| Title of Paper / Author(s) | Pages
|
Consolidation of Federal Heating Systems: A Unique District Energy Partnership
Robert Smith, P.E.; Stephen McAdams, P.E.; Barry Kumar, P.E. | 1-12
|
Baltimore District Chilled Water: A Successful Partnering Case History
William H. Parsons, AIA; Kenneth E. Pitz, P.E. | 13-22
|
Army Utilities Privatization - Heating Systems
Satish Sharma | 23-33
|
New Technology for Maintaining Total Iron as Fe2O3 Below 50 ppb in Closed Water Systems
John A. Gray, C. Chem. | 35-49
|
Why Use Preinsulated Pipes for District Cooling?
Steen Palle | 51-62
|
Advances in the Development of Energy Efficient Technologies: Sea Water Air Conditioning (SWAC)
Jonathan d'E. Coony | 63-76
|
Methods for Enhancing the Evaporative Cooling Potential of Central Chilled Water Plants
William P. Bahnfleth, Ph.D., P.E.; James A. Rehfeldt, P.E. | 77-90
|
Industrial Central Chiller Facility Upgrade for Greater System Capacity and Tighter Process Control
Evans J. Lizardos, P.E. | 91-96
|
District Energy Market Development in Canada - The Role of the Canadian Federal Government
Rob Brandon, P.E.; Michael Wiggin, P.E. | 97-105
|
GSA's CEMS
Joel H. Klotz, P.E. | 107-251
|
Experience Gained in the Process of the Variable Mass Heat Flow Control Implemented in the District Heat Supply System of the City of Györ
F. Nagy; L. Milanovich; J. Lèlek; I. Kekk | 128-138
|
Economical Evaluation of CHP Units and Optimization of Heat Supply
Barnabàs Bagi; Tibor Csürök; Vilmos Lehel | 129-135
|
The Seven C's
Mads Madsen | 137-149
|
Integrating District Cooling with Cogeneration
Mark Spurr | 151-162
|
Technology Advances for Operations and Maintenance
R.J. Meador; D.B. Jarrell; F.G. Buck | 163-175
|
Optimal Cycle for Plate Heat Exchanger Cleaning in Customer Substation
Alexander L. Burd, Ph.D., P.E.; Galina S. Burd | 177-192
|
Heat Loss of District Heating Distribution Networks
A. Zsebik; Zs. Sztrancsik | 193-203
|
Steam Transmission Line System Engineering
Charles Carr | 205-213
|
High Capacity Mechanical Water - Vapor Compression Vacuum Ice Machines for District Cooling and Heating
P. Elovic; B. Holmes | 215-226
|
Employing Miniature Camera Probes and Pipe Crawling Robots (PCRs) to Examine Underground District Energy Piping Systems
George R. McNulty | 227-238
|
Drag Reduction in District Heating and Cooling Circuits - Temporary Disruption of Micelles to Preserve the Heat Exchanger Capacity
Caroline Blais; Ian Harwigsson; Martin Hellsten; Janusz Wollerstrand | 239-253
|
Automatic Tube Cleaning Systems for Condensers and Heat Exchangers
Marvin J. Wagner | 255-271
|
The Branding of Energy Services: A Consumer Goods Approach to Marketing Energy Services
Gary M. Hirsch; Heather Gartman, Sheila Paterson; Michael Gill | 273-288
|
Heating and Cooling Rate Development
Karl E. Marietta | 289-294
|
Converting Existing Power Plants to District Energy Supply
Dr. I. Oliker, P.E. | 295-306
|
Documentation and Training, an Essential Element for New Plants
Michael McClintock; Donald Kuney; Michael Dimmick | 307-316
|
Training as a Management Tool for a More Competitive Workforce
Herman P. Stone II; Salman M. Sheikh | 317-330
|
District Cooling in Scandinavia
Bernt Andersson | 331-335
|
Harrisonburg, Virginia, A Win - Win - Win Situation
Jon B. Belcher, P.E. | 337-348
|
Hill Air Force Base Energy Performance Contract
Michael D. Leach, P.E., C.E.M. | 349-358
|