Auswahl der wissenschaftlichen Literatur zum Thema „Laboratory/pilot-Scale fouling“
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Zeitschriftenartikel zum Thema "Laboratory/pilot-Scale fouling":
Sanciolo, Peter, Paul Monis, Justin Lewis, Greg Ryan, Andrew Salveson, Nicola Fontaine, Judy Blackbeard und Stephen Gray. „Effectiveness and Energy Requirements of Pasteurisation for the Treatment of Unfiltered Secondary Effluent from a Municipal Wastewater Treatment Plant“. Water 12, Nr. 8 (24.07.2020): 2100. http://dx.doi.org/10.3390/w12082100.
Itonaga, T., K. Kimura und Y. Watanabe. „Influence of suspension viscosity and colloidal particles on permeability of membrane used in membrane bioreactor (MBR)“. Water Science and Technology 50, Nr. 12 (01.12.2004): 301–9. http://dx.doi.org/10.2166/wst.2004.0727.
Álvarez, José R., F. Enrique Antón, Sonia Álvarez-García und Susana Luque. „Treatment of Aqueous Effluents from Steel Manufacturing with High Thiocyanate Concentration by Reverse Osmosis“. Membranes 10, Nr. 12 (18.12.2020): 437. http://dx.doi.org/10.3390/membranes10120437.
Cai, B. J., I. Baudin und H. Y. Ng. „A modified fouling index (MFI40) and fouling predicting approach for ultrafiltration of secondary effluents“. Journal of Water Reuse and Desalination 9, Nr. 1 (24.09.2018): 67–82. http://dx.doi.org/10.2166/wrd.2018.020.
Morales, Yair G., und Pia Lipp. „Deacidification through calcium carbonate dosing in combination with ultrafiltration“. Journal of Water Supply: Research and Technology-Aqua 70, Nr. 8 (22.11.2021): 1111–20. http://dx.doi.org/10.2166/aqua.2021.030.
Al-Zuhairi, Ahmed, Ali A. Merdaw, Sami Al-Aibi, Malak Hamdan, Peter Nicoll, Alireza Abbassi Monjezi, Saleh Al-ASwad, Hameed B. Mahood, Maryam Aryafar und Adel O. Sharif. „Forward osmosis desalination from laboratory to market“. Water Supply 15, Nr. 4 (30.03.2015): 834–44. http://dx.doi.org/10.2166/ws.2015.038.
Khaldi, Marwa, Gilles Ronse, Christophe André, Pascal Blanpain-Avet, Laurent Bouvier, Thierry Six, Saloua Bornaz, Thomas Croguennec, Romain Jeantet und Guillaume Delaplace. „Denaturation Kinetics of Whey Protein Isolate Solutions and Fouling Mass Distribution in a Plate Heat Exchanger“. International Journal of Chemical Engineering 2015 (2015): 1–10. http://dx.doi.org/10.1155/2015/139638.
Yin, Zhonglong, Cheng Yang, Chao Long und Aimin Li. „Effect of integrated pretreatment technologies on RO membrane fouling for treating textile secondary effluent: Laboratory and pilot-scale experiments“. Chemical Engineering Journal 332 (Januar 2018): 109–17. http://dx.doi.org/10.1016/j.cej.2017.09.059.
Tomczak, Wirginia, und Marek Gryta. „Long-Term Performance of Ultrafiltration Membranes: Corrosion Fouling Aspect“. Materials 16, Nr. 4 (16.02.2023): 1673. http://dx.doi.org/10.3390/ma16041673.
Lynggaard-Jensen, A., N. H. Eisum, I. Rasmussen, H. Svankjær Jacobsen und T. Stenstrøm. „Description and test of a new generation of nutrient sensors“. Water Science and Technology 33, Nr. 1 (01.01.1996): 25–35. http://dx.doi.org/10.2166/wst.1996.0003.
Dissertationen zum Thema "Laboratory/pilot-Scale fouling":
Liu, Weiji. „Rôle de la micelle de caséine sur la dénaturation thermique des solutions de protéines de lactosérum et les mécanismes d'encrassement“. Electronic Thesis or Diss., Université de Lille (2022-....), 2022. http://www.theses.fr/2022ULILR014.
The present work is a contribution to better understand the influence of casein micelles on the fouling of serum whey protein solutions. In particular, experimental and numerical approaches have been carried out, at laboratory and pilot scales, to describe denaturation phenomena and better understand the role of calcium in fouling mechanisms. First of all, the effect of casein/whey mass ratio on the whey protein fouling performance was investigated in a pilot-scale PHE. The total fouling deposit mass drop significantly with the addition of casein, resulting in a minimum value located at Casein/WPI of 0.2. Exceeding this critical ratio, fouling deposit increased with elevated casein concentrations. The deposit mass drop (Casein/WPI ≤ 0.2) is unlikely to be linked to the thermal denaturation of BLG and is more probably due to the change in mineral interactions introduced by casein. The increased fouling mass (Casein/WPI ≥ 0.2) was attributed to a co-precipitation of BLG-casein complex that enhances the fouling. It is proposed that micellar casein change deeply the calcium balance and the content of CaP nanocluster modifies sharply the interactions which occur between protein species (BLG, caseins) and mineral elements (ionic calcium, Ca-P) thereby affecting the protein denaturation and fouling behavior. A novel kinetic model concerning thermal unfolding and aggregation of BLG was established. This model interprets mathematically the break-slope behavior in the Arrhenius plot and provides detailed thermodynamic information for both unfolding and aggregation processes. Based on this model, it was confirmed that ionic calcium has a protective role on the thermal unfolding of BLG at low temperature. In contrast, at higher temperatures, calcium promotes aggregation and the formation of unfolded BLG species. A bench-scale fouling rig was built to perform whey protein fouling experiments in a laminar regime. A realistic 3D CFD model was achieved to simulate both the bulk and surface reactions. Results showed a linear relationship between the deposition pre-exponential factor and calcium concentration, suggesting the fouling is built in such a pattern that only one calcium ion per BLG molecule is involved. Calcium was confirmed to be essential to fouling growth with significant effects both on the thermal denaturation and deposition processes. Finally, the effect of casein/whey ratio on the whey protein fouling was investigated in the laboratory-scale fouling device. Results revealed a similar effect of casein on fouling mitigation as those found in the pilot plant. However, in this case, the fouling was suppressed and maintained at a low extent even at high Casein/WPI ratios (up to 4). The presence of individual caseins in the serum phase was considered to be responsible for this fouling mitigation probably through their chaperon-like activities. However, when the pH of the fouling solution is set at 6.6, casein is shown to lose its fouling-mitigating effect at higher ratios. This behavior is related to its weak ability of casein micelle to control ionic calcium in the serum phase at lower pH, resulting in higher calcium concentration facilitating BLG denaturation and deposition accumulation. A lower amount of dissociated caseins in the serum phase at pH 6.6 could also explain the increase in fouling mass because they are not in sufficient concentration to perform chaperone-like functions
Konferenzberichte zum Thema "Laboratory/pilot-Scale fouling":
Nakatsuka, Matthew, Basile Marco, Sumil Thapa, Alexander Ventura, Osvaldo Pascolini, Luca Pellicciotta und Vinod Veedu. „Decarbonization and Improved Energy Efficiency Using a Novel Nanocomposite Surface Treatment“. In Abu Dhabi International Petroleum Exhibition & Conference. SPE, 2021. http://dx.doi.org/10.2118/208080-ms.
Mozaffar, Houra, Tore Larsen, Chris Henderson, Salim Deshmukh, Ross Anderson, Mohsen Hoopanah, Bahman Tohidi, Emilie Abadie, Vanessa Richon und Mark Charlesworth. „Multiple Recovery and Re-Use of Commercial Kinetic Hydrate Inhibitors from Produced Water and Rich Glycol“. In International Petroleum Technology Conference. IPTC, 2022. http://dx.doi.org/10.2523/iptc-22399-ea.
Enestam, Sonja H., Marko K. Fabritius, Seppo K. Hulkkonen und Jukka T. Ro¨ppa¨nen. „Control of Ash-Related Operational Problems in BFB Combustion of Biofuels and Waste“. In 17th International Conference on Fluidized Bed Combustion. ASMEDC, 2003. http://dx.doi.org/10.1115/fbc2003-134.
Toma, Peter, Karl Miller und J. Mark A. Hoddenbagh. „Reducing the Deposition of Scale in the Evaporator of a Mechanical Vapour Recompression System for Concentration of Pulp Mill Effluents“. In ASME 2002 International Mechanical Engineering Congress and Exposition. ASMEDC, 2002. http://dx.doi.org/10.1115/imece2002-39599.
Saubryani, Nurania, Sutrisno Kaswan, Mark Gough und Rifky Akbar. „Improving Banyu Urip Acid Gas Removal Unit (AGRU) and Acid Gas Enrichment (AGE) System Performance and Reliability by Implementing an Effective Wetted Surface Air Cooler (WSAC) Chemical Treatment Program“. In SPE Annual Technical Conference and Exhibition. SPE, 2022. http://dx.doi.org/10.2118/210018-ms.