International Journal of Advances in Materials Science and Engineering (IJAMSE) ijamsejournal
International Journal of Advances in Materials Science and Engineering (IJAMSE) is a quarterly open access peer-reviewed journal that publishes articles which contribute new results in all areas of the Materials Science and Engineering. The journal is devoted to the publication of high quality papers on theoretical and practical aspects of Materials Science and Engineering.
applications, the material used, the methods of preparation, the different types of polymers, the selection of raw materials, Book concerning the elements of design the natural fiber textile polymer composites for a particular end use, their manufacturing techniques
International Journal of Advances in Materials Science and Engineering (IJAMSE) ijamsejournal
International Journal of Advances in Materials Science and Engineering (IJAMSE) is a quarterly open access peer-reviewed journal that publishes articles which contribute new results in all areas of the Materials Science and Engineering. The journal is devoted to the publication of high quality papers on theoretical and practical aspects of Materials Science and Engineering.
applications, the material used, the methods of preparation, the different types of polymers, the selection of raw materials, Book concerning the elements of design the natural fiber textile polymer composites for a particular end use, their manufacturing techniques
This paper proposes the design and development of Arduino based solar charge controller with sun tracking using PWM technique. This PWM technique is employed using ATmega328P on Arduino board. The Arduino is used to charge a 12V battery using 10W solar panel. The main feature of this charge controller is to control the load. During day time when load is not connected the battery gets charged from solar panel. When battery reaches peak value of 14.7V charging current & further charging is interrupted by Arduino. An inbuilt analogue to digital converter is used to determine voltage of battery, solar panel and current drawn by the load. A solar tracking system is also implemented such that panel is always kept at right angle to incident radiation.
Solar Colony: Designing and Economics of Rooftop Solar PV SystemAbhishek Desai
This project work aimed for the designing and finding the economics of a roof top solar PV
system for a residential area in Navi Mumbai. Following work was carried out:
Payback period calculation of Solar PV system
MATLAB simulation of DC – DC Converter
Hardware implementation of prototype of Solar PV system using DSP TMS320F28069
This paper proposes the design and development of Arduino based solar charge controller with sun tracking using PWM technique. This PWM technique is employed using ATmega328P on Arduino board. The Arduino is used to charge a 12V battery using 10W solar panel. The main feature of this charge controller is to control the load. During day time when load is not connected the battery gets charged from solar panel. When battery reaches peak value of 14.7V charging current & further charging is interrupted by Arduino. An inbuilt analogue to digital converter is used to determine voltage of battery, solar panel and current drawn by the load. A solar tracking system is also implemented such that panel is always kept at right angle to incident radiation.
Solar Colony: Designing and Economics of Rooftop Solar PV SystemAbhishek Desai
This project work aimed for the designing and finding the economics of a roof top solar PV
system for a residential area in Navi Mumbai. Following work was carried out:
Payback period calculation of Solar PV system
MATLAB simulation of DC – DC Converter
Hardware implementation of prototype of Solar PV system using DSP TMS320F28069
4. ANALYSIS OF STUDENT SATISFACTION
Dr.Magdy El Messiry Page 4
FACULTY STUDENT SATISFACTION INDEX
52.5
40%up to 60%
60 and up 40%up to 60% Less than 40%
5. ANALYSIS OF STUDENT SATISFACTION
Dr.Magdy El Messiry Page 5
0
5
10
15
20
25
30
35
40
RED YELLOW GREEN
PERCENTAGE OF EACH CATIGURY OF
(SSI)