CASPIAN JOURNAL
MANAGEMENT AND HIGH TECHNOLOGIES
Simulation of construction biosensors for determining the degree of aquatic toxicity
Read | Starchenko Irina B., Vishnevetskiy Vyacheslav Yu., Ledyaeva Valeriya S., Strochan Timur P. Simulation of construction biosensors for determining the degree of aquatic toxicity // Caspian journal : management and high technologies. — 2013. — №3. — pp. 129-140. |
Starchenko Irina B. - D.Sc. (Engineering), Professor, Southern Federal University, 2 Shevchenko St., Taganrog, 347922, Russian Federation, star@sfedu.ru
Vishnevetskiy Vyacheslav Yu. - Ph.D. (Engineering), Assistant Professor, Southern Federal University, 2 Shevchenko St., Taganrog, 347922, Russian Federation, vvu@fep.tti.sfedu.ru
Ledyaeva Valeriya S. - post-graduate student, Southern Federal University, 2 Shevchenko St., Taganrog, 347922, Russian Federation, ledyaeva@fep.tti.sfedu.ru
Strochan Timur P. - undergraduate student, Southern Federal University, 2 Shevchenko St., Taganrog, 347922, Russian Federation, strochan.timur@rambler.ru
A study of various configurations of biosensors was provided. The calculations of the piezoelectric biosensor were done. Dependence of the sensitivity of the biosensor on the transducer type and biologically active substances is identified. The calculations of chemical biosensor defined its main characteristics. To investigate the relationship between the signal converters and biologically active components computer simulation model of the biosensor was built, which allows simple selection method to get the best response for a given pollutant, using not only the various converters, but also different strains. To build a computer simulation model the program Visual Studio 2012 was used, as it combines ease of use, extensive programming, a good means of presenting the results. Program implementation of the system (BioResours) which includes several simulation models of biosensors was presented.
Key words: biosensor,adsorption,immobilization,monitoring,model,piezoelectric element,strain