A System for Recording Precipitation Height by the Use of Capacitor Plates

Authors

  • Mohammad Javad Manshati
  • Hoda Kahrizi

Keywords:

capacitor plates, measuring the precipitation height, recording data at any moment

Abstract

Precipitation is one of the meteorological factors that plays a significant role in water development and other civil projects. The amount of precipitation is considerably crucial in estimating the amount of surface/underground water and runoff. It is also used in predicting the likelihood of flood with the purpose of taking necessary steps. Due to lack of a complete rain gauge station network in the entire world (especially in impassable areas which are out of regular access), it is not possible to accurately measure the amount of precipitation on the global scale. There are different methods for measuring precipitation, involving the volumetric, weight, or ultrasonic methods. Some of these measurement procedures, however, suffer from low measurement accuracy and high implementation costs. In the current study, aluminum capacitor plates were used to design an instrument for measuring precipitation height. In this instrument, capacitor plates were installed on the rain gauge tank. Data were collected in the campus of the Faculty of Agriculture, Razi University of Kermanshah. The capacitance was calibrated to precipitation height and changes in the capacitance in relation to time and precipitation height were recorded. Measurements conducted by the capacitance meter (VICTOR-6013) showed that the precipitation height had been measured with an accuracy of 0.1 mm. Furthermore, the measurement error of precipitation height of the instrument was 4.3.

 

References

Ansari, H., Davari, K. “Estimating and reconstructing precipitation data by fuzzy technique.†Vol. 1, pp.1-12, 2009.

Bafkar, A., Ghamarnia, H., & Tizro, A. T. “General principles of irrigation.†Vol. 2, p. 127, 2006.

Hosseini, A. H., & Hojam, S. “The relationship between clouds’ precipitation water and observed precipitation in Tehran.†Journal of Earth and Space Physics. Vol. 31 (2), pp. 13-21, 2005.

Ghahreman, B. “Analysis of short term precipitations in Khorasan.†The Science and Research Journal of Watershed Science and Resources of Iran, 2007.

Li, H. Y., Q. Li, et al. “Discussion on the algorithms of a new siphon rain gauge.†WSEAS Transactions on Circuits and Systems. vol. 9 (6), p.p. 389-398, 2010.

Goudenhoofdt, E. and L. Delobbe. “Evaluation of radar-gauge merging methods for quantitative precipitation estimates.†Hydrology and Earth System Sciences. Vol. 13 (2): 195, 2009.

Simpson, J.and F. Adler, R. “A Proposed Tropical Precipitation Measuring Mission (TMM) Satelliteâ€, 1988.

Kazovsky, L. “An Optical Rain Gauge Based on Forward Scattering.†Geoscience and Remote Sensing, IEEE Transactions on vol. 2, p.p. 124-131, 1985.

Calder, I.R.and Rosier, P.T. “The design of large plastic-sheet net-precipitation gauges.†Institute of Hydrology, Crowmarsh Gifford, Oxon Great Britain, 1976.

“The technical requirements of rain gaugeâ€. China National Machinary Industery Bureau, 1999.

Downloads

How to Cite

A System for Recording Precipitation Height by the Use of Capacitor Plates. (2015). Asian Journal of Applied Sciences, 3(6). https://ajouronline.com/index.php/AJAS/article/view/3462

Similar Articles

21-30 of 279

You may also start an advanced similarity search for this article.