References

1. S. Wunderlich, W. Back, In: V.R. Preedy, Ed., Beer in Health and Disease Prevention, Academic Press, Cambridge, 2008, pp. 3–16.
2. V.N. Okafor, A.N. Eboatu, R.I. Anyalebechi, U.W. Okafor, Comparative studies of the physicochemical properties of beers brewed with hop extracts and extracts from four selected tropical plants, J. Adv. Chem. Sci., 2 (2016) 382–386.
3. L. Fillaudeau, P. Blanpain-Avet, G. Daufin, Water, wastewater and waste management in brewing industries, J. Clean. Prod., 14 (2006) 463–471.
4. G. Daufin, J.-P. Escudier, H. Carrère, S. Bérot, L. Fillaudeau, M. Decloux, Recent and emerging applications of membrane processes in the food and dairy industry, Food Bioprod. Process. Trans. Inst. Chem. Eng. Part C, 79 (2001) 89–102.
5. A. Ambrosi, N.S.M. Cardozo, I.C. Tessaro, Membrane separation processes for the beer industry: a review and state of the art, Food Bioprocess Technol., 7 (2014) 921–936.
6. M.A. Kazemi, M. Soltanieh, M. Yazdanshenas, L. Fillaudeau, Influence of crossflow microfiltration on ceramic membrane fouling and beer quality, Desali Water Treat., 51 (2013) 4302–4312.
7. Y. Sun, Z. Qin, L. Zhao, Q. Chen, Q. Hou, H. Lin, L. Jiang, J. Liu, Z. Du, Membrane fouling mechanisms and permeate flux decline model in soy sauce microfiltration, J. Food Process Eng., 41 (2018) e12599.
8. H. Azizi Namaghi, S.M. Mousavi, Factorial experimental design for treatment of an industrial wastewater using micellarenhanced ultrafiltration, Desal. Water Treat., 57 (2016) 5416–5424.
9. S. Banvolgyi, K.S. Bahceci, G. Vatai, S. Bekassy, E. Bekassy- Molnar, Partial dealcoholization of red wine by nanofiltration and its effect on anthocyanin and resveratrol levels, Food Sci. Technol. Int., 22 (2016) 677–687.
10. L. Hamdi, L. Boumehdi Toumi, Z. Salem, K. Allia, Full factorial experimental design applied to methylene blue adsorption onto Alfa stems, Desal. Water Treat., 57 (2016) 6098–6105.
11. Pentair - Beer Membrane Filtration System - Beverage Filtration Solutions | Pentair Food and Beverage Process Solutions. Available at: https://foodandbeverage.pentair.com/en/products/ beverage-filtration-solutions-bmf-18
12. Y.-L. Elaine Fung, H. Wang, Investigation of reinforcement of porous alumina by nickel aluminate spinel for its use as ceramic membrane, J. Membr. Sci., 444 (2013) 252–258.
13. N. Das, H.S. Maiti, Formatation of pore structure in tape-cast alumina membranes – effects of binder content and firing temperature, J. Membr. Sci., 140 (1998) 205–212.
14. Y.-J. Kim, J. Jung, S. Lee, J. Sohn, Modeling fouling of hollow fiber membrane using response surface methodology, Desal. Water Treat., 54 (2015) 966–972.
15. K.A. Leiper, R. Duszanskyj, G.G. Stewart, Premixing of isinglass and silica gel to obtain improved beer stability, J. Inst. Brew., 108 (2002) 28–31.
16. E.I. Benítez, M.R. Acquisgrana, N.M. Peruchena, G.L. Sosa, J.E. Lozano, Effects of silica gel on reduction in gluten during several beer brewing stages, Int. J. Food Sci. Technol., 51 (2016) 920–928.
17. D.S. Ryder, J. Power, In: F.G. Priest, G.G Stewart, Eds., Handbook of Brewing, CRC Press, Boca Raton, FL, 2006, pp. 333–382.
18. Beer Judge Certification Program 2015 Style Guidelines. Available at: http://bjcp.org/docs/2015_Guidelines_Beer.pdf
19. P. Blanpain-Avet, J.F. Migdal, T. Bénézech, The effect of multiple fouling and cleaning cycles on a tubular ceramic microfiltration membrane fouled with a whey protein concentrate. Membrane performance and cleaning efficiency, Food Bioprod. Process., 82 (2004) 231–243.
20. I.H. Huisman, B. Dutré, K.M. Persson, G. Trägårdh, Water permeability in ultrafiltration and microfiltration: viscous and electroviscous effects, Desalination, 113 (1997) 95–103.
21. Á. Varga, I. Gáspár, R. Juhász, M. Ladányi, B. Hegyes-Vecseri, Z. Kókai, E. Márki, Beer microfiltration with static turbulence promoter: sum of ranking differences comparison, J. Food Process Eng., 42 (2018) e12941.
22. Analytica EBC | Beer | 9.8 - Bitterness of Beer (IM). Available at: https://brewup.eu/ebc-analytica/beer/bitterness-of-beer-im/9.8
23. Analytica EBC | Beer | 9.6 - Colour of Beer: Spectrophotometric Method (IM). Available at: https://brewup.eu/ebc-analytica/ beer/colour-of-beer-spectrophotometric-method-im/9.6.
24. A. Cimini, M. Moresi, Beer clarification using ceramic tubular membranes, Food Bioprocess Technol., 7 (2014) 2694–2710.
25. Rheoplus/32 v.3.40, Anton-Paar, Austria, 2008.
26. T.G. Mezger, The Rheology Handbook, Vincentz Network, Hannover, 2006, pp. 57.
27. I. Gáspár, A. Koris, Z. Bertalan, G. Vatai, Comparison of ceramic capillary membrane and ceramic tubular membrane with inserted static mixer, Chem. Pap., 65 (2011) 596–602.
28. Á. Varga, E. Márki, Microfiltration: a novel technology for removal of trub from hopped wort, J. Food Process Eng., 42 (2019) e13200.
29. I. Ben Hassan, M. Ennouri, C. Lafforgue, P. Schmitz, A. Ayadi, Experimental study of membrane fouling during crossflow microfiltration of yeast and bacteria suspensions: towards an analysis at the microscopic level, Membranes, 3 (2013) 44–68.
30. SPSS Statistics 25.0, IBM, USA, 2017.
31. B.G. Tabachnick, L.S. Fidell, Using Multivariate Statistics, Pearson, London, 2013, p. 79.
32. S. Kemény, Design and Analysis of Experiments (in Hungarian), Tankönyvkiadó Vállalat, Budapest, 1985, pp. 137–142.
33. B. Akcal Comoglu, C. Filik Iscen, S. Ilhan, The anaerobic treatment of pharmaceutical industry wastewater in an anaerobic batch and upflow packed-bed reactor, Desalin. Water Treat., 57 (2016) 6278–6289.
34. Statistica 12.0, StatSoft, USA, 2012.
35. R Core Team, R-3.5.1, R Foundation for Statistical Computing, Vienna, Austria, 2018.
36. U. Groemping, J. Fox, RcmdrPlugin.DoE 0.12-3, R Foundation for Statistical Computing, Vienna, Austria, 2014.
37. RStudio Team, RStudio 1.2.1335, Integrated Development for R. RStudio, Inc, Boston, MA, USA, 2015.
38. Global optimization (in Hungarian). Available at: http://math. bme.hu/~tuzcsaba/doc/globopt_hun.pdf
39. Grid Search in MATLAB. Available at: https://www.andriiparkhomenko. net/files/Grid%20Search%20in%20Matlab.pdf
40. Scilab 6.0.1, ESI Group, Paris, France, 2018.
41. A. Cimini, M. Moresi, Assessment of the optimal operating conditions for pale lager clarification using novel ceramic hollow-fiber membranes, J. Food Eng., 173 (2016) 132–142.
42. A. Cimini, M. Moresi, Novel cold sterilization and stabilization process applied to a pale lager, J. Food Eng., 145 (2015) 1–9.
43. A. Cimini, O. Marconi, G. Perretti, M. Moresi, Novel procedure for lager beer clarification and stabilization using sequential enzymatic, centrifugal, regenerable PVPP and crossflow microfiltration processing, Food Bioprocess Technol., 7 (2014) 3156–3165.
44. V. Popescu, A. Soceanu, S. Dobrinas, G. Stanciu, A study of beer bitterness loss during the various stages of the Romanian beer production process, J. Inst. Brew., 119 (2013) 111–115.
45. A. Fărcaş, M. Tofana, S. Socaci, S. Scrob, L.-C. Salanta, B. Andrei, preliminary study on antioxidant activity and polyphenols content in discharged waste from beer production, J. Agroaliment. Process. Technol., 19 (2013) 319–324.
46. J. Stopka, Š. Schlosser, Z. Dömény, D. Šmogrovičová, Flux decline in microfiltration of beer and related solutions of model foulants through ceramic membranes, Pol. J. Environ. Stud., 9 (2000) 65–69.
47. H. Kaneda, M. Takashio, T. Tamaki, T. Osawa, Influence of pH on flavour staling during beer storage, J. Inst. Brew., 103 (1997) 21–23.
48. HI-847492-02 Haze Meter for Beer Quality Analysis - Turbidity – Parameters. Available at: https://www.hannainstruments.co.uk/asbc-standard-haze-meter-for-beer-analysis.html#specifications
49. L. Severa, J. Los, On the influence of temperature on dynamic viscosity of dark beer, Acta Univ. Agric. Silvic. Mendelianae Brun., 56 (2008) 303–307.
50. D. Jeison, Anaerobic Membrane Bioreactors for Wastewater Treatment: Feasibility and Potential Applications, Wageningen University, Wageningen, Netherlands, 2007.
51. S. Robinson, S.Z. Abdullah, P. Berube, P. Le-Clech, Ageing of membranes for water treatment: linking changes to performance, J. Membr. Sci., 503 (2016) 177–187.