Zastosowania nietermicznej plazmy w biotechnologiach

• Autorzy: Stryczewska H. , Łękawa A.

Warianty tytułu

EN

Applications of nonthermal plasma in biotechnologies

• Języki publikacji: PL

Abstrakty

PL

W pracy dokonano przeglądu środowiskowych i biomedycznych zastosowań nietermicznej plazmy generowanej przy ciśnieniu atmosferycznym. Przedstawiono warunki generacji nietermicznej plazmy oraz wybrane wyniki obróbki gleby z wykorzystaniem ozonu generowanego za pomocą wyładowań barierowych.

EN

Paper presents review of environmental and biomedical applications of non-thermal plasma generated at atmospheric pressure. Conditions of non-thermal plasma generation are given and chosen results of soil sterilization with ozone produced by dielectric barrier discharges are presented.

Słowa kluczowe

PL

plazma nietermiczna; wyładowania barierowe; ozon; obróbka gleby

EN

non-thermal plasma; dielectric barrier discharges; ozone; soil treatment

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2009
• Tom: R. 85, nr 6
• Strony: 83--86
• Opis fizyczny: Bibliogr. 36 poz., rys., wykr.

Twórcy

autor

Stryczewska H.

autor

Łękawa A.

• Politechnika Lubelska, Instytut Podstaw Elektrotechniki i Elektrotechnologii,

Bibliografia

• [1] Stryczewska H.D., Technologiczne zastosowania nietermicznej plazmy generowanej wyładowaniami elektrycznymi, Przegląd Elektrotechniczny, 84 (2008), nr 5, 95-98
• [2] Stryczewska H.D., Janowski T., Zastosowania technologii nadprzewodnikowych i plazmowych w energetyce, Przegląd Elektrotechniczny, 79 (2003), nr 7/8
• [3] Stryczewska H.D., Ebihara K., Takayama M., Gyotoku Y., Tachibana M., Non-thermal Plasma Based Technology for Soil Treatment, Plasma Process. Polym.(2005)
• [4] Ebihara K., Shibuya Y., Stryczewska H.D., Gyoutoku Y., Kubo K., Tachibana M., Soil Treatment Process using Ozone and NO Generated by Electric Discharges, 21st Symposium on Plasma Processing, 28-30 Jan. 2004 (SPP-21), Hokkaido, Japan, art. P2-35, (2004)
• [5] Proceedings of 17th International Conference on Plasma Chemistry, Toronto, (2005), CD-rom
• [6] Vasiliev M., Vasilieva T., Electron-beam plasma in the production of bioactive agents and drugs, ibid. art. nr 57
• [7] Ebihara K. et al, Soil Sterilization Using Ozone Generated By Dielectric Barrier Discharge, ibid. art. nr 64
• [8] Pacheco M., Moreno H., Pacheco J., Automotive toxic gases removal by non thermal plasma, ibid. art. nr 110
• [9] Girard-Lauriault P.-L. et al, Atmospheric Pressure Deposition of Micropatterned N-rich Plasma-Polymer Films for Tissue Engineering, ibid. art. nr 133
• [10] Grossmannová H., Krčma F., Slánská K., VOC Destruction in Atmospheric Pressure Plasma Discharge, ibid. art. nr 158
• [11] Li Ke, Chen Jie-rong , Mo Xiao-yan, Li Ru, Li Ying, Study of non-thermal plasma on the efficacy and mechanisms of indoor air sterilization, ibid. art. nr 203
• [12] Moreau M. et al, Bio-decontamination by Gliding Arc Discharges: Application to the treatment of Erwinia carotovora atroseptica 1526, ibid. art. nr 297
• [13] Lock E.H., Saveliev A.V., Kennedy L.A., Removal of Methanol and Dimethyl Sulfide by Pulsed Corona Discharge: Energy Efficiency and Byproducts Formation, ibid. art. nr 306
• [14] Silla V., Munz R.J., The treatment of Li-ion battery waste in a transferred arc plasma reactor, ibid. art. nr 319
• [15] Lopez L.C., Gristina R., Favia P., d’Agostino R., Covalent immobilization of biological molecules on various plasma modified polymers, ibid. art. nr 343
• [16] Sekiguchi H., Nakanishi S., Murakami M., Arimatsu H., Application of Atmospheric Microwave Pure Steam Plasma to Treatment of Plastic Wastes, ibid. art. nr 469
• [17] Kalita V.I. et al, Plasma deposited composite bioactive porous coatings for intrabone implants, ibid. art. nr 535
• [18] Brocilo D. et al, Removal of NOx and dust particles from exhaust of diesel engine power generator by plasma-catalyst system, ibid. art. nr 544
• [19] Motret O. et al, Destruction of ethylene by pulsed dielectric barrier discharge in dry and wet air – parametrical study, ibid. art. nr 578
• [20] Khacef A., Cormier J.M., Removal of NOx and SO2 from synthetic glass industry exhausts with pulsed dielectric barrier discharge, ibid. art. nr 590
• [21] Perucca M., Pirri C.F., Mandracci P., Carossa C., Ceruti P., Growth of amorphous thin-films on dental prostheses for the improvement of their performance, ibid. art. nr 655
• [22] Cocuzza M. et al, Amorphous thin-films grown by plasma techniques for biological analysis, ibid. art. nr 656
• [23] Fridman G. et al, Use of Non-Thermal Atmospheric Pressure Plasma Discharge for Coagulation and Sterilization of Surface Wounds, ibid. art. nr 665
• [24] Gallagher M.J., Gutsol A., Friedman G., Fridman A., Non-Thermal Plasma Applications in Air-Sterilization, ibid. art. nr 729
• [25] Proceedings of 18th International Conference on Plasma Chemistry, Kyoto, (2007), CD-rom
• [26] Chih-Wei Chen, How-Ming Lee, Moo Been Chang, Shiaw-Huei Chen, Inactivation of Aquatic Microorganisms in Water by Pulsed Discharges, ibid. art. nr 94
• [27] Akitsu T., Ohkawa H., Ohhashi W., Murayama H., Katayama-Hirayama K., Experimental Comparison of Antibacterial Effect in Cold Plasmas at Normal Atmospheric pressure, ibid. art. nr 173
• [28] Iseki S., Aomatsu A., Ohta T., Ito M., Kano H., Higashijima Y., Hori M., Sterilization of Penicillium digitatum Using Non-equilibrium Atmospheric Pressure Plasma, ibid. art. nr 204
• [29] d’Agostino R. et al, Plasma Tuning of Surface Chemistry for Driving Cell Behavior, ibid. art. nr 261
• [30] Akishev Yu. et al, Atmospheric pressure non-thermal plasma sterilization of microorganisms in liquids and on the surfaces, ibid. art. nr 262
• [31] Vaze N.D. et al, Air Sterilization Using Non-Thermal Plasma, ibid. art. nr 320
• [32] Arjunan K.P., Vasilets V., Gutsol A., Anandan S., Cho Y., Fridman A., Water Sterilization Using a Pulsed Spark Plasma Discharge, ibid. art. nr 330
• [33] Vrajova J., Novotny O., Cech J., Krcma F., Stahel P., Plasma Based Removal of Microbial Contamination of Paper, ibid. art. nr 489
• [34] Fridman G. et al, Sterilization of Living Human and Animal Tissue by Non-Thermal Atmospheric Pressure Dielectric Barrier Discharge Plasma, ibid. art. nr 536
• [35] Kalghatgi S. et al, Mechanism of Blood Coagulation by Non-Equilibrium Atmospheric Pressure Dielectric Barrier Discharge Plasma, ibid paper No 614
• [36] Creyghton Y., Huijser T., Broekhuijsen M., Pulsed RF plasma sterilization of medical packaging, ibid. art. nr 769