Low-Cost Sensors Array Based on Planar Electromagnetic Sensor Simulation for Environmental Monitoring

Alif Syarafi Mohamad Nor; Mohd. Amri Md. Yunus; Sophan Wahyudi; Ibrahim Sallehhudin

doi:10.4028/www.scientific.net/AMR.925.614

Paper Titles

Modeling Development of a High-Sensitivity Escherichia coli O157:H7 Detection Based on SH SAW Sensor
p.595

Efficiency Enhancement in Dye-Sensitized Solar Cell Using TiO₂ /Ilmenite-Derived Nanofiber Composite as Working Electrode
p.600

Nanocoral PbS Films Schottky Solar Cell
p.605

Measuring Radon Concentration Levels in Fertilizers Using CR-39 Detector
p.610

Low-Cost Sensors Array Based on Planar Electromagnetic Sensor Simulation for Environmental Monitoring
p.614

Multi-Input Boost Converter for Hybrid PV and Wind Generator Systems
p.619

Simulation of Heat Transfer to Turbulent Nanofluid Flow in an Annular Passage
p.625

Transmission of Microwave Signal through Metal-Oxide Thin Film of Energy Saving Glass Using Different Shape of Frequency Selective Structure
p.630

Micro-Gap Electrodes Fabrication by Low Cost Conventional Photo Lithography Technique and Surface Characterization by Nanoprofiler
p.635

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 925Low-Cost Sensors Array Based on Planar...

Low-Cost Sensors Array Based on Planar Electromagnetic Sensor Simulation for Environmental Monitoring

Abstract:

Agriculture sectors have increased in sizes and numbers due to the expansion of human population. Human population growth has caused the demand in food, cloth, transportation, shelter etc. to increase tremendously. Essentially speaking, those surpluses of demands will adversely affect the production of agriculture sectors. In order to obtain high yield, the farmers might be overusing the fertilizer for their crops. These overused fertilizers will be dissolved in the nearest water resources such as river, pond and well. Hence, the natural water resources will be contaminated by these overused fertilizers. In this situation, there is a need for a sensor which could determine the contamination level in natural water resources. This project proposed low-cost sensor arrays based on planar electromagnetic sensors to monitor the contamination in the natural water resources. The sensors consist of three electromagnetic sensors that have been constructed in three types of configuration array namely, parallel, star, and delta. The modeling and simulation of the sensors were done by using COMSOL Multiphysics 4.2 software. Each sensor’s input was assign to 10 Volt peak to peak voltages and then the impedance of each sensor was obtained. In practical application, the impedance of these sensors will determine the contamination level of the water under test. The contamination condition was simulated by changing the electrical properties of the environment domain of the model that suit contamination condition. The impedance of each sensor was tabulated according to the increasing of frequency of the supply voltages. Hence, the best configuration of the planar electromagnetic sensors array for detection of contamination inside the natural water will be determined based on the sensitivity. This type of sensors will provide the in-situ measurement system which will save the cost and consequently the time required for each sample.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volume 925)

Pages:

614-618

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.925.614

Citation:

Cite this paper

Online since:

April 2014

Authors:

Alif Syarafi Mohamad Nor, Mohd. Amri Md. Yunus*, Sophan Wahyudi, Ibrahim Sallehhudin

Keywords:

COMSOL Simulation, Contamination, Impedance, Planar Electromagnetic Sensor, Sensors Array

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] A. Kassam, et al., The spread of conservation agriculture: justification, sustainability and uptake, International journal of agricultural sustainability, vol. 7, pp.292-320, (2009).

DOI: 10.3763/ijas.2009.0477

Google Scholar

[2] G. Liste, et al., A commercial trial evaluating three open water sources for farmed ducks: effects on water usage and water quality, British Poultry Science, (2013).

DOI: 10.1080/00071668.2013.763900

Google Scholar

[3] R. Ball, et al., Impedance spectroscopy measurements to study physio-chemical processes in lime-based composites, Applied Physics A, vol. 105, pp.739-751, (2011).

DOI: 10.1007/s00339-011-6509-7

Google Scholar

[4] S. Aravamudhan, et al., Development of Nitrate-Selective Electrochemical Sensor with Integrated Micro-fluidics, in Sensors, 2007 IEEE, 2007, pp.205-208.

DOI: 10.1109/icsens.2007.4388372

Google Scholar

[5] J. F. Akki, et al., Chemical sensor for nitrate in water using long period optical fiber grating fabricated by point by point method, in Optical Engineering (ICOE), 2012 International Conference on, 2012, pp.1-4.

DOI: 10.1109/icoe.2012.6409565

Google Scholar

[6] Y. Sheiretov, et al., MWM-array sensors for in situ monitoring of high-temperature components in power plants, (2009).

DOI: 10.1109/jsen.2009.2019335

Google Scholar

[7] N. Goldfine, Near surface material property profiling for determination of SCC susceptibility, in 4th EPRI Balance-of-Plant Heat Exchanger NDE Symposium, WY, June 10-12, 1996, (1996).

Google Scholar

[8] H. Müller, et al., Near-surface electromagnetic, rock magnetic, and geochemical fingerprinting of submarine freshwater seepage at Eckernförde Bay (SW Baltic Sea), Geo-Marine Letters, vol. 31, pp.123-140, (2011).

DOI: 10.1007/s00367-010-0220-0

Google Scholar

[9] M. M. Yunus and S. Mukhopadhyay, Development of planar electromagnetic sensors for measurement and monitoring of environmental parameters, Measurement Science and Technology, vol. 22, p.025107, (2011).

DOI: 10.1088/0957-0233/22/2/025107

Google Scholar

[10] M. A. M. Yunus, et al., Planar Electromagnetic Sensor Based Estimation of Nitrate Contamination in Water Sources Using Independent Component Analysis, Sensors Journal, IEEE, vol. 12, pp.2024-2034, (2012).

DOI: 10.1109/jsen.2011.2179646

Google Scholar

[11] M. A. M. Yunus and S. C. Mukhopadhyay, Novel Planar Electromagnetic Sensors for Detection of Nitrates and Contamination in Natural Water Sources, Sensors Journal, IEEE, vol. 11, pp.1440-1447, (2011).

DOI: 10.1109/jsen.2010.2091953

Google Scholar