Grid-Connected Integrated Community Energy System. Final Report, August 9, 1977--March 22, 1978. Volume I, Phase II. [Clark University]

Clark University represents an attractive site for demonstration of cogeneration. The results of Phase I are briefly reviewed. This report provides an update on issues that were incompletely resolved in the Phase I report. Section 2 provides additional documentation on institutional issues involved...

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Bibliographic Details
Format: Report
Language:English
Published: Clark University (Worcester, Mass.) 1978
Subjects:
Co-Generation
Power
Feasibility Studies
Document Types
Inflation
32 Energy Conservation
Consumption
And Utilization
Massachusetts
Rate Structure
North Atlantic Region
Electric Power
Financing
Steam Generation
Systems Analysis
Economics
Internal Combustion Engines
Legal Aspects
320600 > Energy Conservation
& Utilization > Municipalities & Community Systems > (1980-)
Reviews
Usa 290800* > Energy Planning & Policy > Heat Utilization > (1980-)
Heat Recovery
29 Energy Planning
Policy And Economy
Energy Recovery
Design
Energy Conservation
Diesel Engines
Power Generation
Recovery
Engines
Environmental Impacts
Ices
North America
Deus
North Atlantic
Online Access:https://doi.org/10.2172/6539684
https://digital.library.unt.edu/ark:/67531/metadc1195347/
Description
Summary:Clark University represents an attractive site for demonstration of cogeneration. The results of Phase I are briefly reviewed. This report provides an update on issues that were incompletely resolved in the Phase I report. Section 2 provides additional documentation on institutional issues involved in the proposed demonstration. Section 3 provides a preliminary design analysis that clearly defines the choice of engine and provides revised operating data in light of additional load profile studies. It is found that a Sulzer No. 6-oil-burning 1405-kW diesel with ebullient cooling and exhaust-gas heat recovery is the system of choice. Section 4 presents a summary of the preliminary design package. Major items included here, but not previously, are a fuel-treatment facility, preliminary design of a building, preliminary layouts of equipment, including a cooling tower on the roof of an existing building. Section 5 provides a financial analysis based on the design package. In comparison to Phase I, capital costs increased considerably due to the addition of a separate building, fuel treatment, and the use of a more-expensive No. 6-oil-burning engine. It is found, however, that the project continues to be financially viable. Specifically, a 9.4-year-payback period is projected on a total Clark investment of $1.5 million. Total cost, including DOE-financed feasibility studies and demonstration aspects, is projected at $2.2 million. The Clark ICES system is still a generally attractive project. From a national point of view it clearly demonstrates grid-connected cogeneration through the sale of 40% of Clark's output and a net fuel saving of 30%. From Clark's point of view it serves as a sound investment and a useful hedge against inflation and future changes in utility rate structure.

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