Gas engines are mechanical devices working theoretically on the P=c, and V=C cycles,
or its modifications, in which compressible uids, such as air, hydrogen, helium, nitrogen or even vapors, are used as working fluids. In this model, CSGE is used to power on and operate the Reverse Osmosis Desalination Plant. User should assign the plant productivity in order to get the design limits for desalination and splar parts. Hydro power plant is used as a power recovery instead of batteries or diesel power.
Design model is developed to calculate the following:
1-Dish design parameters (area, efficiency, etc...).
2-Selecting Stirling or Brayton engines design parameters (volume, pressure, physical properties, etc...).
3-12 working gases are available for both engines.
User can assign some parameters such as:
2-Solar radiation data, W/m2.
3-Temperature and some physical properties.
5-RO membrane type (area, salinity, recovery ratio,No. of membranes, etc...).
RO types are:
1- RO basic
2- RO PWT
3- RO PEX
Hydropower plant consists of:
1-Upper & Lower Tanks.
2-Pelton Wheel Turbine.
**Watch the video:
**MatLab-SimuLink should be used to run the model.
Two models are contained in one folder: -Single point model -Dynamic model
Copyright © 2007 by Mohamed A. Sharaf Eldean Ayoub
All rights reserved. No part of this work may be reproduced, distributed, or transmitted in any form or by any means, including photocopying, recording, or other electronic or mechanical methods, without the prior written permission of the publisher (Mohamed A. Sharaf Eldean Ayoub). For permission requests, write to the publisher, addressed “Attention: Permissions Coordinator,” at the address below.
REDS Software Library
Kuala Lumpur Malaysia
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Solar Dish Stirling-HydroPower for Reverse Osmosis Desalination
User can reform the model based on his need. Dynamic modeling is allowed.