International Research Journal of Engineering and Technology (IRJET)
e-ISSN: 2395 -0056
Volume: 04 Issue: 03 | Mar -2017
p-ISSN: 2395-0072
www.irjet.net
Monitoring and Analysis of Aquatic Intake in Instructive Bodies N Mohamed Athil1, S Manikandan2, J Babitha Thangamalar3, V.Soundaravalli4 1Assistant
Professor, Dept. of EIE, National Engineering College, Kovilpatti, TamilNadu Associate Professor, Dept. of EIE, National Engineering College, Kovilpatti, TamilNadu 3 Assistant Professor (SG), Dept. of EIE, National Engineering College, Kovilpatti, TamilNadu 4Assistant Professor, Dept. of EIE, National Engineering College, Kovilpatti, TamilNadu ---------------------------------------------------------------------***--------------------------------------------------------------------2. HARDWARE DESCRIPTION Abstract - The outline of utmost organizations everywhere 2.1 Sensor in the biosphere is aquatic intake. Aquatic intake is observed 2
physically in instructive bodies and isolated segments. This needs a share of man power, plenty of period and leads to error. This paper recommended a system that contracts with wireless constant observing and study of aquatic intake rate. The stream of water in a pipe is measured by using turbine type Hall Effect instrument. The wireless communication is accomplished between fields and isolated observing division by means of RF module. Virtual Instrumentation shows a key role in real time study. Advance designs are made through LabVIEW software design.
Water Flow Sensor YF-S201 which is shown in Fig. 1, can be used to measure the flow of liquids in both industrial and domestic applications. This sensor basically consists of a plastic valve body, a rotor and a Hall Effect sensor. The sensor sits in line with the water line and contains a pinwheel sensor to measure how much liquid has moved through it. The pinwheel rotor revolves when water flows through the valve and its speed will be directly comparative to the flow rate. There is an integrated magnetic Hall Effect sensor that output an electrical pulse with every revolution of the pinwheel rotor. The Hall Effect sensor is sealed from the water pipe and allows the sensor to stay safe and dry. This water flow sensor module can be easily interfaced with Microcontrollers, Arduino Boards and Raspberry - Pi.
Key Words: LabVIEW, DAQ, Real time analysis, RF module.
1.INTRODUCTION Effective aquatic managing method consist of providing water rendering to the physical necessity and thus computing water is vital phase in aquatic managing method. There are many water stream procedures as well as dissimilar types of water flow patterns are used to measure the capacity of water stream in pipes. Precise stream measurement is a necessary phase in cooperation with qualitative and commercial point of view. Flow meters are the precise procedures for computing water stream and also cool to construct a truncated - price water managing method. The sensor is fitted in the pipeline where water intake observing is needed. The sensor’s output is then transmitted to isolated monitoring section using RF transmission. In monitoring section, the received signal is acquired by the LabVIEW through DAQ. The operations are accomplished in LabVIEW to display the water intake level. Advance Analysis can be made through the stored data in MS Excel.
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Fig. 1. Water Flow Sensor (YF-S201) The relationship between the water flow and the pulse is determined through multipoint calibration. These parameters are noted for different flowrate within the sensor’s working flowrate (1-30l/min). Calibration factor i.e. water flow for a single pulse is obtained from the observed readings.
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