Author(s)

Kom Olivia Estelle, Mbane Biouele César^*

Laboratory of Earth’s Atmosphere Physics, Department of Physics, University of Yaoundé I,Yaoundé, Cameroun.

In a fluid (liquid or gas) at rest, the isobars are horizontal surface. This fluid dynamic balance theorem provides adequate advance to tools and techniques for Water Quality Interpretation. We deal in this paper, with an effective way of exploiting the familiar communicating containers’ principle. That formally consists on providing water samples from desired depths of rivers, oceans, retention dams, etc. The prevailing limiting factor to achieve this feat is the length of our sampling pipes named Mbane Bathymetric Tube (MBT) designed for this purpose when rivers or retention dams are very deep. Providing drinking water to urban growing populations is a challenge that no government can escape. Therefore, improving the tools and techniques for water quality interpretation is an adequate advance for drinking water managerial techniques because this allows the recovery of contaminated water which abounds on the earth by acquiring appropriate wastewater treatment stations. The aim of the manuscript is to provide a brief theoretical description of our designed sampling equipment to allow everyone who is going to use it to solve in advance problems brought by Archimedes’ pressure force when experiencing the sampling pipes. Archimedes’ pressure force acts mainly when moving the sampling pipes to water lower levels and then opening its protective cover which allows the communication with the supply dam.

Communicating Containers’ Principle, Water Samples from Desired Depths of Rivers, Mbane Bathymetric Tube (MBT), Tools for Water Quality Interpretation

Estelle, K. and César, M. (2015) Adequate Advance Provided by a Familiar Fluid Dynamic Balance Principle to Tools and Techniques for Water Quality Interpretation: Experienced in Yaoundé (Cameroun) 2^nd Supply Dam. Open Journal of Marine Science, 5, 158-168. doi: 10.4236/ojms.2015.51013.