Artificial neural network and wavelet neural network approaches for modelling of a solar air heater

This paper reports on a modelling study of new solar air heater (SAH) system by using artificial neural network (ANN) and wavelet neural network (WNN) models. In this study, a device for inserting an absorbing plate made of aluminium cans into the double-pass channel in a flat-plate SAH. A SAH system is a multi-variable system that is hard to model by conventional methods. As regards the ANN and WNN methods, it has a superior capability for generalization, and this capability is independent on the dimensionality of the input data's. In this study, an ANN and WNN based methods were intended to adopt SAH system for efficient modelling. To evaluate prediction capabilities of different types of neural network models (ANN and WNN), their best architecture and effective training parameters should be found. The performance of the proposed methodology was evaluated by using several statistical validation parameters. Comparison between predicted and experimental results indicates that the proposed WNN model can be used for estimating the some parameters of SAHs with reasonable accuracy.

[1]  Soteris A. Kalogirou,et al.  An adaptive wavelet-network model for forecasting daily total solar-radiation , 2006 .

[2]  Azharul Karim,et al.  Performance investigation of flat plate, v-corrugated and finned air collectors , 2006 .

[3]  Michael Negnevitsky,et al.  Artificial neural networks application for current rating of overhead lines , 1995, Proceedings of ICNN'95 - International Conference on Neural Networks.

[4]  E. Mizutani,et al.  Neuro-Fuzzy and Soft Computing-A Computational Approach to Learning and Machine Intelligence [Book Review] , 1997, IEEE Transactions on Automatic Control.

[5]  Chii-Dong Ho,et al.  The improvement of collector efficiency in solar air heaters by simultaneously air flow over and under the absorbing plate , 1999 .

[6]  Adel A. Hegazy Performance of flat plate solar air heaters with optimum channel geometry for constant/variable flow operation , 2000 .

[7]  Bhavik R. Bakshi,et al.  Wave-Nets: novel learning techniques, and the induction of physically interpretable models , 1994, Defense, Security, and Sensing.

[8]  J. L. Bhagoria,et al.  Augmentation of heat transfer coefficient by using 90° broken transverse ribs on absorber plate of solar air heater , 2005 .

[9]  Soteris A. Kalogirou,et al.  Applications of artificial neural networks in energy systems , 1999 .

[10]  M. R. Heras,et al.  Thermal performance of an air solar collector with an absorber plate made of recyclable aluminum cans , 2004 .

[11]  Soteris A. Kalogirou,et al.  Solar thermal collectors and applications , 2004 .

[12]  Chii-Dong Ho,et al.  Collector efficiency of double-flow solar air heaters with fins attached , 2002 .

[13]  Mustafa Inalli,et al.  Performance prediction of a ground-coupled heat pump system using artificial neural networks , 2008, Expert Syst. Appl..

[14]  Mohamed Mohandes,et al.  Estimation of global solar radiation using artificial neural networks , 1998 .

[15]  Chunlei Zhang Generalized correlation of refrigerant mass flow rate through adiabatic capillary tubes using artificial neural network , 2005 .

[16]  Soteris A. Kalogirou,et al.  Applications of artificial neural-networks for energy systems , 2000 .

[17]  M. L. Ray,et al.  Experimental study of thermal performance improvement of a solar air flat plate collector through the use of obstacles: application for the drying of ‘yellow onion’ , 1999 .

[18]  Qinghua Zhang,et al.  Wavelet networks , 1992, IEEE Trans. Neural Networks.

[19]  Soteris A. Kalogirou,et al.  Modelling of a thermosyphon solar water heating system and simple model validation , 2000 .

[20]  Hikmet Esen,et al.  Experimental energy and exergy analysis of a double-flow solar air heater having different obstacles on absorber plates , 2008 .

[21]  Adnan Sözen,et al.  Modelling (using artificial neural-networks) the performance parameters of a solar-driven ejector-absorption cycle , 2004 .

[22]  Soteris A. Kalogirou,et al.  Prediction of flat-plate collector performance parameters using artificial neural networks , 2006 .

[23]  Chii-Dong Ho,et al.  Effect of collector aspect ratio on the collector efficiency of upward type baffled solar air heaters , 2000 .