وهي الأصغر حجمًا في فئتها
ويسمح الجهاز في التحكم في مستوى pH في مستنبتات الخلايا من خلال إضافة غازات CO2 أو N2 بشكل يخضع للسيطرة باستخدام جهاز تحكم مناسب.
2022:Fixed-Bed Column Studies: The beads were packed (bed height = 5 cm) into a glass-column with the internal diameter of 1.45 cm that was connected to a Lambda Hiflow peristaltic pump (Lambda Laboratory Instruments, Brno, Czech Republic) at the top end to ensure a 1 mL/min constant flow rate of the multicomponent solution.
Dinu, M.V.; Humelnicu, I.; Ghiorghita, C.A.; Humelnicu, D. Aminopolycarboxylic Acids-Functionalized Chitosan-Based Composite Cryogels as Valuable Heavy Metal Ions Sorbents: Fixed-Bed Column Studies and Theoretical Analysis. Gels 2022, 8, 221. https://doi.org/10.3390/gels8040221
2022: A fixed bed flowing system was used to test the performance of the prepared activated carbon (AC) samples. The laboratory set-up for the breakthrough experiments consisted of a LAMBDA (MULTIFLOW)peristaltic pump, a vertical dynamic fixed bed adsorption PTFE column with an inner diameter of 0.6 cm and height of 12.3 cm connected to an automatic sampling system.
Kyriaki Kakamouka, Chrystalla Gavriel, Eleni D. Salonikidou, Dimitrios A. Giannakoudakis, Margaritis Kostoglou, Konstantinos S. Triantafyllidis, Eleni A. Deliyanni. Dynamic/column tests for dibenzothiophene (DBT) removal using chemically functionalized carbons: Exploring the effect of physicochemical features and breakthrough modeling. Colloids and Surfaces A: Physicochemical and Engineering Aspects, Volume 642, 2022, 128597,ISSN 0927-7757. DOI: https://doi.org/10.1016/j.colsurfa.2022.128597
2022: The water was pumped from the water reservoir into the distributor vessel by a peristaltic pump (LAMBDA MAXIFLOW, LAMBDA CZ, s.r.o.). In the Scheme of the monolith measurement setup, the soil monolith is supplied with water via a capillary rainfall simulator connected toa water reservoir and a pump.
Ehrhardt, A., Berger, K., Filipović, V., Wöhling, T., Vogel, H. J., & Gerke, H. H. (2022). Tracing lateral subsurface flow in layered soils by undisturbed monolith sampling, targeted laboratory experiments, and model-based analysis. Vadose Zone Journal, 00, e20206. DOI: https://doi.org/10.1002/vzj2.20206
2021: Experimental Setup in the Continuous Fixed-Bed Catalytic System: The liquid flow of the phenol-containing solution was introduced through a PRECIFLOW peristaltic pump (LAMBDA Laboratory Instruments, Baar, Switzerland), through the lower inlet port on the side of the column.
Ferreiro, C.; de Luis, A.; Villota, N.; Lomas, J.M.; Lombraña, J.I.; Camarero, L.M. Application of a Combined Adsorption−Ozonation Process for Phenolic Wastewater Treatment in a Continuous Fixed-Bed Reactor. Catalysts 2021, 11, 1014. DOI: https://doi.org/10.3390/catal11081014
2020: Samples (5 mL) were extracted through a PES porous hollow fiber using the LAMBDA PRECIFLOW peristaltic pump in a suspension experiment.
Schroeder, H., Duester, L., Fabricius, A.-L., Ecker, D., Breitung,V. & Ternes, T. A. (2020). Sediment water (interface) mobility of metal(loid)s and nutrients under undisturbed conditions and during resuspension. Journal of Hazardous Materials, 19/03/2020. DOI: 10.1016/j.jhazmat.2020.122543
2020: For the production of recombinant cytochrome in a bioreactor, the feed was pumped through a PRECIFLOW peristaltic pump controlled by the process information management system and its addition was monitored gravimetrically.
Hausjell, J., Schendl, D., Weissensteiner, J., Molitor, C., Halbwirth, H. & Spadiut, O. (2020). Recombinant production of a hard-to-express membrane-bound cytochrome P450 in different yeasts—Comparison of physiology and productivity. Yeast. 2020; 37: 217– 226;DOI: 10.1002/yea.3441
2019: LAMBDA Peristaltic pumps were used with third-party bioreactors for precise pumping of liquids.
Hofer, A., Kroll, P. & Herwig, C. (2019). Automated sampling and on-line analytics to increase process understanding. Securecell AG, In der Luberzen 29, CH-8902 Urdorf, Switzerland and TU Wien, Gumpendorfer Strasse 1a, A-1060 Wien, Austria.DOI: 10.13140/RG.2.2.30419.63523
2019: The LAMBDA PRECIFLOW peristaltic pump fits the requirements for substrate feeding in shaking flasks. The pump can convey flow rates between 0.01 and 60 mL h-1.
Wagner, S.G., Mähler, C., Polte, I., von Poschinger, J., Löwe, H., Kremling, A, et al. (2019). An automated and parallelised DIY-dosing unit for individual and complex feeding profiles. Construction, validation and applications. PLoS ONE 14(6): e0217268.DOI: 10.1371/journal.pone.0217268
2019: The solution was collected in a new petri dish each minute, resulting in a total of eight samples. A Lambda Preciflow peristaltic pump in combination with transparent silicon tubing (inside ⌀ = 3 mm) was used to create a flow system.
Steendam, R. R. E. & Frawley, J. P. (2019). Secondary Nucleation of Sodium Chlorate: The Role of Initial Breeding. Crystal Growth & Design 2019 19 (6), 3453-3460.DOI: 10.1021/acs.cgd.9b00317
2018: In this novel method, namely centrifugeless dispersive liquid-liquid microextraction, is introduced for the efficient extraction of banned Sudan dyes from foodstuff and water samples...An LAMBDA CZ, s.r.o multi-flow peristaltic pump (LAMBDA, Switzerland) was applied for the phase separation.
Mohammad Bazregar, Maryam Rajabi, Yadollah Yamini, Somayeh Arghavani-Beydokhti, Alireza Asghari, Centrifugeless dispersive liquid-liquid microextraction based on salting-out phenomenon followed by high performance liquid chromatography for determination of Sudan dyes in different species. Food Chemistry, Volume 244, 2018, Pages 1-6,ISSN 0308-8146.DOI: https://doi.org/10.1016/j.foodchem.2017.10.006
2018: The best closed reactor was selected, and the flow and contact time operation parameters were optimized for two cycles.The flow was controlled by a MULTIFLOW peristaltic pump
García de Llasera, M.P., León Santiago, M., Loera Flores, E.J., Bernal Toris, D.N., & Covarrubias Herrera, M.R. (2018). Mini-bioreactors with immobilized microalgae for the removal of benzo(a)anthracene and benzo(a)pyrene from water. Ecological Engineering, Volume 121, 2018, Pages 89-98, ISSN 0925-8574. DOI: 10.1016/j.ecoleng.2017.06.059
2018: Feed, loop, bleed and harvest peristaltic pumps PRECIFLOW for continuous cultivation of extreme halophiles in customized pilot scale bioreactor
Mahler, N., Tschirren, S., Pflügl, S. & Herwig, CH. (2018). Optimized bioreactor setup for scale-up studies of extreme halophilic cultures. Biochemical Engineering Journal, Volume 130, 2018, Pages 39-46, ISSN 1369-703X. DOI: 10.1016/j.bej.2017.11.006
2016: Turbidostat composed of two PRECIFLOW peristaltic pumps with RS-232 interface for automated optogenetic regulation of protein production in liquid Escherichia coli cultures
Milias-Argeitis, A., Rullan, M., Aoki, S. et al. (2016). Automated optogenetic feedback control for precise and robust regulation of gene expression and cell growth. Nat Commun 7, 12546.DOI: 10.1038/ncomms12546
2016: Adaptive feeding strategy with real time signal (Lucullus) controlled feed rate of the PRECIFLOW pump in fed-batch process
Konakovsky, V., Clemens, C., Müller, M.M., Bechmann, J., Berger, M., Schlatter, S. & Herwig, C. (2016). Metabolic Control in Mammalian Fed-Batch Cell Cultures for Reduced Lactic Acid Accumulation and Improved Process Robustness. Bioengineering 2016, 3, 5. DOI: 10.3390/bioengineering3010005
2015: MULTIFLOW peristaltic pump was used to evaluate the extraction of lead(II), chromium(III) and copper(II) on a novel adsorbent
Barfi, B., Rajabi, M., Zadeh, M.M. & al. (2015). Extraction of ultra-traces of lead, chromium and copper using ruthenium nanoparticles loaded on activated carbon and modified with N,N-bis-(α-methylsalicylidene)-2,2-dimethylpropane-1,3-diamine. Microchim Acta 182, 1187–1196 (2015).DOI: 10.1007/s00604-014-1434-z
2014: Digital PRECIFLOW peristaltic pumps were used as feed pump, bleed pump and cell-free harvest pump to maximize the productivity of extreme halophilic archaeon in a bioreactor equipped with an external cell retention system
Lorantfy, B., Ruschitzka, P. & Herwig, C. (2014). Investigation of physiological limits and conditions for robust bioprocessing of an extreme halophilic archaeon using external cell retention system. Biochemical Engineering Journal, Volume 90, 2014, Pages 140-148, ISSN 1369-703X.DOI: 10.1016/j.bej.2014.06.004
2014: For DoE experiments 1.0 mol L-1 (NH4)2CO3 was utilized as the nitrogen source and the inflow was controlled gravimetrically at designated pump set-points by PRECIFLOW peristaltic pump
Bernacchi, S., Rittmann, S., Seifert, A. H., Krajete, A. & Herwig, C. (2014). Experimental methods for screening parameters influencing the growth to product yield (Y(x/CH4)) of a biological methane production (BMP) process performed with Methanothermobacter marburgensis. AIMS Bioengineering, 2014, 1(2): 72-87.DOI: 10.3934/bioeng.2014.2.72
2014: Feed flow rate was kept constant by controlling the speed of the PRECIFLOW peristaltic pump in continuous culture of Methanothermobacter marburgensis
Seifert, A.H., Rittmann, S. & Herwig, C. (2014). Analysis of process related factors to increase volumetric productivity and quality of biomethane with Methanothermobacter marburgensis. Applied Energy, Volume 132, 2014, Pages 155-162, ISSN 0306-2619.DOI: 10.1016/j.apenergy.2014.07.002
2014: MULTIFLOW peristaltic pump and a polytetrafluoroethylene (PTFE) column (25 mm x 7.0 mm i.d.) were used to study the suitability of hybrid SiO2/TiO2-NH2 nanoparticles for solid phase extraction of lead, copper, and zinc from different food and water samples
Rajabi, M., Barfi, B., Asghari, A. et al. (2015). Hybrid Amine-Functionalized Titania/Silica Nanoparticles for Solid-Phase Extraction of Lead, Copper, and Zinc from Food and Water Samples: Kinetics and Equilibrium Studies. Food Anal. Methods 8, 815–824 (2015).DOI: 10.1007/s12161-014-9964-x
2014: LAMBDA MULTIFLOW peristaltic pump used to examine the influence of eluent flow rate (1.0– 6.0 mL/min) in highly selective solid phase extraction
Rajabi, M., Mohammadi, B., Asghari, A., Barfi, B. & Behzad, M. (2014). Nano-alumina coated with SDS and modified with salicylaldehyde-5-sulfonate for extraction of heavy metals and their determination by anodic stripping voltammetry. Journal of Industrial and Engineering Chemistry, Volume 20, Issue 5, 2014, Pages 3737-3743, ISSN 1226-086X.DOI: 10.1016/j.jiec.2013.12.073
2014: The inﬂuent medium was pumped using PRECIFLOW pumps to the columns containing Dehalococcoides for PCE bioremediation
Lacroix, E., Brovelli, A., Maillard, J., Rohrbach-Brandt, E., Barry, D.A. & Holliger, C. (2014). Use of silicate minerals for long-term pH control during reductive dechlorination of high tetrachloroethene concentrations in continuous flow-through columns. Science of The Total Environment, Volumes 482–483, 2014, Pages 23-35, ISSN 0048-9697.DOI: 10.1016/j.scitotenv.2014.02.099
2014: LAMBDA MULTIFLOW Peristaltic Pump used to study the effect of ﬂow rate on the analytes retention in range of 1.0 - 6.0 ml/min and eluent ﬂow rate from 0.5 to 2.0 ml/min
2013: LAMBDA HIFLOW peristaltic pump with Tygon R-3603 tubing used to pump the porewater in each chamber to the surface and sampled under a high-flow Ar stream
Yuheng, W., Frutschi, M., Suvorova, E., Phrommavanh, V., Descostes, M., Osman, A. AA., Geipel, G. & Bernier-Latmani, R. (2013). Mobile uranium(IV)-bearing colloids in a mining-impacted wetland. Nat Commun 4, 2942 (2013).DOI: 10.1038/ncomms3942
2013: LAMBDA MULTIFLOW pumped the simulated waste water containing dissolved dye through the reactor with the immobilized TiO2 to study the degradation of textile dyes
Šíma, J. & Hasal, P. (2013). Photocatalytic Degradation of Textile Dyes in aTiO2/UV System. Chemical Engineering Transactions, 2013, 32, 79-84. Department of Chemical Engineering, Institute of Chemical Technology, Prague, Czech Republic.www.aidic.it/cet/13/32/014.pdf (31. Mai 2021)
2013: Feed Pump: Medium was continuously supplied to the bioreactor by PRECIFLOW peristaltic pump with controlled flow to obtain the desired dilution rate (D)
Martinez-Porqueras, E., Wechselberger, P. & Herwig, C. (2013). Effect of medium composition on biohydrogen production by the extreme thermophilic bacterium Caldicellulosiruptor saccharolyticus. International Journal of Hydrogen Energy, Volume 38, Issue 27, 2013, Pages 11756-11764, ISSN 0360-3199. DOI: 10.1016/j.ijhydene.2013.06.124
2013: Feed pump: In a continuous mode of culture, the medium was supplied by PRECIFLOW peristaltic pump operated on controlled set-points for designated dilution rates (D).
Martinez-Porqueras, E., Rittmann, S. & Herwig, C. (2013). Analysis of H2 to CO2 yield and physiological key parameters of Enterobacter aerogenes and Caldicellulosiruptor saccharolyticus. International Journal of Hydrogen Energy, Volume 38, Issue 25, 2013, Pages 10245-10251, ISSN 0360-3199. DOI: 10.1016/j.ijhydene.2013.06.021
2013: PRECIFLOW Peristaltic Pump was used to supply feed medium into the bioreactor and the feed flow rate was kept constant by controlling the pump speed to get a medium dilution rate (D) of 0.05 per hour (h-1)
Seifert, A.H., Rittmann, S., Bernacchi, S. & Herwig, C. (2013). Method for assessing the impact of emission gasses on physiology and productivity in biological methanogenesis. Bioresource Technology, Volume 136, 2013, Pages 747-751, ISSN 0960-8524. DOI: 10.1016/j.biortech.2013.03.119
2012: PRECIFLOW pump continuously supplied medium with controlled set-points for designated medium dilution rates of Methanothermobacter marburgensis grown in continuous cultures
Rittmann, S., Seifert, A. & Herwig, C. (2012). Quantitative analysis of media dilution rate effects on Methanothermobacter marburgensis grown in continuous culture on H2 and CO2. Biomass and Bioenergy, Volume 36, 2012, Pages 293-301, ISSN 0961-9534. DOI: 10.1016/j.biombioe.2011.10.038
2012: Ensure column saturation with upward flow by MULTIFLOW pumps
Maya, C. C., Younga, L., Worsfolda, P. J., Heath, S., Bryan, N. D. & Keith-Roacha, M. J. (2012). The effect of EDTA on the groundwater transport of thorium through sand. Water Res. 2012 Oct 1;46(15):4870-82. Epub 2012 Jun 28. PMID: 22796006.DOI: 10.1016/j.watres.2012.06.012
2011: Flexible polyethylene tube for PRECIFLOW feed pump used in the optimal growth of algae
Legendre, A. & Desmazieres, N. (2011). Device for Cultivating Algae and/or Microorganisms for Treating an Effluent and Biological Frontage. United States Patent Application 20110318819.patents.google.com/patent/EP2367926A2 (1. June 2021)
2011: LAMBDA Peristaltic pump was used to induce the milk flow into the Teflon chamber with stainless steel chips (at flow rate of 340 mL/h and 980 mL/h) to study Staphylococcus epidermidis adherence
Jaglic, Z., Cervinkova, D., Michu, E. et al. (2011). Effect of milk temperature and flow on the adherence of Staphylococcus epidermidis to stainless steel in amounts capable of biofilm formation. Dairy Science & Technol. 91, 361–372 (2011).DOI: 10.1007/s13594-011-0017-6
2010: LAMBDA PRECIFLOW peristaltic pump used as feed pump for glycerol during fermentation of E. coli and for producing chitin beads
Lavallaz, G. & Crelier, S. (2010). Purification de GFP avec et sans marqueur d'affinité. Diploma thesis, HES-SO Valais, Sion. https://doc.rero.ch/record/22518 (03. June 2021)
2009: Sample additions into the silica microbeads packed optically transparent silica capillary were performed using an RS485 LAMBDA Peristaltic Pump at a flow rate of 0.5 ml/ hour
Scarmagnani, S., Walsh, Z., Lopez, F. B., Slater, C., Macka, M., Paull, B. & Diamond, D. (2009). Photoswitchable Stationary Phase Based on Packed Spiropyran Functionalized Silica Microbeads. e-J. Surf. Sci. Nanotech. Vol. 7 (2009) 649-652. DOI: 10.1380/ejssnt.2009.649
2008: Two computer-controlled programmable LAMBDA HiFLOW peristaltic pumps were used for gradient generation for the purification of isolated human islets
Friberg, A.S., Ståhle, M., Brandhorst, H., Korsgren, O. & Brandhorst, D. (2008). Human islet purification utilizing a semi-closed automated pump system. Cell Transplant. 2008;17(12):1305-13. DOI: 10.3727/096368908787648100
2007: Injection of different samples using the Lambda MULTIFLOW peristaltic pumps
Stjernlöf, A. (2007). Portable capillary electrophoresis system with LED-absorbance photometric and LED-induced fluorescence detection. Thesis for the degree in Master of Science, Analytical Chemistry, performed at Dublin City University 2007. kau.diva-portal.org/smash/get/diva2:5248/FULLTEXT01.pdf (01. June 2021)
2007: Programmed MULTIFLOW feed pump to auto-regulate oxygen consumption and temperature
Vanags, J., Rychtera, M., Ferzik, S., Vishkins, M. & Viesturs, U. (2007). Oxygen and Temperature Control during the Cultivation of Microorganisms using Substrate Feeding. Engineering in Life Sciences, 2007, Volume 7, Issue 3, pages 247–252.DOI: 10.1002/elsc.200620184
2007: LAMBDA PRECIFLOW feed & harvest pumps for animal cell perfusion culture with spin-filter
Vallez-Chetreanu, F., Fraisse Ferreira, L.G., Rabe, R., von Stockar, U. & Marison, I.W. (2007). An on-line method for the reduction of fouling of spin-filters for animal cell perfusion cultures. Journal of Biotechnology, Volume 130, Issue 3, 2007, Pages 265-273, ISSN 0168-1656.DOI: 10.1016/j.jbiotec.2007.04.007
2006: LAMBDA PRECIFLOW peristaltic pumps were used to feed the medium into the reactor and withdrew the perfusate from the spin–filter to study the animal cell retention
Vallez-Chetreanu, F. (2006). Characterization of the mechanism of action of spin-filters for animal cell perfusion cultures. PhD diss. NO 3488, École Polytechnique Fédérale de Lausanne, Switzerland. https://infoscience.epfl.ch/record/78660/files/EPFL_TH3488.pdf (1. Juni 2021)
2003: PRECIFLOW peristaltic pump was used as a feed pump in fed-batch and continuous cultures to maintain a constant dilution rate (D) of yeast Saccharomyces cerevisiae
Stark, D., Zala, D., Münch, T., Sonnleitner, B., Marison, I.W. & von Stockar, U. (2003). Inhibition aspects of the bioconversion of l-phenylalanine to 2-phenylethanol by Saccharomyces cerevisiae. Enzyme and Microbial Technology, Volume 32, Issue 2, 2003, Pages 212-223, ISSN 0141-0229.DOI: 10.1016/S0141-0229(02)00237-5
2003: PRECIFLOW Peristaltic Pump was used as a feed pump for the production of 2-phenylethanol (PEA) by in situ product removal (ISPR) method
Stark, D., Kornmann, H., Munch, T., Sonnleitner, B., Marison, I. W. & von Stockar, U. (2003). Novel Type of In Situ Extraction: Use of Solvent Containing Microcapsules for the Bioconversion of 2-Phenylethanol from L-Phenylalanine by Saccharomyces cerevisiae. Biotechnol Bioeng. 2003 Aug 20; 83(4):376-85.DOI: 10.1002/bit.10679
1998: pH kept at 4 by the controlled addition of acid or base using a LAMBDA PRECIFLOW peristaltic pump to estimate the biomass production by pH control analysis
Vicente, A., Castrillo, J. I, Teixeira, J. A. & Ugalde, U. (1998). On-line estimation of biomass through pH control analysis in aerobic yeast fermentation systems. Biotechnol Bioeng. 1998 May 20; 58(4):445-50.DOI: 10.1002/%28SICI%291097-0290%2819980520%2958%3A4%3C445%3A%3AAID-BIT12%3E3.0.CO%3B2-A
1994: Feed pump: Concentrated nutrient solutions was fed by LAMBDA Peristaltic Pump for the production of Erythromycin from the strain Saccharopolyspora erythraea in fed-batch
Potvin, J. & Péringer, P. (1994). Ammonium regulation in Saccharopolyspora erythraea. Part II: Regulatory effects under different nutritional conditions. Biotechnol Lett 16, 69–74 (1994). DOI: 10.1007/BF01022626
1995: PRECIFLOW Peristaltic Pump was used to maintain constant pH for the accurate quantitative determination of net proton production or consumption in chemostat cultures of Candida utilis
Castrillo, J. I., De Miguel, I. & Ugalde, U. O. (1995). Proton Production and Consumption Pathways in Yeast Metabolism. A Chemostat Culture Analysis, Yeast Vol. 11: 1353-1365 (1995)DOI: 10.1002/yea.320111404
1993: pH was maintained at 3.5 (±0.01) by LAMBDA PRECIFLOW peristaltic pump in whey chemostat culture
Castrillo, J.I. & Ugalde, U.O. (1993). Patterns of energy metabolism and growth kinetics of Kluyveromyces marxianus in whey chemostat culture. Appl Microbiol Biotechnol 40, 386–393 (1993). DOI: 10.1007/BF00170398
What is the flow range?Depending on the pump you select, our pumps offer a range of flow rates from 0.2 µl/min to 60,000 ml/hour.
Is the flow reversible?
Yes. The desired flow could achieved either by clock-wise or anticlock-wise rotation.
Could you please provide me information about the precision of dosing of a Lambda peristaltic pump? Accuracy of the pumps is about ±1% and the reproducibility is ±0.2% (electronics). Speed of rotation of the pump motor is regulated with a precision of quartz watch, which in-turn assures a high precision of the flow rate.
How would I calibrate the flow rate in peristaltic pumps?The calibration of the pump flow rate with speed can be done to know the amount of the liquid pumped. It could be done in two ways: volumetric calibration of the peristaltic pump flow and pump flow calibration by weight. A short video of peristaltic pump flow calibration can be found at https://www.lambda-instruments.com/peristaltic-pumps/#video
Can I get multi-channel pumps?We do not manufacture multi-channel pumps. Because with the multi-channel pumps it is not possible to achieve the precise and reproducible flow rates with only one pump motor. For the high precision of flow rate, it is not advisable to use the multi-channel pumps.If one channel gets blocked then your whole project will get spoiled totally. Instead, we recommend having individual pumps.
Why do I need to use LAMBDA individual pumps over multi-channel pump?It has more advantages over the multi-channel pumps. The most important thing to take into account is the precise, reproducible and steady flow rate.If one channel gets blocked then your whole project will get spoiled totally.The bench space required for the needed channel equivalent to individual LAMBDA Pumps is same as that of a single multi-channel pump, because of the compact structure of the LAMBDA Pumps. The individual pumps can be used in other projects too.
Do you have pumps on stock?Yes, we have the pumps in stock. We maintain a large stock of instruments, in order to be able to quickly set them up in the desired configuration and to dispatch them in shortest possible time, within few days!