Feasibility study for a direct, air-cooled condensation system
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Feasibility study for a direct, air-cooled condensation system by Michael D. Henderson

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Published by U.S. Environmental Protection Agency, Office of Research and Development, for sale by the National Technical Information Service in Washington, Springfield, Va .
Written in English


  • Condensation.,
  • Pollution -- United States.,
  • Power-plants -- Noise.

Book details:

Edition Notes

Statementby Michael D. Henderson.
SeriesEnvironmental protection technology series ; EPA-600/2-76-178, Research reporting series -- EPA-600/2-76-178.
ContributionsUnited States. Environmental Protection Agency. Office of Research and Development., R.W. Beck and Associates.
The Physical Object
Paginationvi, 69 p. :
Number of Pages69
ID Numbers
Open LibraryOL15210417M

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This feasibility study is an important first step in the development investigation. Some studies have discussed the feasibility study in several ORC system applications. Husband and Beyene () discussed the feasibility of a low-grade heat-driven Rankine cycle for solar power generation. The power plant is based on air cooled condensate system. The water requirement for the proposed CPP plant works out to be approximately m3/ day. Water demand is proposed to be met from the present water source being received from Mine pit and ground water Waste water generated from the power plant will be treated and used. Feasibility study and design for any cooling and condensation system; Permitting support and project tendering Conceptual design Performance guarantee and operating conditions Plant and system optimization Process, operation and control concept Sizing and detail design of all systems Civil and structural steel design Electrical systems and controls.   Furthermore, this study analyzed the impacts of relative humidity on the overall transfer coefficient (U) of a LNG cryogenic exchanger for air-cooled LNG plants. A commercial simulator, Aspen HYSYS® V9, was used to study the announced effects on the single mixed refrigerant liquefaction process by varying the relative humidity.

The scope of this study was to review the design of the AP cooling system with the conventional steam surface condenser and investigate the design of a comparable air- cooled condenser (ACC) to support the generic design concept for the AP Nuclear.   The system consists of an air-cooled condenser (ACC) working in parallel to a latent heat storage with phase-change material (PCM). The purpose of the hybrid system is to store some of the latent heat of steam condensation during the turbine operation and reject it at night, in order to shift a share of the cooling work and exploit the high. The applications of ventilated beam systems in the hot and humid climate are limited. The main reason is the high risk of condensation. A case-study measurement was conducted in a typical office building in Singapore to investigate the feasibility of a ventilated beam system in the Tropics. FEASIBILITY STUDY OF DC POWER DISTRIBUTION AND CHILLED BEAM 60% more energy as compared to the water cooled and air cooled system. However, it still. 2 Failure to do this will lead to condensation in the cabins. Analyzing the external factors compared.