Analysis of Infiltration by Tracer Gas Technique, Pressurization Tests, and Infrared Scans |
Michael B. Stewart
Thomas R. Jacob
Jeffrey G. Winston
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| Paper 11 |
Field Air Leakage of Newly Installed Residential Windows |
J.L. Weidt
J. Weidt
S. Selkowitz
|
| Paper 12 |
Air Exchange Measurements in a High-Rise Office Building |
C.M. Hunt
S.J. Treado |
| Paper 13 |
Air Leakage Characteristics and Weatherization Techniques for Low-Income Housing |
Richard A. Grot
Roy E. Clark
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| Paper 14 |
Air Leakage Measurement and Reduction Techniques on Electrically Heated Homes |
John O. Collins, Jr. |
| Paper 15 |
Laboratory Tests of Thermal Performance of Exterior Walls |
A.E. Fiorato |
| Paper 16 |
Calibration Procedures and Results for a Large Calibrated Hot Box |
James L. Rucker
John r. Mumaw |
| Paper 17 |
Comparison of BTR Measurements |
J.E. Janssen
A.N. Pearman |
| Paper 18 |
A Calorimeter for Measuring Heat Flow Through Walls |
W.C. Brown
G.D. Schuyler |
| Paper 19 |
Thermal Insulation Laboratory Accreditation Program |
J.O. Bryson |
| Paper 20 |
Thermal Parameters as a Function of Thickness for Combined Radiation and Conduction Heat Transfer in Low-Density Insulation |
Brian G. Rennex |
| Paper 21 |
The Design and Construction of a Calibrated/Guarded Hot Box Facility |
E.L. Perrine
P.W. Linehan
J.W. Howanski
L.S. Shu |
| Paper 22 |
Design of a Calibrated Hot-Box for Measuring the Heat, Air, and Moisture Transfer of Composite Building Walls |
Paul R. Achenbach |
| Paper 23 |
Effective U-Values for Skylights |
William C. Burkhardt |
| Paper 24 |
A Calibrated Hotbox for Testing Window Systems - - Construction, Calibration, and Measurements on Prototype High-Performance Windows |
J.H. Klems |
| Paper 25 |
Dynamic Interpane Systems for Multipane Solar Collector Windows |
A.L. Berlad |
| Paper 26 |
Thermal Performance of Vinyl Covered Fiberglass Solar Screens |
Charles Brakefield
Dale E. Hein |
| Paper 27 |
The Energy Potential of Daylighting in a Classroom |
Gary Gillette |
| Paper 28 |
Dynamic Response of Conventional Residential Construction to Solar Radiation Through Windows During the Heating Season |
Zulfikar O. Cumali
A. Osman Sezgen
Robert Sullivan
Robert I. Hossli
|
| Paper 29 |
Thermal Performance of Managed Window Systems |
S.E. Selkowitz
V. Bazjanac |
| Paper 30 |
Extension of Methods Used in Analyzing Building Thermal Loads |
Zulfikar O. Cumali
A. Osman Sezgen
Robert Sullivan
Ronald C. Kammerud |
| Paper 31 |
Heat Transmission Coefficients of Concrete Block Walls with Core Insulation |
L.S. Shu
A.E. Fiorato
J.W. Howanski |
| Paper 32 |
Modeling of Residential Attics |
Kenneth E. Wilkes |
| Paper 33 |
Mathematical Modeling and Computer Simulation of Insulation Systems in Below Grade Appliations |
F.S. Wang |
| Paper 34 |
A Technical Review of the "M" Factor Concept |
Richard D. Godfrey
Kenneth E. Wilkes
Adrienne G. Lavine |
| Paper 35 |
A Method of Rating the Thermal Efficiency of a Home Envelope Relative to an Energy Efficient Standard |
Robert S. Blancett
|
| Paper 36 |
A Statistical Decision Method for Economic Evaluation of the Exterior Envelopes of Buildings |
Anna Maria Ercules |
| Paper 37 |
Economic Considerations in Insulating Masonry and Wood-Frame Walls of Single-Family Housing |
Stephen R. Petersen |
| Paper 38 |
Economic Comparison and Thermal Performance of Several Different Insulated Wall Constructions |
Grenville K. Yuill
Gary Proskiw |
| Paper 39 |
Evaluation of Residential Building Energy Performance Standards |
Mark D. Levine
David B. Goldstein
Metin Lokmanhekim
Arthur H. Rosenfeld
|
| Paper 40 |
Building Envelope Thermal Performance Standard, The Texas Approach |
Michael N. Hart
Jerold W. Jones
William Bowen
|
| Paper 41 |
Energy Conservation Opportunities in the Building Envelope Through the Enforcement of a Mandatory Energy Code |
David R. Miller
|
| Paper 42 |
Implementation of Building Energy Standards in New York State |
Raymond J. Albrecht
J. Delaine Jones |
| Paper 43 |
Residential Ventilation with Heat Recovery: Improving Indoor Air Quality and Saving Energy |
G.D. Roseme
J.V. Berk
M.L. Boegel
H.I. Halsey
C.D. Hollowell
A.H. Rosenfeld
I. Turiel
|
| Paper 44 |
Ventilated Windows as Solar Collectors, Air as Thermal Media and Thermal Storage in Hollow Core Concrete Floor Slabs |
David Sodergren
Carl E. Dahl
|
| Paper 45 |
Thermal Spacers Improve Roof Insulation Performance of Metal Buildings |
Harold J. Waite
Marvin K. Snyder |
| Paper 46 |
Sandwich Panels with Foamed Polyurethane Insulation |
Lars-Erik Larsson |
| Paper 47 |
The Performance of an Energy Efficient Residence vs a Conventional Comparison Home |
Ralph J. Johnson |
| Paper 48 |
Thermophysical Properties Data Base Activities at Owens-Corning Fiberglas |
Kenneth E. Wilkes |
| Paper 49 |
Analysis and Measurement of the Thermal Behavior of the Walls and Surrounding Soil for a Large Underground Building |
George D. Meixel
Paul H. Shipp
James W. Ramsey |
| Paper 50 |
Annual Heating and Cooling Requirements and Design Day Performance for a Residential Model in Six Climates: A Comparioson os NBSLD, BLAST 2, and DOE-2.1* |
William L. Carroll |
| Paper 51 |
A New Measurement Strategy for In-Situ Testing of Wall Thermal Performance |
P.E. Condon
W.L. Carroll
R.C. Sonderegger |
| Paper 52 |
Measurement and Analysis of in situ Dynamic Thermal Performance of Building Envelopes Using Heat Flow Meter Arrays* |
P.E. Condon
William L. Carroll |
| Paper 53 |
Transient Thermal Response of an Intermittently Cooled Massive Building |
Parambir S. Gujral
Raymond J. Clark
Douglas M. Burch |
| Paper 54 |
The Principles of Building Science and Thermography Needed to Diagnose the Performance of Building Enclosures |
Peter A.D. Mill |
| Paper 55 |
Thermal Performance of the Norris Cotton Federal Building in Manchester, New Hampshire |
T.E. Richtmyer
W.B. May
C.M. Hunt
J.E. Hill
|
| Paper 56 |
A Field Study of Moisture Damage in Walls Insulated without a Vapor Barrier |
George A. Tsongas
F. Glen Odell
James C. Thompson |
| Paper 57 |
The Effect of Moisture on the Thermal Conductance of Roofing Systems |
Lawrence I. Knab
David R. Jenkins
Robert G. Mathey
|
| Paper 58 |
Comparative Studies of Vapor Condensation Potentials in Wood Framed Walls |
F.S. Wang |
| Paper 59 |
Moisture Condensations Above Insulated Suspended - Ceilings - Experimental Results |
G.H. Hart
Tage C.G. Carlson |
| Paper 60 |
Ventilation of Back Space of Building Enclosure Siding for Solar Heat Gain Reduction |
Hiroshi Homma
Richard W. Guy
|
| Paper 61 |
An Experimental Investigation of the Effect of Added Insulation on Water Vapor Condensation in Mobile Home Roof Cavities |
Tage C.G. Carlson
Ross G. Luce
|
| Paper 62 |
Annual Cycle Moisture Analysis |
Michael B. Stewart
|
| Paper 63 |
A Field Survey of the Performance Properties of Insulation Used to Retrofit Cavity Walls of Residences |
Walter J. Rossiter, Jr.
John L. Weidt
Robert J. Saxler |
| Paper 64 |
Recommended Insulation Retrofit Techniques for Mobile Homes with a Simple Payback Analysis |
Tage C.G. Carlson
Richard S. Bemis |
| Paper 65 |
The Mobile Window Thermal Test Facility (MoWitt) |
J.H. Klems
S.E. Selkowitz |
| Paper 66 |
Energy Conservation Study for Puerto Rico Aqueduct and Sewer Authority Building |
Sam R. Fogleman |
| Paper 67 |
Aged Thermal Resistance (R Value) of Foil-Faced Polyisocyanurate Foam Thermal Insulation Board |
Morton Sherman |
| Paper 68 |
The Effective Thermal Performance of an Insulated Standard Stud Wall Containing Air Gaps |
R.P. Tye
A.O. Desjarlais
J.G. Bourne
S.C. Spinney
|
| Paper 69 |
The Direct Approach to Retroffitting - Protected Membrane Roofing |
Peter N. Deal |
| Paper 70 |
The Impact of Insulation Placement on the Seasonal Heat Loss Through Basement and Earth-Sheltered Walls |
George D. Meixel
Paul H. Shipp
Thomas P. Bligh |
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