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The work done by General Atomic Company (GA) to complete the preliminary design of a fixed mirror solar concentrator (FMSC) for Sandia Laboratories as part of Phase I of the Sandia Solar Total Energy System is described.
#Honeywell s&c hel 707 t 0 12 00 code
Topics include deterministic insolation model computer code building energy usage data computer simulation programs for building energy demand analysis model buildings for STES evaluation Solar Total Energy System Evaluation Program (STESEP) computer code transient simulation of STES concept solar data tape analysis program listings and sample output for use with TRNSYS transient simulation, and financial parameters sensitivities. Each concept was evaluated on the basis of its cost effectiveness (i.e., as compared to other concepts) and its ability to ultimately penetrate and capture a significant segment of this market, thereby resulting in a saving of fossil more » fuel resources.
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Candidate STES concepts were selected to provide on-site power generation capability, as well as thermal energy for both heating and cooling applications.
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« lessĪ methodology has been developed by Atomics International under contract to the Department of Energy to define the applicability of solar total energy systems (STES) to the commercial sector (e.g., retail stores, shopping centers, offices, etc.) in the United States. It does not take the place of the SOLMET data base which provides, in a single FORTRAN compatible tape, quality controlled hourly insolation and meteorological data for representative sites throughout the United States. The model described here is intended for the rapid, approximate analysis of solar systems. The same mathematical model has been incorporated into the Fortran Program STESEP. It has been implemented by a three-module more » program written for the Texas Instruments SR-52 Programmable Slide-Rule Calculator, as described herein. The method lends itself to a formulation in terms of simple mathematical expressions and is suitable for use by hand calculators and small computers. It attempts to make maximum use of predictable factors, introducing random factors associated with local weather in the simplest way possible. It is designed to fulfill the need for a rapid, economical method of assessing the availability of solar radiation as a basis for site selection and system performance estimation. A simple mathematical model is described for estimating the monthly average insolation experienced by a fixed or tracking collector.