International Journal of Engineering and Management Research (IJEMR)
  • Year: 2015
  • Volume: 5
  • Issue: 3

Electrolyter-1005: A Bioinstrument Made from Electrical Waste

  • Author:
  • Akshya K. Mishra1, Samir K. Bhoi1, Soumendra K. Dash1, Mihir K. Das2
  • Total Page Count: 3
  • Page Number: 775 to 777

1M. K. Das Group of Instrument Research, Sambalpur, Odisha, India

2DHE, Government of Odisha, Bhubneswar, Odisha, India

Online published on 21 November, 2017.

Abstract

We can't imagine present world without electrical and electronic devices. After their use they may treat as waste material, these are thread to environment and our planet. In this present study we used, electrical waste like mobile charger, unused pH electrode, unused plastic box and wares and we have designed an instrument Electrolyter-1005. Electrolyter-1005 is based on Faraday's 1st law of electrolysis. Electrolyter 1005 is an analytical instrument having the capacity to electrolyze the electrolyte. The Faraday's first law of electrolysis stated that “weight of the substance librated at the electrode as a result of electrolysis is directly proportional to the quantity of electricity passed through the electrolyte.” Mathematically we can write that: -Weight of the substance =(Equivalent mass of the substance/96500×ct) gm, Where c is current in Amp, t is time in second. The main application of our instrument is quantitative estimation of metals, estimation of ions, water analysis and soil analysis, metal absorption capacity of cyanobacteria which is an important point of consideration in cyanobacterial bioremediation research. The making cost of this instrument was Rs.300.

Keywords

Electrolyter-1005, Faraday's law, metal estimation, pollution tracking