2 edition of Development of a mathematical model for predicting solar heat gains through building walls and roofs found in the catalog.

Development of a mathematical model for predicting solar heat gains through building walls and roofs

growth, private sector, and poverty reduction : a country economic memorandum.

  • 2398 Want to read
  • 743 Currently reading

Published by Administrator in Pennsylvania State University, College of Engineering, Institute for Building Research

    Places:
  • United States
    • Subjects:
    • Pennsylvania State University, College of Engineering, Institute for Building Research


      • Download Development of a mathematical model for predicting solar heat gains through building walls and roofs Book Epub or Pdf Free, Development of a mathematical model for predicting solar heat gains through building walls and roofs, Online Books Download Development of a mathematical model for predicting solar heat gains through building walls and roofs Free, Book Free Reading Development of a mathematical model for predicting solar heat gains through building walls and roofs Online, You are free and without need to spend extra money (PDF, epub) format You can Download this book here. Click on the download link below to get Development of a mathematical model for predicting solar heat gains through building walls and roofs book in PDF or epub free.

      • Bibliography: p. 35-37.

        StatementPennsylvania State University, College of Engineering, Institute for Building Research
        PublishersPennsylvania State University, College of Engineering, Institute for Building Research
        Classifications
        LC Classifications1966
        The Physical Object
        Paginationxvi, 125 p. :
        Number of Pages84
        ID Numbers
        ISBN 10nodata
        Series
        1
        2Better building report -- no. 6
        3

        nodata File Size: 8MB.


Share this book
You might also like

Development of a mathematical model for predicting solar heat gains through building walls and roofs by Pennsylvania State University, College of Engineering, Institute for Building Research Download PDF EPUB FB2


The radiant surface is calculated as a surface with a constant temperature. For improving the calculation accuracy, it is crucial to identify the model parameters. An optimum value of storage tank would be at which minima is achieved in the trend of annual auxiliary heater power required over the parametric analysis of storage tank volume. Subscripts rf: Roof fr: Floor wall: Wall win: Window s: Supply air air: Indoor air rad: Long wave radiation sol: Solar direct radiation out: Outside l: Outside node of 3R2C model o: Inside node of 3R2C model.

Collector Efficiency There are of solar thermal collectors: the flat-plate collector, the batch collector, and evacuated tube collector. This TYPE requires various inputs to model the collector efficiently such as collector area, number of collectors in series, fluid specific heat, tested flow rate of the collector, intercept efficiency, etc.

As depicted in Figure 8, there are seven cases with different "warm-up" durations from 2 days to 14 days. The fluctuating yellow lines are noticeable during the periods of 0 - 1500 and 7300 - 8760 hours that corresponds to the months of January-March and October-December.

Passive Solar Home Design

Applied Thermal Engineering, 31, 1536-1542. These unknown parameters of the model are compiled into the individual chromosomes, which are used for calculating the objection function. However, the model can adjust the parameters using the sample data, so it is suitable for the building energy management system. Fossil fuel based power plants has substantial negative impacts associated with them in terms of public health as well as a contribution to global warming.

International Journal of Refrigeration, 31, 315-327. This paper presents a methodology based on the ANNs to improve the prediction of energy usage for residential buildings in early design stages. They consist of a rectangular box with a transparent cover that faces the sun.