Научная тема: «ПОВЕДЕНИЕ АЭРОЗОЛЬНЫХ ЧАСТИЦ В ВОЛОКНИСТЫХ СРЕДАХ»
Специальность: 02.00.04
Год: 2008
Основные научные положения, сформулированные автором на основании проведенных исследований:
  1. Новый метод улавливания аэрозольных частиц орошаемыми фильтрами с различными гигроскопическими свойствами (теоретическое обоснование и аппаратурное оформление), позволяющий приводить фильтрацию частиц с широким диапазоном параметров, включая вязкие частицы блокирующие традиционные фильтры.
  2. Новый метод комплексного улавливания аэрозольных и газовых загрязнителей воздуха на пористых материалах погружённых в жидкую среду, включая его теоретическое обоснование и аппаратурное оформление.
  3. Теоретическое обоснование и разработка нового метода мониторинга живых биоаэрозольных частиц (аппаратурное оформление и протокол измерений), включая быстрое обнаружение патогенных микроорганизмов с использованием комбинации с мини-ПЦР.
Список опубликованных работ
Agranovski, I. and Braddock, R. 1998. Filtration of mists on wettable fibrous filters.

AJChE Journal. 44: 2775-2783. Agranovski, I. and Braddock, R. 1998. Filtration of mists on nonwettable fibrous

filters. AJChE Journal. 44: 2784-2791. Agranovski, I., Myojo, T. and Braddock, R. 1998. Bubble filtering through porous

media. J. Aerosol. Sci. 29: S1075. Agranovski, I., Braddock, R., Crozier, S., Whittaker, A., Minty, S. and Myojo, T.

1999. Magnetic resonance imaging of gas flows in wet porous filters involved in

aerosol removal processes. J. Aerosol Sci. 30: S543. Agranovski, I., Myojo, T. and Braddock, R. 1999. Removal of ultra-small particles

by bubbling. Aerosol Sci. Techn. 31: 249-257. Agranovski, I., Braddock, R and Kristensen, N. 2000. Model for the flow of air

through the wet fibre. J. Aerosol Sci. 31: S688. Agranovski, I. and Whitcombe, J. 2000. Optimisation of Venturi scrubber for the

removal of aerosol particles. J. Aerosol Sci. 31: S164. Agranovski, I. and Whitcombe, J. 2000. Utilisation of wet fibrous media for

filtration of sticky aerosol particles. J. Aerosol Sci. 31: S204. Agranovski, I. 2000. New technique for monitoring of aerosol mass concentration.

J. Aerosol Sci. 31: S783. Agranovski, I., Braddock, R., Kristensen, N., Crozier, S., and Myojo, T. 2000.

Study of the gas flow in porous media in liquid layer. J. Aerosol Sci. 31: S454. Agranovski, I., Myojo, T. and Braddock, R. 2001. Comparative study of the

performance of nine filters utilized in filtration of aerosols by bubbling. Aerosol

Sci. Tech. 35, 852-859. Agranovski, I., Braddock, R., Jarvis, D. and Myojo, T. 2001. Combined

Wettable/Nonwettable Filter for Mist Purification. Chem. Eng. Tech. 24(3):

287-292. Agranovski, I. and Shapiro, M. 2001. Clogging of Wet Filters by Dust Particles.

J.Aerosol Sci. 32: 1009 – 1020. Agranovski, I. and Shapiro, M. 2001. Clogging of Wet Filters as a Result of

Drying. Chem. Eng. Tech. 24 (4): 387 - 391. Agranovski, I., Agranovski, V., Grinshpun, S., Reponen, T. and Willeke, K. 2001.

New Personal Sampler for Airborne Microorganisms. J.Aerosol Sci. 32: S341. Agranovski, I. and Whitcombe, J. 2001. Case Study on the Practical Use of

Wettable Filters in the Removal of Sub-Micron Particles. Chem. Eng. Tech. 24

(5): 513-517. Agranovski, I. and Shapiro. M. 2001. Removal of Solid Aerosol Particles on

Irrigated Filters. J.Aerosol Sci. 32: S1071. Agranovski, I., Braddock, R., Kristensen, N., Crozier, S. and Myojo, T. 2001.

Model for gas-liquid flow through wet porous medium. Chem. Eng. Tech. 24

(11): 1151-1155. Agranovski, I., Agranovski, V., Grinshpun, S., Reponen, T. and Willeke, K. 2001.

New Method for Collection Viable Airborne Microorganisms. J. Aerosol Sci.

32: S343

Mullins, B., Braddock, R. and Agranovski, I. 2002. Modelling of NOx emission

from oil refinery furnaces. Env. Mod. Asses. 7 (1): 1-7 Agranovski, I. and Whitcombe, J. 2002. Study of emission rates from fluidised

catalytic cracker during start up operations. Oil & Gas Techn. 57(6): 665 - 670. Agranovski, I., Agranovski, V. Grinshpun, S., Reponen, T. and Willeke, K. 2002.

Development and Evaluation of a New Personal Sampler for Viable Airborne

Microorganisms. Atmos. Environ. 36(5): 889-898. Agranovski, I., Agranovski, V. Grinshpun, S., Reponen, T. and Willeke, K. 2002.

Collection of Airborne Microorganisms into Liquid by Bubbling Through

Porous Medium. Aerosol Sci. Tech. 36: 502 - 509. Agranovski, I., Braddock, R. and Myojo, T. 2002. Removal of Aerosols by

Bubbling through Porous Media Submerged in Organic Liquid. Chem. Eng. Sci.

57: 3141 – 3147. Agranovski, I., Braddock, R., Jarvis, D. and Myojo, T. 2002. Inclined Wettable

Filter for Mist Purification. Chem. Eng. Journal. 89: 229 – 238. Whitcombe, J., Agranovski, I. and Braddock, R. 2002. Impact of Metal Ridging on

the Fluidization Characteristics of FCC Catalyst. Chem. Eng. Tech. 25: 981-987 Agranovski, I., Braddock, R., Crozier, S., Whittaker, A., Minty, S. and Myojo, T.

2003.Study of multiphase flow in submersed porous materials. Separ. Purif.

Technol. 30: 129-137.

Whitcombe, J., Cropp, R., Braddock, R. and Agranovski, I. 2003. Application of

Sensitivity Analysis to Oil Refinery Emissions. Reliability Eng. & Sys. Safety.

79: 219-224. Whitcombe, J., Agranovski, I. and Braddock, R. 2003. Production of Fine particles

and Aerosols from FCC Catalyst due to Thermal Shock. Powder Tech. 137(3):

120-130. Mullins, B., Agranovski, I. and Braddock, R. 2003. Particle Bounce During

Filtration of Particles on Wet and Dry Filters. Aerosol Sci. Tech. 37: 587 - 600. Altman, I., Pikhitsa, P., Choi, M., Song, H., Agranovski, I., Bostrom, T. and Jeong,

J. 2003. Line Spectra from Doped Nanooxide: a New Design for Nanooptics.

Appl. Phys Letters, 83: 3689 – 3691. Agranovski, I., Safatov, A., Borodulin, A., Petrishchenko, V., Pyankov, O.,

Sergeev, A., Agafonov, A., Ignatiev, G., Sergeev, A.A. and Agranovski, V.

2004.Natural Decay of Viruses in Bubbling Processes Utilized for Personal

Bioaerosol Monitoring. Appl. Env. Microbiology, 70: 6963 – 6967.

Mullins, B., Braddock, R. and Agranovski, I. 2004. Particle Capture Processes and

Evaporation on Microscopic Scale in Wet Filters. Coll. Int. Sci. 279: 213 – 227. Whitcombe, J., Agranovski, I., Braddock, R., Gandola, F. and Hammond, A. 2004.

Catalyst Attrition and Fracture due to Thermal Shock in Fluidized Catalytic

Cracker Units. Chem. Eng. Comm. 191: 1259 - 1274. Agranovski, I., Moustafa, S. and Braddock, R. 2004. Comparative Performance of

Fixed and Fluidized Activated Carbon Beds on Removal of Organic Vapors

from Air Carrier. Chem. Eng. Tech. 27: 784 - 789. Agranovski, I., Safatov, A., Pyankov, O., Sergeev, A., Agafonov, A., Ignatiev, G.,

Ryabchikova, E., Borodulin, A., Sergeev, A.A., Doerr, H, Rubenau, F. and Agranovski, V. 2004. Monitoring of Viable Airborne SARS Virus. Atm. Envir.

38: 3879 - 3884. Altman, I., Agranovski, I. and Choi, M. 2004. On nanoparticle surface growth:

MgO nanoparticle formation during a Mg particle combustion. Appl. Phys

Letters. 84(25): 5130 - 5132. Mullins, B., Agranovski, I., Braddock, R., Chi, M. 2004. Effect of Fibre

Orientation on Fibre Wetting Processes. Colloid Int. Sci. 269: 449 – 458. И.Е. Аграновский, А.Н. Сергеев, О.В. Пьянков, В.А. Петрищенко, А.П.

Агафонов, Г.М. Игнатьев, А.И. Бородулин, А.С. Сафатов. 2004.

Tестирование нового персонального пробоотборника для обнаружения

жизнеспособных вирусов в аэрозоле. Опт. Атм. и Океана 17: 483 – 487. Altman, I., Agranovski, I. and Choi, M. 2004. Nanoparticle Generation: New

Concept of Stagnation Size Region for Condensation Growth. Phys. Rev. E. 70

(6): Art. No. 062603 Altman, I., Jang, Y., Agranovski, I. and Choi, M. 2004. Stabilization of Ferrite

Structure during Synthesis of Iron Nanooxides. J. Nanopart. Res. 6: 633 - 637. Whitcombe, J., Agranovski, I. and Braddock, R. 2004. Categorization of

Particulate Emissions from a Fluidized Catalytic Cracker Units. Part. Syst.

Charact. 21: 463 -472. Agranovski, I., Moustafa, S. and Braddock, R. 2005. Performance of Activated

Carbon Loaded Fibrous Filters on Simultaneous Removal of Particulate and

Gaseous Pollutants. Envir. Techn. 26(7): 757 – 766. B. Mullins, R. Braddock, Agranovski, I., R.Cropp and R. O’Leary. 2005.

Observation and Modelling of Clamshell Droplets on Vertical Fibres Subjected

to Gravitational and Drag Forces. Colloid Int. Sci. 284: 245 - 254. Altman, I., Agranovski, I. and Choi, M. 2005. On Mechanism of Nanoparticle

Agglomeration during Combustion Synthesis. Appl. Phys Letters, 87: 053104. Agranovski, I., Safatov, A., Pyankov, O., Sergeev, A., Sergeev, A. and Grinshpun,

S. 2005. Long-term Personal Sampling of Viable Airborne Viruses. Aerosol Sci.

Tech. 39: 912–918. Agranovski, I., Pyankov, O. and Altman, I. 2005. Bioaerosol Contamination of

Ambient Air as the Result of Opening Envelopes Containing Microbial

Materials. Aerosol Sci. Tech. 39: 1048–1055. Agranovski, I., Safatov, A., Borodulin, A., Pyankov, O., Petrishchenko, V.,

Sergeev, A., Sergeev, A.A., Grinshpun, S. and Agranovski, V. 2005. New

Personal Sampler for Viable Airborne Viruses: Feasibility Study. J. Aerosol

Sci. (invited paper for the special Bioaerosol issue of the journal). 36: 609-617. Iluyshechkin, A., Agranovski, I., Altman, I., Rasha, N. and Choi, M. 2005.

Distribution of MgO nanoparticles in Bi-2212/Ag tapes and their effect on the

superconducting properties. Supercond. Sci. Tech. 18: 1123-1128. Boskovic, L., Altman, I., Agranovski, I., Braddock, R., Myojo, T., and Choi, M.

2005. Influence of nanoparticle shape on filtration process. Aerosol Sci. Tech.

39: 1184–1190.

Agranovski, I., Huang, R., Pyankov, O., Altman, I. and Grinshpun, S. 2006.

Enhancement of the performance of low-efficiency HVAC filters due to

continuous unipolar emission. Aerosol Sci. Tech.40: 963-968. Agranovski, I., Safatov, A., Sergeev, A.A., Pyankov, O., Petrishchenko, V.,

Mikheev, M. and Sergeev, A.N. 2006. Rapid detection of airborne viruses by

bioaerosol sampler combined with PCR device. Atmos. Envir. 40: 3924 – 3929. Whitcombe, J., Cropp, R., Braddock, R. and Agranovski, I. 2006. The use of

sensitivity analysis and generic algorithm for the management of catalyst

emission from oil refineries. Math. Comp. Modeling. 44: 430 - 438. Mullins,B., R. Braddock, Agranovski, I., R.Cropp. 2006. Observation and

Modelling of Barrel Droplets on Vertical Fibres Subjected to Gravitational and

Drag Forces. Colloid Int. Sci. 300: 704-712. Borodulin, A., B. Desyatkov, N. Lapteva, A. Sergeev and I. Agranovski. 2006.

Personal Sampler for monitoring of viable viruses; Modelling of Outdoor

Sampling Conditions. Atmos. Envir. 40: 6687-6695. Agranovski, I. 2006. Personal Sampler for Viable Airborne Microorganisms;

Review of the Main Development Stages. CLEAN – Soil, Air, Water. (in press). Бородулин А., Десятков, Б., Лаптева, Н., Аграновский,И. 2007. Оценка

эффективности нового персонального пробоотборника. Сиб. Журнал

Пром. Прикл. Математики. 1(29): 43 - 51 И.Е. Аграновский, А.С. Сафатов, О.В. Пьянков, А.А. Сергеев, А.Н. Сергеев.

2007 Долговременный пробоотбор аэрозолей жизнеспособных вирусов.

Оптика Атмосферы и Океана 20(11): 1033- 1037. Pyankov, O., Agranovski, I., Pyankova, O., Mokhonova, E., Mokhonov, V.,

Safatov, A. and Khromykh, A. 2007. Using Bioaerosol Personal Sampler in

Combination with Real-time PCR Analysis for Rapid Detection of Airborne

Viruses; Feasibility Study. Envir. Microbiology. 9: 992 – 1000 Shlychkov, V., Borodulin, A., Desyatkov, B. and Agranovski. I. 2007. Personal

Sampler for monitoring of viable viruses; Modelling of Indoor Sampling

Conditions. Aerosol Sci. Tech. 41: 169 - 178. Boskovic, L., Agranovski, I., and Braddock, R. 2007. Filtration of nanoparticles

with different shape on oil coated fibres. J. Aerosol Sci. 38(12): 1220 - 1229. Agranovski, I. 2007. Personal Sampler for Viable Airborne Microorganisms;

Review of the Main Development Stages. CLEAN – Soil, Air, Water. 35: 111 -

117. Бородулин А., Десятков, Б., Лаптева, Н., Аграновский,И. 2007. Оценка

способности нового персонального биоаэрозольного пробоотборника для

мониторинга живых вирусных частиц в открытом воздухе. Оптика

Атмосферы и Океана. 6: 544-549. Agranovski, I., Huang, R., Pyankov, O., Altman, I. and Grinshpun, S. 2008.

Unipolar ion emission in the vicinity of low efficient HVAC filter as a method

to enhance its performance against viable airborne particles. Indoor Air. 18: 118

- 124.