GUI Of Control System On The Level Of Oil Tank By Two Pumps Using V. Basic

Abstract: Science is developing applications in all fields (medical, industrial, agricultural, military .... etc.) private computer applications, and at the moment has become easier development tasks through a computer, which controls the systems through the so-called graphical user interface (GUI), where it is through the graphical interface to control the whole system in terms of operating appeared, maintenance, and other, this is not only, but rather can handle the graphical interface by any person who is not a specialist in the field of control of any It simplifies dealing with the system by the designer person.This paper represents a simplification of the work of control is full of a large volume of fuel tank system as in factories through the two pumps and valves discharge , consists of control system of two parts (1- Software 2- Hardware) for Soft is the part of the compiler is responsible for receiving data , processed and giving orders to the hardware for the purpose of implementation.This is done simulations of the system through the graphical user interface GUI designed under the working environment V.BASIC by a specialist engineer to be controlled by someone less experienced in the field of control

REFERENCES

[1] Hicks, F., Tyler, G.; & Edwards, T.W. (1971), �Pump Application Engineering�. McGraw-Hill Book Company, New York.

[2] Khaled Reza, S.M., Shah Ahsanuzzaman Md. Tariq, S.M. Mohsin Reza (2010), �Microcontroller Based Automated Water Level Sensing and Controlling: Design and Implementation Issue�. Proceedings of the World Congress on Engineering and Computer Science, pp 220- 224.

[3] Venkata Naga Rohit Gunturi (2013), �Micro Controller Based Automatic Plant Irrigation System�, International Journal of Advancements in Research & Technology, Vol. 2, Iss. 4, ISSN 2278-7763

[4] Judy Hodgson, Trey Walters(2002), �Optimizing Pumping Systems To Minimize First Or Life-Cycle Cost�, Proceedings of the 19th international pump users symposium. Pp 1-8.

[5] Rojiha, C. (2013), �Sensor Network Based Automatic Control System for Oil Pumping Unit Management�, International Journal of Scientific and Research Publications, Vol. 3, Iss. 3. Pp 1-4.

[6] P. Dietz, W. Yerazunis, D. Leigh, Very Low-Cost Sensing and Communication Using Bidirectional LEDs, UbiComp 2003: Proceedings, vol. 2864, pp. 175-191, 2003.

[7] M. Javanmard, K.A. Abbas and F. Arvin, �A Microcontroller-Based Monitoring System for Batch Tea Dryer�, CCSE Journal of Agricultural Science, Vol. 1, No. 2, December 2009

[8] Roderick L. Shepherd, William S. Yerazunis and Senior Member, �Low-Cost Surface Mount LED Gas Sensor�, IEEE King Tong Lau and Dermot Diamond, Sensors-00997, 2005

[9] T. S. Aye, and Z M. Lwin, �Microcontroller Based Electric Expansion Valve Controller for Air Conditioning System�, World Academy of Science, Engineering and Technology, 2008

[10] L. Byrne, K.T. Lau, and D. Diamond, Monitoring of headspace total volatile basic nitrogen from selected fish species using reflectance spectroscopic measurements of pH sensitive films�, The Analyst, vol. 127, pp. 1338-1341, 2002.

[11] Milenkovic, A., Milenkovic, M., Jovanov, E., Hite, D., and Raskovic, D.: An environment for runtime power monitoring of wireless sensor network platforms, Proc. of SSST� 05, 406�410, 2005.

[12] E.J. Cho and F.V. Bright, Integrated chemical sensor array platform based on light emitting diode, xerogel-derived sensor elements, and high-speed pin printing, Analytica Chimica Acta, vol. 470, pp. 101-110, 2002.

[13] R.E. Shaffer, S.L. Rose-Pehrsson, R.A. McGill, A comparison study of chemical sensor array pattern recognition algorithms, Anal. Chim. Acta 384 (1999) 305�317.