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Journal articles on the topic 'Hollow fibre'

Author: Grafiati
Published: 4 June 2021
Last updated: 19 February 2022

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1

Mu, Hai Bo, Gui Zeng Hao, Xiao Wei Li, and Bo Meng. "Preparation and Properties of Asymmetric Porous Aluminium-Oxide Ceramic Hollow Fibre Membranes." Key Engineering Materials 537 (January 2013): 87–91. http://dx.doi.org/10.4028/www.scientific.net/kem.537.87.

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Asymmetric porous aluminium-oxide ceramic hollow fibre membranes have been prepared by the phase inversion / sintering technique. The effect of non-solvent such as ethanol, isopropanol and ethylene glycol monomethylether(2-methoxyethanol) on the geometry and performance of hollow fibres was investigated. Morphologies of Al2O3 ceramic hollow fibre membranes were characterized using a scanning electron microscope (SEM). The effective porosity and the mechanical strength were determined by Archimedes method, and three point method, respectively. The prepared Al2O3 hollow fibre membranes show the asymmetric structure with a finger-like layer and a sponge-like layer. The effective porosity of the prepared hollow fibre membranes exceeds 47%, and the bending strength of the hollow membranes exceeds 63 MPa. The Al2O3 hollow fibre membranes with moderate permeation characteristics for gas and pure water are prepared by the introduction of nonsolvent in membrane casting solution. The separation factors of H2 to N2 or CO2 of the hollow fibers with nonsolvent are over 2.0.
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2

Horiuchi, Noriaki. "Hollow-core fibre." Nature Photonics 7, no. 8 (July 30, 2013): 584–85. http://dx.doi.org/10.1038/nphoton.2013.203.

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3

Hucker, Martyn, Ian Bond, Andrew Foreman, and Jennifer Hudd. "Optimisation of Hollow Glass Fibres and their Composites." Advanced Composites Letters 8, no. 4 (July 1999): 096369359900800. http://dx.doi.org/10.1177/096369359900800406.

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Hollow glass fibre reinforced plastics have a structural performance niche in a class of their own. They offer increased flexural rigidity compared to solid glass fibre reinforced plastics, they offset the need for thin sandwich construction which is both difficult and expensive, and they provide an opportunity to develop laminates with improved or tailored characteristics. An experimental hollow glass fibre manufacturing facility is in operation at the University of Bristol. The facility is capable of drawing precision hollow glass fibres of various diameters with varying degrees of hollowness under precise parameter control. Hollow borosilicate glass fibres have been manufactured from tubular preforms with a variety of internal and external diameters, which correspond to a range of hollowness values. In all cases, the resulting hollowness was reduced from that present in the preform state, regardless of drawing rate or furnace temperature. In fact, temperature has been demonstrated to be of paramount importance in controlling fibre hollowness due to the interaction between glass viscosity and surface tension effects. These results suggest that for a given temperature and draw rate there is a single condition where fibre hollowness is maximised and external diameter minimised.
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4

Lim, Keng, Hui An, Peng Wang, Guiqin Liu, and Simon Yu. "Theoretical and Computational Analysis on Double-End Submerged Hollow Fibre Membrane Modules." Energies 11, no. 5 (April 24, 2018): 1042. http://dx.doi.org/10.3390/en11051042.

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This paper studies the potential increase in permeate output flow rate that submerged hollow fibres can achieve when operating in double-end suction. The flow dynamics of submerged hollow fibre membranes with different combinations of fibre inner diameter, membrane thickness, and membrane permeability were numerically simulated. Fibre features (fibre inner diameter, membrane thickness, and membrane permeability) are then characterised for their effects on the increment in permeate flow rate due to change in configuration. Concurrently, an analytical model of a fibre in double-end suction is modelled. Analysis on the double-end fibre model has indicated that the fibre characteristic ratio, λ, has a direct influence on the relative increase in output flow rate when both ends are open. Parametric investigations on the three fibre features have shown that their effects on relative output increase agree with the co-relations indicated by λ. For fibres with λ less than 4, a proportional relationship between a fibre’s λ value and the percentage increment in permeate flow rate is observed when adopting double-end suction. The fibre characteristic ratio, λ, in addition to characterising flux uniformity, can further be used to consider the effectiveness of applying double-end suction in Submerged Hollow Fibre Membrane Module (SHFMM) systems at the design stage.
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5

Wicaksana, F., A. G. Fan, and V. Chen. "The relationship between critical flux and fibre movement induced by bubbling in a submerged hollow fibre system." Water Science and Technology 51, no. 6-7 (March 1, 2005): 115–22. http://dx.doi.org/10.2166/wst.2005.0629.

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Bubbling has been used to enhance various processes. In this paper we deal with the effect of bubbling on submerged hollow fibre membranes, where bubbling is applied to prevent severe membrane fouling. Previous work with submerged hollow fibres has observed that significant fibre movement can be induced by bubbling and that there is a qualitative relationship between fibre movement and filtration performance. Therefore, the aim of the present research has been to analyse the link between bubbling, fibre movement and critical flux, identified as the flux at which the transmembrane pressure (TMP) starts to rise. Tests were performed on vertical isolated fibres with a model feed of yeast suspension. The fibres were subject to steady bubbling from below. The parameters of interest were the fibre characteristics, such as tightness, diameter and length, as well as feed concentration. The results confirmed that the critical fluxes are affected by the fibre characteristics and feed concentration. Higher critical flux values can be achieved by using loose fibres, smaller diameters and longer fibres. The enhancement is partially linked to fibre movement and this is confirmed by improved performance when fibres are subject to mechanical movement in the absence of bubbling.
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6

Chen, X. D., G. M. Ai, and J. J. J. Chen. "Modelling Hollow-Fibre Ultrafiltration." Developments in Chemical Engineering and Mineral Processing 13, no. 1-2 (May 15, 2008): 109–19. http://dx.doi.org/10.1002/apj.5500130111.

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7

Kling, Sándor, and Tibor Czigány. "Analysis of Applicability of the Hollow Carbon Fibres for Self-Repairing Composites." Materials Science Forum 729 (November 2012): 246–51. http://dx.doi.org/10.4028/www.scientific.net/msf.729.246.

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The geometry and mechanical properties of solid and hollow carbon fibres were investigated by light-and scanning electron microscopy, and by single fibre tensile tests. The hollowness factor of fibres was determined by their external and internal diameter. The tensile strength was determined by single fibre tensile break tests. It was shown that the bigger the diameter of the fibres the lower the mechanical properties is. It was found that the hollow carbon fibres are suitable for preparation of a self-repairing composite with the advantage over other solutions because of their geometrical and mechanical properties.
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8

Han, De Zhi, Xiao Yao Tan, Zi Feng Yan, and Shao Min Liu. "Enhanced Oxygen Permeation of Pt-Modified La0.6Sr0.4Co0.2Fe0.8O3-α Hollow Fibre Membranes." Advanced Materials Research 550-553 (July 2012): 630–33. http://dx.doi.org/10.4028/www.scientific.net/amr.550-553.630.

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Perovskite La0.6Sr0.4Co0.2Fe0.8O3-α(LSCF) hollow fibre membranes were fabricated by a combined phase inversion and sintering technique. The prepared membrane possessed a novel structure consisting of only one thin dense layer and one porous layer. A porous layer of platinum was coated on the outer surface of the hollow fibres to improve the surface exchange reactions. Oxygen permeation fluxes through both the original and modified hollow fibre membranes were measured under air/He gradients at different temperature. The results indicated that the oxygen permeation fluxes can be improved from the initial values of 0.17-1.58 ml cm-2min-1in the original hollow fibre membrane to 0.29-3.99 ml cm-2min-1in the Pt-modified membrane in the temperature range of 750-950 °C. An oxygen spillover mechanism has been put forward to explain the effect of Pt on the improvement of oxygen permeation fluxes.
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9

Abd Rahman, Norashidah, Siti Amirah Azra Khairuddin, Norwati Jamaluddin, and Zainorizuan Mohd Jaini. "Strength of Reinforced Fibrous Foamed Concrete-Filled Hollow Section." Materials Science Forum 936 (October 2018): 219–23. http://dx.doi.org/10.4028/www.scientific.net/msf.936.219.

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At present, research on concrete-filled sections extends to using lightweight concrete to reduce the total weight of such structures. However, research on concrete-filled hollow sections (CFHS) using foamed concrete remains ongoing. Therefore, this study was conducted to determine the strength of reinforced fibrous foamed CFHSs. Two types of fibre, namely, steel and polypropylene fibres, were used. A short-column specimen was prepared and tested under compression load. Result shows that adding steel fibre to foamed concrete indicates a higher strength than adding polypropylene fibre. The strength of the CFHS is increased by adding reinforced bar and fibre in foamed concrete.
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10

Abd Aziz, Mohd Haiqal, Mohd Hafiz Dzarfan Othman, Ahmad Fauzi Ismail, Mukhlis Abdul Rahman, Juhana Jaafar, Siti Khadijah Hubadillah, and Tai Zhong Cheng. "Fabrication of low-cost ceramic hollow fiber membranes from aluminium dross waste for water purification." Malaysian Journal of Fundamental and Applied Sciences 15, no. 4 (August 25, 2019): 483–88. http://dx.doi.org/10.11113/mjfas.v15n4.1210.

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In this study, alumina-spinel composite hollow fibre membranes were fabricated from abundantly available aluminium dross waste, which can be commonly obtained from aluminium-producing factory. The hollow fibre membranes were successfully fabricated by using a combine phase inversion method and sintering technique. The effects of sintering temperatures on morphology, mechanical strength, and permeability of the hollow fibre membranes were systematically investigated. X-ray fluorescence (XRF) was used to analyze the composition of the aluminium dross waste, while x-ray diffraction analysis (XRD) were further studied to characterize the major crystalline phase of the sintered hollow fibre membranes. An increase in sintering temperatures resulted in densification of hollow fibre membrane, consequently induced the flux reduction. The presence of spinel in microstructural of hollow fibre assisted in decreasing the sintering temperature. As comparison to pure alumina membrane counterparts, this alternative ceramic hollow fibre membrane exhibited a comparable mechanical strength of 78.3-155.1 MPa with lower sintering temperatures ranging from 1350 ˚C to 1400 ˚C at ceramic loading of 40%.
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11

Poletti, Francesco, Marco N. Petrovich, and David J. Richardson. "Hollow-core photonic bandgap fibers: technology and applications." Nanophotonics 2, no. 5-6 (December 16, 2013): 315–40. http://dx.doi.org/10.1515/nanoph-2013-0042.

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AbstractSince the early conceptual and practical demonstrations in the late 1990s, Hollow-Core Photonic Band Gap Fibres (HC-PBGFs) have attracted huge interest by virtue of their promise to deliver a unique range of optical properties that are simply not possible in conventional fibre types. HC-PBGFs have the potential to overcome some of the fundamental limitations of solid fibres promising, for example, reduced transmission loss, lower nonlinearity, higher damage thresholds and lower latency, amongst others. They also provide a unique medium for a range of light: matter interactions of various forms, particularly for gaseous media. In this paper we review the current status of the field, including the latest developments in the understanding of the basic guidance mechanisms in these fibres and the unique properties they can exhibit. We also review the latest advances in terms of fibre fabrication and characterisation, before describing some of the most important applications of the technology, focusing in particular on their use in gas-based fibre optics and in optical communications.
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12

Khoddami, Akbar, Mohammad I. Soleimani, and Hugh Gong. "Effects of finishing on the mechanical and thermal properties of fabrics from wool and hollow polyester fibres." Textile Research Journal 81, no. 19 (November 2011): 2006–16. http://dx.doi.org/10.1177/0040517511407381.

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The effects of finishing steps on hollow and solid polyester/wool have been studied in order to establish the processing behaviour and performance characteristics of fabrics from these fibres. The effect of hollow fibres on fabric tensile strength, pilling, and crease recovery were studied. In addition, the water vapour permeability, air permeability, thermal properties and fabric handle were investigated. The results show that finishing has no adverse effects on fabric strength. By using hollow fibres in the fabrics, the extent of pilling was reduced. Among the different steps of finishing, scouring has the most significant effect on fabric hand due mainly to the large reduction in both bending, and shear rigidity and hysteresis. The results on crease recovery, water vapour permeability and air permeability revealed that the fabric properties are more affected by the fabric structure than the type of polyester fibre. In addition, while the hollow fibre fabrics always have lower thermal conductivity than similar fabrics with solid polyester fibres, their thermal properties are greatly affected by the dyeing process.
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13

Campione, Giuseppe, Sidney Mindess, Nunzio Scibilia, and Gaetano Zingone. "Strength of hollow circular steel sections filled with fibre-reinforced concrete." Canadian Journal of Civil Engineering 27, no. 2 (April 1, 2000): 364–72. http://dx.doi.org/10.1139/l99-079.

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The strength of hollow circular steel sections filled with normal-strength plain concrete and fibre-reinforced concrete (FRC) was evaluated. First, the case of centrally loaded composite members was considered and the bearing capacity of the columns was calculated using the methods proposed by a European code (EC4) and an American code (LRDF). Some expressions in these codes were validated for the case of FRC by adapting experimental data to introduce the mechanical properties of the FRC. To do this, experimental results of standard tests on FRC (compression and splitting tension) were used as well as data on circular steel columns filled with 2% FRC by volume with different types of fibres (steel, polyolefin). Second, the moment - axial force diagrams for composite members, taking into account the residual tensile strength of FRC, were calculated, showing the advantages of using FRC compared with plain concrete for filling hollow steel sections.Key words: fibre-reinforced concrete, hollow steel columns, composite members, steel fibres, polyolefin fibres.
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14

Kilgus, Mirjam, Haihui Wang, Steffen Werth, Jürgen Caro, and Thomas Schiestel. "Dense perovskite hollow fibre membranes." Desalination 199, no. 1-3 (November 2006): 355–56. http://dx.doi.org/10.1016/j.desal.2006.03.218.

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15

Kostrov, Yu A., G. B. Mostovaya, T. I. Ignatenko, A. Ya Ardashnikov, and B. Ya Khutorskii. "Graviton hollow gas-separating fibre." Fibre Chemistry 18, no. 6 (1987): 479–81. http://dx.doi.org/10.1007/bf00549422.

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16

Trask, R. S., G. J. Williams, and I. P. Bond. "Bioinspired self-healing of advanced composite structures using hollow glass fibres." Journal of The Royal Society Interface 4, no. 13 (December 19, 2006): 363–71. http://dx.doi.org/10.1098/rsif.2006.0194.

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Self-healing is receiving an increasing amount of worldwide interest as a method to autonomously address damage in materials. The incorporation of a self-healing capability within fibre-reinforced polymers has been investigated by a number of workers previously. The use of functional repair components stored inside hollow glass fibres (HGF) is one such bioinspired approach being considered. This paper considers the placement of self-healing HGF plies within both glass fibre/epoxy and carbon fibre/epoxy laminates to mitigate damage occurrence and restore mechanical strength. The study investigates the effect of embedded HGF on the host laminates mechanical properties and also the healing efficiency of the laminates after they were subjected to quasi-static impact damage. The results of flexural testing have shown that a significant fraction of flexural strength can be restored by the self-repairing effect of a healing resin stored within hollow fibres.
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17

Magalhães, Flávia, Eduardo Ferreira, Lidiane Bessa, Costa Dias, Adeodato Vieira, and Miria Reis. "Fabrication of kaolin hollow fibre membranes for bacteria removal." Processing and Application of Ceramics 14, no. 4 (2020): 303–13. http://dx.doi.org/10.2298/pac2004303m.

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This study examines the influence of the particle size, extrusion rate and sintering temperature on the characteristics of kaolin hollow fibre membranes. In addition, the produced membranes were applied for bacteria removal from an aqueous suspension. The milling process reduced the size of kaolin particles from 8.7 to 5.1 ?m and greatly enhanced the morphology and mechanical resistance of the produced membranes. The increase in the sintering temperature up to 1250?C caused crystallographic phase modifications in the crude kaolin, which were mainly assigned to transformations of quartz and kaolinite to mullite and cristobalite phases. The fibres sintered at 1250?C have bending strength of 145MPa, but this relatively high sintering temperature caused a substantial particle densification and drastic decrease of the membrane water permeability. The kaolin hollow fibre membranes enabled almost total removal of the Enterobacter bacteria from an aqueous suspension.
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18

Magalhães, Flávia, Eduardo Ferreira, Lidiane Bessa, Costa Dias, Adeodato Vieira, and Miria Reis. "Fabrication of kaolin hollow fibre membranes for bacteria removal." Processing and Application of Ceramics 14, no. 4 (2020): 303–13. http://dx.doi.org/10.2298/pac2004303m.

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This study examines the influence of the particle size, extrusion rate and sintering temperature on the characteristics of kaolin hollow fibre membranes. In addition, the produced membranes were applied for bacteria removal from an aqueous suspension. The milling process reduced the size of kaolin particles from 8.7 to 5.1 ?m and greatly enhanced the morphology and mechanical resistance of the produced membranes. The increase in the sintering temperature up to 1250?C caused crystallographic phase modifications in the crude kaolin, which were mainly assigned to transformations of quartz and kaolinite to mullite and cristobalite phases. The fibres sintered at 1250?C have bending strength of 145MPa, but this relatively high sintering temperature caused a substantial particle densification and drastic decrease of the membrane water permeability. The kaolin hollow fibre membranes enabled almost total removal of the Enterobacter bacteria from an aqueous suspension.
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19

Prajapati, Pradeep K., Ankit M. Kansara, and Puyam S. Singh. "Preparation and characterization of an oxygen permselective polydimethylsiloxane hollow fibre membrane." RSC Advances 6, no. 92 (2016): 88943–53. http://dx.doi.org/10.1039/c6ra19533d.

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Simple preparation of a polydimethylsiloxane (PDMS) hollow fibre air separation membrane by a condensation reaction between the hydroxyl-end groups and hydride groups of polysiloxane reactants over a porous hollow fibre support.
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20

Bentchikou, Mohamed, Salah Hanini, Kamel Silhadi, and Amor Guidoum. "Élaboration et étude d'un mortier composite à matrice minérale et fibres cellulosiques : application à l'isolation thermique en bâtiment." Canadian Journal of Civil Engineering 34, no. 1 (January 1, 2007): 37–45. http://dx.doi.org/10.1139/l06-149.

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This paper presents an experimental study of the effect of adding recycled cellulose fibres on physical, thermal, and mechanical properties of lightweight concrete composites. Results show an important decrease of density and thermal conductivity with an increase of fibre content. Compression and flexural strength decreased with fibre content, but remained within the standard range for hollow non-load-bearing concrete masonry (ASTM C109/C 109-95) for the maximum fibre content (15%).Key words: mortar composite, mineral matrix, cellulose fibre, thermal conductivity, mechanical strengths.
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21

McSharry, James J., and George L. Drusano. "Antiviral Pharmacodynamics in Hollow Fibre Bioreactors." Antiviral Chemistry and Chemotherapy 21, no. 5 (June 2011): 183–92. http://dx.doi.org/10.3851/imp1770.

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22

"Hollow fibre modules made with hollow fibre fabric." Membrane Technology 1993, no. 38 (June 1993): 2–3. http://dx.doi.org/10.1016/0958-2118(93)90102-r.

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23

"Mechanical Properties of Concrete and Hollow Concrete Blocks Containing Steel and Nylon Fibres." International Journal of Engineering and Advanced Technology 8, no. 6 (August 30, 2019): 3162–68. http://dx.doi.org/10.35940/ijeat.f9267.088619.

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An attempt has been made in this paper to study the effect on the mechanical properties of the concrete and hollow concrete block when different types of fibres were added to the mix. The two different types of fibres added include Steel fibres with hooked end and of length 60mm at five different fibre ratios of 2.5%, 2.75%, 3.0%, 3.25% and 3.5% and Nylon fibres having a length of 18mm at the content of 0.5%, 0.75%, 1.0%, 1.25% and 1.50%. The concept of fibre hybridization was also analyzed and the effect was studied by preparing concrete mix with various percentage combinations of steel and nylon fibres at a total fibre ratio of 3% by weight of cement. The investigation focused on finding the optimum values of fibres to be added and also carried out the compressive strength and tensile strength of concrete with and without fibres. The compressive strength of hollow concrete blocks made with and without fibres was also analyzed. The samples of concrete and hollow concrete blocks were cast and immersed in water for a curing period of 28 days. The results on strength of fibre added concrete and hollow concrete block obtained was compared with the control mix result and the study concludes that the steel fibre and nylon fibre added concrete and hollow concrete block showed an improvement in the mechanical properties for each fibre ratio considered. Out of the various combinations of steel and nylon fibre tried, the best compressive strength improvement was exhibited by the concrete mix with 3% of the steel fibre without any addition of nylon fibres while the best tensile strength improvement was shown by the concrete mix with 2.25% of steel fibre and 0.75% of nylon fibre.
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24

"Hollow-fibre membrane." Membrane Technology 1999, no. 115 (November 1999): 13. http://dx.doi.org/10.1016/s0958-2118(00)80011-7.

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25

"Hollow-fibre membranes." Membrane Technology 1995, no. 62 (June 1995): 9. http://dx.doi.org/10.1016/s0958-2118(00)89149-1.

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26

"Hollow fibre bundle." Membrane Technology 1995, no. 63 (July 1995): 11. http://dx.doi.org/10.1016/s0958-2118(00)89160-0.

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27

"Hollow fibre membranes." Membrane Technology 2003, no. 2 (February 2003): 13. http://dx.doi.org/10.1016/s0958-2118(03)02032-9.

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28

"Hollow fibre modules." Membrane Technology 1994, no. 48 (April 1994): 11. http://dx.doi.org/10.1016/0958-2118(94)90272-0.

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29

"Grafted hollow fibre." Membrane Technology 1991, no. 9 (January 1991): 4. http://dx.doi.org/10.1016/0958-2118(91)90024-o.

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30

"Hollow fibre module." Membrane Technology 1993, no. 44 (December 1993): 10. http://dx.doi.org/10.1016/0958-2118(93)90168-l.

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31

"Sure fire success for hollow fibre ceramic." Membrane Technology 1996, no. 74 (June 1996): 2. http://dx.doi.org/10.1016/s0958-2118(96)90001-4.

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32

"Hollow fibre leak detector." Membrane Technology 1997, no. 86 (June 1997): 14. http://dx.doi.org/10.1016/s0958-2118(97)90064-1.

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33

"Hollow fibre gas permeator." Membrane Technology 1998, no. 99 (July 1998): 13. http://dx.doi.org/10.1016/s0958-2118(98)90526-2.

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34

"Carbon hollow fibre membrane." Membrane Technology 1998, no. 104 (December 1998): 1. http://dx.doi.org/10.1016/s0958-2118(98)90537-7.

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35

"Composite hollow fibre membrane." Membrane Technology 1999, no. 110 (June 1999): 12. http://dx.doi.org/10.1016/s0958-2118(00)80076-2.

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36

"Spinning hollow fibre membranes." Membrane Technology 1999, no. 108 (April 1999): 13. http://dx.doi.org/10.1016/s0958-2118(00)80120-2.

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37

"Embedded hollow fibre membranes." Membrane Technology 1999, no. 106 (February 1999): 14. http://dx.doi.org/10.1016/s0958-2118(00)80150-0.

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38

"Composite hollow-fibre membrane." Membrane Technology 2000, no. 117 (January 2000): 14. http://dx.doi.org/10.1016/s0958-2118(00)86642-2.

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39

"Hollow fibre membrane production." Membrane Technology 1998, no. 102 (October 1998): 14. http://dx.doi.org/10.1016/s0958-2118(00)87494-7.

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40

"Hollow-fibre filter system." Membrane Technology 2000, no. 118 (February 2000): 12–13. http://dx.doi.org/10.1016/s0958-2118(00)87572-2.

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41

"Pressure-resistant hollow fibre." Membrane Technology 1996, no. 69 (January 1996): 11. http://dx.doi.org/10.1016/s0958-2118(00)88704-2.

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42

"Hollow carbon fibre membranes." Membrane Technology 1996, no. 70 (February 1996): 11. http://dx.doi.org/10.1016/s0958-2118(00)88712-1.

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43

"Hollow fibre membrane cleaning." Membrane Technology 1996, no. 78 (October 1996): 10. http://dx.doi.org/10.1016/s0958-2118(00)88775-3.

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44

"Hollow fibre membrane module." Membrane Technology 1995, no. 66 (October 1995): 10. http://dx.doi.org/10.1016/s0958-2118(00)89178-8.

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45

"Hollow fibre membrane manufacture." Membrane Technology 1997, no. 91 (November 1997): 14. http://dx.doi.org/10.1016/s0958-2118(00)89249-6.

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46

"Hollow-fibre membrane bioreactors." Membrane Technology 2000, no. 118 (February 2000): 14. http://dx.doi.org/10.1016/s0958-2118(00)90420-8.

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47

"Hollow-fibre membrane contactors." Membrane Technology 2000, no. 119 (March 2000): 14. http://dx.doi.org/10.1016/s0958-2118(00)90575-5.

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48

"Hollow-fibre membrane bioreactor." Membrane Technology 2000, no. 124 (August 2000): 16. http://dx.doi.org/10.1016/s0958-2118(00)90598-6.

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49

"Hollow-fibre membrane devices." Membrane Technology 2001, no. 132 (April 2001): 8. http://dx.doi.org/10.1016/s0958-2118(01)80174-9.

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50

"Hollow-fibre membrane process." Filtration & Separation 36, no. 8 (October 1999): 34. http://dx.doi.org/10.1016/s0015-1882(99)80245-6.

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