CFD SIMULATION OF A TRANSIENT ULTRAFILTRATION SYSTEM FOR CONCENTRATING BROMELAIN FROM PINEAPPLE WASTES

Duong et al.

Authors

  • Le Tan Duc Faculty of Chemical Engineering, Ho Chi Minh City University of Technology (HCMUT), 268 Ly Thuong Kiet Street, Ho Chi Minh City, Vietnam
  • Duong Hoang Phi Yen Vietnam National University Ho Chi Minh City (VNU-HCM), Linh Trung ward, Thu Duc District, Ho Chi Minh City, Viet Nam
  • Le Minh Tan Vietnam National University Ho Chi Minh City (VNU-HCM), Linh Trung ward, Thu Duc District, Ho Chi Minh City, Viet Nam
  • Hoang Long Faculty of Chemical Engineering, Ho Chi Minh City University of Technology (HCMUT), 268 Ly Thuong Kiet Street, Ho Chi Minh City, Vietnam
  • Tran Tan Viet Faculty of Chemical Engineering, Ho Chi Minh City University of Technology (HCMUT), 268 Ly Thuong Kiet Street, Ho Chi Minh City, Vietnam

DOI:

https://doi.org/10.11113/aej.v14.20873

Keywords:

bromelain, CFD, ultrafiltration, simulation, modeling

References

Ali, M.M., Hashim, N., Abd Aziz, S., Lasekan, O., 2020. Pineapple (Ananas comosus): A comprehensive review of nutritional values, volatile compounds, health benefits, and potential food products. Food Research International 137: 109675.

Samreen, C.V. V., Edukondalu, L., Beera, V., Rao, V.S., 2020. Physicochemical characteristics of pomegranate and pineapple juice. Indian Journal of Ecology 43: 60–3.

Kasa, T., Yohanis, F.G., 2017. Chemical composition and nutritional effect of pineapple, mango, banana, avocado and orange: A review article. Chemical and Process Engineering Research 54: 1–6.

Hossain, M.F., Akhtar, S., Anwar, M., 2015. Nutritional value and medicinal benefits of pineapple. International Journal of Nutrition and Food Sciences 4(1): 84–8.

Nor, M.Z.M., Ramchandran, L., Duke, M., Vasiljevic, T., 2015. Characteristic properties of crude pineapple waste extract for bromelain purification by membrane processing. Journal of Food Science and Technology 52(11): 7103–12.

Banerjee, S., Ranganathan, V., Patti, A., Arora, A., 2018. Valorisation of pineapple wastes for food and therapeutic applications. Trends in Food Science & Technology 82: 60–70.

Kumar, R., Kumar, R., Sharma, N., Khurana, N., Singh, S.K., Satija, S., et al., 2022. Pharmacological evaluation of bromelain in mouse model of Alzheimer’s disease. NeuroToxicology 90: 19–34.

Hale, L.P., Greer, P.K., Trinh, C.T., James, C.L., 2005. Proteinase activity and stability of natural bromelain preparations. International Immunopharmacology 5(4): 783–93.

Devakate, R. V., Patil, V. V., Waje, S.S., Thorat, B.N., 2009. Purification and drying of bromelain. Separation and Purification Technology 64(3): 259–64.

Mohan, R., Sivakumar, V., Rangasamy, T., Muralidharan, C., 2016. Optimisation of bromelain enzyme extraction from pineapple (Ananas comosus) and application in process industry. American Journal of Biochemistry and Biotechnology 12(3): 188–95.

Baidhe, E., Kigozi, J., Mukisa, I., Muyanja, C., Namubiru, L., Kitarikawe, B., 2021. Unearthing the potential of solid waste generated along the pineapple drying process line in Uganda: A review. Environmental Challenges 2: 100012.

Girard, B., Fukumoto, L.R., 2000. Membrane processing of fruit juices and beverages: a review. Critical Reviews in Food Science Nutrition 40(2): 91–157.

Hinkova, A., Bubnık, Z., Kadlec, P., Pridal, J., 2002. Potentials of separation membranes in the sugar industry. Separation and Purification Technology 26(1): 101–10.

Lipnizki, F., 2010. Membrane processes for the production of bulk fermentation products. Membrane Technology, 121–53. Elsevier

Bilici, Z., Keskinler, B., Dizge, N., 2020. Protein and lactose separation by modified ultrafiltration membrane using layer by layer technique. Journal of Membrane Science and Research 6(2): 211–7.

Lopes, F.L.G., Severo Júnior, J.B., Souza, R.R. de., Ehrhardt, D.D., Santana, J.C.C., Tambourgi, E.B., 2009. Concentration by membrane separation processes of a medicinal product obtained from pineapple pulp. Brazilian Archives of Biology and Technology 52: 457–64.

Nor, M.Z.M., Ramchandran, L., Duke, M., Vasiljevic, T., 2016. Separation of bromelain from crude pineapple waste mixture by a two-stage ceramic ultrafiltration process. Food and Bioproducts Processing 98: 142–50.

Doko, M.B., Bassani, V., Casadebaig, J., Cavailles, L., Jacob, M., 1991. Preparation of proteolytic enzyme extracts from Ananas comosus L., Merr. fruit juice using semipermeable membrane, ammonium sulfate extraction, centrifugation and freeze-drying processes. International Journal of Pharmaceutics 76(3): 199–206.

Haribabu, M., Dunstan, D.E., Martin, G.J.O., Davidson, M.R., Harvie, D.J.E., 2020. Simulating the ultrafiltration of whey proteins isolate using a mixture model. Journal of Membrane Science 613(May): 118388, Doi: 10.1016/j.memsci.2020.118388.

Marcos, B., Moresoli, C., Skorepova, J., Vaughan, B., 2009. CFD modeling of a transient hollow fiber ultrafiltration system for protein concentration. Journal of Membrane Science 337(1–2): 136–44, Doi: 10.1016/j.memsci.2009.03.036.

Angeli, S.D., Pilitsis, F.G., Lemonidou, A.A., 2015. Methane steam reforming at low temperature: Effect of light alkanes’ presence on coke formation. Catalysis Today 242: 119–28.

Duong, Y.H.P., Vo, N.T., Le, P.T.K., Tran, V.T., 2021. Three-Dimensional Simulation of Solar Greenhouse Dryer. Chemical Engineering Transactions 83: 211–6.

Abreu, D.C.A., Figueiredo, K.C. de S., 2019. Bromelain Separation and Purification. Brazilian Journal of Chemical Engineering 36(02): 1029–39.

Oliveira Neto, G.L., Oliveira, N.G.N., Delgado, J.M.P.Q., Nascimento, L.P.C., Magalhães, H.L.F., Oliveira, P.L. de., et al., 2021. Hydrodynamic and performance evaluation of a porous ceramic membrane module used on the water–oil separation process: An investigation by CFD. Membranes 11(2): 121.

Manual, U.D.F., 2009. Ansys Fluent 12.0. Theory Guide.

Kleinstreuer, C., Griffith, P., 2004. Two-Phase Flow: Theory and Applications. Applied Mechanics Reviews 57(4): B22.

Schiller, L., 1933. A drag coefficient correlation. Zeitschrift des Vereins Deutscher Ingenieure 77: 318–320.

Petkov, P., Tsiulyanu, D., Kulisch, W., Popov, C., 2015. Nanoscience advances in CBRN agents detection, information and energy security. Springer.

Chen, H., Tang, J., Liu, F., 2006. Coupled simulation of an electromagnetic heating process using the finite difference time domain method. Journal of Microwave Power and Electromagnetic Energy 41(3): 50–68.

Josijević, M.M., Šušteršič, V.M., Gordić, D.R., 2020. Ranking energy performance opportunities obtained with energy audit in dairies. Thermal Science 24(5 Part A): 2865–78.

Khairunnisa, F.A., Vedder, M., Evers, L., Permana, S., 2018. Bromelain content of extract from stem of pineapple (Ananas comosus (L.) Merr). AIP Conference Proceedings, 2019. AIP Publishing LLC p. 20014.

Campos, D.A., Coscueta, E.R., Valetti, N.W., Pastrana-Castro, L.M., Teixeira, J.A., Picó, G.A., et al., 2019. Optimization of bromelain isolation from pineapple byproducts by polysaccharide complex formation. Food Hydrocolloids 87: 792–804.

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Published

2024-08-31

Issue

Vol. 14 No. 3: September 2024

Section

Articles

How to Cite

CFD SIMULATION OF A TRANSIENT ULTRAFILTRATION SYSTEM FOR CONCENTRATING BROMELAIN FROM PINEAPPLE WASTES: Duong et al. (2024). ASEAN Engineering Journal, 14(3), 75-83. https://doi.org/10.11113/aej.v14.20873