[1] Krucinska I.The influence of technological parameters on the filtration efficiency Ⅰ of electret needled non-woven fabrics[J].Journal of Electrostatics,2002,56(2):143-153.
[2] 夏钟福.驻极体[M].北京:科学出版社,2001,2-3.
[3] 郝建民.基于驻极体静电吸附大气细颗粒物的应用研究[D].西安:西安电子科技大学,2015.
[4] Kesteman V N,Pinchuk L S,Goldade V A.Electrets in engineering[M].Boston:Kluwer Academic Publishers,2000,68.
[5] Tanthapanichakoon W,Maneeintr K,Charinpanitkul T.Estimation of collection eciency enhancement factor for an electret fiber with dust load[J].J Aerosol Science,2003,34:1505-1522.
[6] Ciach T,Gradon L.Highly efficient filtering materials[J].J Aerosol Science,1993,27:613-614.
[7] Saelim W,Tanthapanichakoon W,Kanaoka C.Correlation for the efficiency enhancement factor of a single eletret fiber[J].J Aerosol Science,2006,37:228-240.
[8] 杨荆泉,田涛.驻极体过滤材料及其在空气净化领域的应用[J].环境与健康杂志,2009,26(8):743-745.
[9] 陈乐端.驻极体过滤器过滤特性的数值研究[D].马鞍山:安徽工业大学,2010.
[10] Ando K,Kondo G.Influence of back discharge on inner electret properties of non-woven fabric[J].Journal of Polymer Science and Technology,1995,52(11):723-728.
[11] Nifuku M,Zhou Y,Kisel A K,et al.Charging chracteristics for electret filter material[J].Journal of Electrostatics,2001,51-52(5):200-205.
[12] Herman P K,Lehmann M J,Velu Y K.Predicting initial pressure drop of fibrous filter media typical models and recent improvements[J].Journal of Textile And Apparel,Technology And Management,2006,5(2):1-15.
[13] Cox C L,Brown P J,Larzelere J C.Simulation of C-CP fiber-based air filtration[J].Journal of Engineered Fibers and Fabric,2008,3(2):1-6.
[14] Faessel M,Delisee C,Bos F,et al.3D modelling of random cellulosic fibrous networks based on X-ray tomography and image analysis[J].Composites Science and Technology,2005,65(13):1931-1940.
[15] Dhaniyals S,Liu B Y H.An asymmetrica,three-dimensional model for fibrous filters[J].Aerosol Science and Technology,1999,30(4):333-348.
[16] Schladitz K,Peters S,Reinel-Bitzer D,et al.Design of acoustic trim based geometric modeling and flow simulation for non-woven[J].Computational Materials Science,2006,38(1):56-66.
[17] Latz A,Wiegmann A.Simulation of fluid particle separation in realistic three dimensional fiber structures[J].Filtech Europa,2003,1(12):353-361.
[18] Happel J.Viscous flow relative to arrays of cylinders[J].American Institute of Chemical Engineers,1959,5(2):174-177.
[19] Kuwabara S.The forces experienced by randomly distributed parallel circular cylinders of spheres in a viscous flow at small Reynolds number[J].Journal of the Physical Society of Japan,1959,14(4):527-532.
[20] Davies C N.Air filtration[M].London:Academic Press,1973,243-245.
[21] Hinds W C.Aerosol technology:properties,behavior and measurement of airborne particles,2nd edition[M].New York:Wiley,1999,621-623.
[22] Steffens J,Coury J R.Collection efficiency of fiber filters operating on the removal of nano-sized aerosol particles[J].Separation and Purification Technology,2007,58(12):106-112.
[23] Balazy A,Podgorski A.Deposition efficiency of fractal-like aggregates in fibrous filters calculated using Brownian dynamics method[J].Journal of Colloid and Interface Science,2007,31(2):323-337.
[24] Langmuir I.Report on smokes and filters[J].Office of scientific Research and Development,1942,Section Ⅰ:394-436.
[25] Chen C Y.Filtration of aerosols by fibrous media[J].Chemical Reviews,1955,55(3):595-623.
[26] 蔡杰.空气过滤器ABC[M].北京:中国建筑工业出版社,2002:134-135.
[27] Stechkina I B,Kirsch A A,Funchs N A.Studies on fibrous aerosol filters.Ⅵ.calculation of diffusional deposition of aerosols in model filters in range of maximum penetration[J].Annals of Occupational Hygiene,1969,12(1):1-8.
[28] Brown R C.Air filtration[M].New York:Pergamon,1993,426-427.
[29] Kanaoka C,Hiragi S,Tanthapanichakoon W.Stochastic simulation of the agglomerative deposition process of aerosol particles on an electret filber[J].Powder Technology,2001,118(1-2):97-106.
[30] Baumgartner H P,Loffler F.The collection performance of electret filters in the particle-size range 10nm~10μm[J].Journal of Aerosol Science,1986,17(3):438-445.
[31] Chen C C,Huang S H.The effect of particle charge on the performance of a filtering face-piece[J].American Industrial Hygiene Journal,1998,59(4):227-233.
[32] Lee M,Otani Y,Namiki N,et al.Prediction of collection efficiency of high performance electret filters[J].Journal of Chemical Engineering of Japan,2002,33(1):87-62.
[33] Walsh D C,Stenhouse J I T.The effect of particle size,charge and composition on the loading characteristics of an electrically active fibrous filter material[J].Journal of Aerosol Science,1997,28(2):307-321.
[34] Walsh D C,Stenhouse J I T.Parameters affecting the loading behavior and degradation of electrically active filter material[J].Journal of Aerosol Science,1998,29(5):419-432.
[35] Tanthapanichakoon W,Maneeintr K,Charinpanitkul W,et al.Estimation of collection efficiency enhancement factor for an eletret fiber with dust load[J].Journal of Aerosol Science,2003,34(11):1505-1522.
[36] 夏钟福.聚合物驻极体气体和空气过滤材料在环境净化工程中的应用与进展[J].材料导报,2001,15(8):57-58.
[37] 张建春,郝新敏,周国泰,等.驻极超微细纤维高效过滤材料SARS防护口罩的研究[J].西安工程科技学院学报,2003,17(3):212-217.