Figures index

From

Study of Electromagnetic Waves on Industrial Waste Water

M. Srinivasa Rao, Omprakash Sahu

Physics and Materials Chemistry. 2013, 1(2), 34-40 doi:10.12691/pmc-1-2-5
  • Figure 1. Magnetic field developed inside pipe
  • Figure 2. Arrangement of Experiment
  • Figure 3. Electromagnetic system to treat the waste water
  • Figure 4. Effect of different flow rate on industrial waste water at fixed time (T) =15second, Current (A) =500mA, Magnetism field (G) = 879T, CODo= 4500mg/l, Hardness =300mg/l and Suspended Solid (SS) =150mg/l
  • Figure 5. Effect of different time at fixed flow rate of industrial waste water at Magnetism field (G) = 879T, CODo= 4500mg/l, Hardness =300mg/l and Suspended Solid (SS) =150mg/l
  • Figure 6. Effect of different magnetic field on industrial waste water at time (T) =60second, CODo= 4500mg/l, Hardness =300mg/l and Suspended Solid (SS) =150mg/l
  • Figure 7. Effect on pH different flow rate on industrial waste water at, Magnetism field (G) = 879 T, CODo= 4500mg/l, Hardness =300mg/l and Suspended Solid (SS) =150mg/l
  • Figure 8. Effect conductivity different flow rate on industrial waste water, Magnetism field (G) = 879T, CODo= 4500mg/l, Hardness =300mg/l and Suspended Solid (SS) =150mg/l
  • Figure 9. X-ray diffraction spectrograph of scale from outlet pipe in the blank line, identifying the sample as aragonite at magnetic intensity =879T flow rate = .167ml/second
  • Figure 10. Scanning Electron Microscope of treated waste water at magnetic intensity =879T flow rate = .167ml/second