The Latest Innovations in Wheat Flour Milling: A Review

Abo-Dief, M., Abo-Bakr, T., Youssef, M., Moustafa, A. (2022). Physicochemical and rheological properties of Australian and Russian wheat flour mill streams. Cereal Chemistry, 99(2), 421-431. Search in Google Scholar

Abo-Dief, M., Abo-Bakr, T., Youssef, M., Moustafa, A. (2019). Quality of wheat flour and pan bread as influenced by the tempering time and milling system. Cereal Chemistry, 96(3), 429-438. Search in Google Scholar

Alfin, F. (2019). Controlling wheat milling operation- break release. Miller Magazine, 13(115), 84-90. Search in Google Scholar

Alfin, F. (2020). Wheat Conditioning and Tempering. Miller Magazine, 132(14), 58–60. Search in Google Scholar

Barroso Lopes, R., Salman Posner, E., Alberti, A., Mottin Demiate, I. (2022). Pre milling debranning of wheat with a commercial system to improve flour quality. Journal of Food Science and Technology, 59(10), 3881-3887. Search in Google Scholar

Bożek, K.S., Żuk-Gołaszewska, K., Bojarczuk, J., Gołaszewski, J. (2022). The effect of different nitrogen fertilizer rates, sowing density, and plant growth regulator application on the quality and milling value of Triticum durum Desf. grain. Agronomy, 12(7), 1622. Search in Google Scholar

Caporaso, N., Whitworth, M.B., Fisk, I.D. (2018). Protein content prediction in single wheat kernels using hyperspectral imaging. Food Chemistry, 240, 32-42. Search in Google Scholar

Cappelli, A., Cini, E. (2021). Challenges and opportunities in wheat flour, pasta, bread, and bakery product production chains: A systematic review of innovations and improvement strategies to increase sustainability, productivity, and product quality. Sustainability, 13(5), 1-16. Search in Google Scholar

Cappelli, A., Mugnaini, M., Cini, E. (2020a). Improving roller milling technology using the break, sizing, and reduction systems for flour differentiation. LWT - Food Science and Technology, 133(11), 110067. Search in Google Scholar

Cappelli, A., Oliva, N., Cini, E. (2020b). Stone milling versus roller milling: A systematic review of the effects on wheat flour quality, dough rheology, and bread characteristics. Trends in Food Science and Technology, 97(3), 147-155. Search in Google Scholar

Carcea, M., Narducci, V., Turfani, V., Finotti, E. (2022). Stone milling versus roller milling in soft wheat (Part 2): influence on nutritional and technological quality of products. Foods, 11(3), 339. Search in Google Scholar

Carcea, M., Turfani, V., Narducci, V., Melloni, S., Galli, V., Tullio, V. (2020). Stone milling versus roller milling in soft wheat: Influence on products composition. Foods, 9(1), 3. Search in Google Scholar

Carmack, W.J., Clark, A.J., Lyerly, H.J., Dong, Y., Brown-Guedira, G., Van Sanford, D.A. 2021. Optical sorter–augmented genomic selection lowers deoxynivalenol accumulation in wheat. Crop Science, 61(5), 3254-3263. Search in Google Scholar

Chen, Y.X., Guo, X.N., Xing, J.J., Sun, X.H., Zhu, K.X. (2020a). Effects of wheat tempering with slightly acidic electrolyzed water on the microbial, biological, and chemical characteristics of different flour streams. LWT - Food Science and Technology, 118(1), 108790 Search in Google Scholar

Chen, Y.X., Guo, X.N., Xing, J.J., Zhu, K.X. (2020b). Effects of tempering with steam on the water distribution of wheat grains and quality properties of wheat flour. Food Chemistry, 323(9), 126842. Search in Google Scholar

Cwiklinska, M., Hanusz, Z., Soja, J., Polak, R. (2021). Nonparametric methods in the analysis of the quality of kernel of selected winter wheat cultivars. Agriculture Engineering, 25(1), 125-134. Search in Google Scholar

David, O., Arthur, E., Kwadwo, S.O., Badu, E., Sakyi, P., Student, P.G. (2015). Proximate Composition and Some Functional Properties of Soft Wheat Flour. International Journal of Innovative Research in Science, Engineering and Technology, 4(2), 2319-8753. Search in Google Scholar

Dexter, J.E., Wood, P.J. (1996). Recent applications of debranning of wheat before milling. Trends in Food Science and Technology, 7(3), 35-41. Search in Google Scholar

Dziki, D. (2008). The crushing of wheat kernels and its consequence on the grinding process. Powder Technology, 185(2), 181-186. Search in Google Scholar

Dziki, D., Cacak-Pietrzak, G., Gawlik-Dziki, U., Świeca, M., Miś, A., Różyło, R., Jończyk, K. (2017). Physicochemical properties and milling characteristics of spring wheat from different farming systems. Journal of Agricultural Science and Technology, 19(6), 1253-1266. Search in Google Scholar

Dziki, D., Cacak-Pietrzak, G., Miś, A., Jończyk, K., Gawlik-Dziki, U. (2014). Influence of wheat kernel physical properties on the pulverizing process. Journal of Food Science and Technology, 51(10), 2648-55. Search in Google Scholar

Dziki, D., Laskowski, J. (2005). Wheat kernel physical properties and milling process. Acta Agrophysica, 6(1), 59-71. Search in Google Scholar

Erkinbaev, C., Derksen, K., Paliwal, J. (2019). Single kernel wheat hardness estimation using near infrared hyperspectral imaging. Infrared Physic and Technology, 98(5), 250-255. Search in Google Scholar

Ficco, D.B.M., Borrelli, G.M., Miedico, O., Giovanniello, V., Tarallo, M., Pompa, C., De Vita, P., Chiaravalle, A.E. (2020). Effects of grain debranning on bioactive compounds, antioxidant capacity and essential and toxic trace elements in purple durum wheats. LWT - Food Science and Technology, 118(1), 108734. Search in Google Scholar

Fistes, A., Rakić, D. (2015). Using the eight-roller mill in the purifier-less mill flow. Journal of Food Science and Technology, 52(7), 4661-4668. Search in Google Scholar

Fowler, M. (2013). Wheat tempering: mixer alternatives. https://bookstore.ksre.ksu.edu/pubs/mf3076.pdf (date of access 01.06.2023). Search in Google Scholar

Geneix, N., Dalgalarrondo, M., Tassy, C., Nadaud, I., Barret, P., Bakan, B., Elmorjani, K., Marion, D. (2020). Relationships between puroindoline A-prolamin interactions and wheat grain hardness. PLoS One, 15(9), e0225293. Search in Google Scholar

Gómez, M., Gutkoski, L.C., Bravo-Núñez, Á. (2020). Understanding whole-wheat flour and its effect in breads: A review. Comprehensive Reviews in Food Science and Food Safety, 19(6), 3241-3265. Search in Google Scholar

Gruppi, A., Garrido, G.D., Dordoni, R., De Faveri, D.M., Spigno, G. (2017). Enzymatic wheat conditioning. Chemical Engineering Transactions, 57, 1777-1782. Search in Google Scholar

Guan, E., Yang, Y., Pang, J., Zhang, T., Li, M., Bian, K. (2020). Ultrafine grinding of wheat flour: Effect of flour/starch granule profiles and particle size distribution on falling number and pasting properties. Food Science and Nutrition, 8(6), 2581-2587. Search in Google Scholar

Hassoon, W.H., Dziki, D., Miś, A., Biernacka, B. (2021). Wheat grinding process with low moisture content: A new approach for wholemeal flour production. Processes, 9(1), 32. Search in Google Scholar

Hu, C., Zhang, Y., Don, C., Zhang, B., Guo, B. (2022). Effects of quantity and rheological properties of glutenin macropolymer on the physical properties of extruded noodles made from flour mill streams. International Journal of Food Science and Technology, 57(9), 5827-5836. Search in Google Scholar

Inamdar, A.A., Suresh, D.S. (2014). Application of color sorter in wheat milling. International Food Research Journal, 21(6), 2083-2089. Search in Google Scholar

Iqbal, S., Khurshid, S., Iqbal, H.M., Akbar, Q.-U.-A., Siddique, A.A., Arif, Saqib, Yousaf, S., Munir, M., Khan, A.K., Arif, Shazia, Ahad, A., Arif, M. (2022). Near-infrared spectroscopy (NIRS) application for quantitative characterization of edible grains. Pakistan Journal of Agricultural Research, 35(4), 678-684. Search in Google Scholar

Jha, A., Baruah, K.N., Tripathy, P.P. (2020). Influence of enzymatic tempering on milling characteristics, flour quality, crystallinity and microstructure of wheat. Journal of Food Measurement and Characterization, 14(4), 1986-1997. Search in Google Scholar

Kalitsis, J., Minasny, B., Quail, K., McBratney, A. (2021). Application of response surface methodology for optimization of wheat flour milling process. Cereal Chemistry, 98(6), 1215-1226. Search in Google Scholar

Konopka, S., Piłat, B. (2020). Application of the response surface method (RSM) to optimize of the conditioning of primitive rye grain krzyca (Secale cereale var. Multicaule) before milling. Technical Sciences, 23(1), 53-67. Search in Google Scholar

Kostetska, K., Yevchuk, Y. (2016). Physical and mechanical properties and quality indicator of wheat. Carpathian Journal of Food Science and Technology, 8(2), 187-192. Search in Google Scholar

Krzysiak, Z., Samociuk, W., Skic, A., Bartnik, G., Zarajczyk, J., Szmigielski, M., Dziki, D., Wierzbicki, S., Krzywonos, L. (2017). Effect of sieve drum inclination angle on wheat grain cleaning in a novel rotary cleaning device. Transactions of the ASABE, 60(5), 1751-1758. Search in Google Scholar

Kurt, M., Dizlek, H. (2022). The effects of two-step tempering treatment on the physical, chemical and technological properties of flour in bread wheats (Triticum aestivum L.). Kahramanmaraş Sütçü İmam Üniversitesi Tarım ve Doğa Derggisi, 25(1),181-190 Search in Google Scholar

Lai, S., Chen, Z., Zhang, Y., Li, G., Wang, Y., Cui, Q. (2023). Micronization effects on structural, functional, and antioxidant properties of wheat bran. Foods, 12(1), 98. Search in Google Scholar

Lazaridou, A., Vouris, D.G., Zoumpoulakis, P., Biliaderis, C.G. (2018). Physicochemical properties of jet milled wheat flours and doughs. Food Hydrocolloids, 80, 111-121. Search in Google Scholar

Lewko, P., Wójtowicz, A., Gancarz, M. (2023). Distribution of arabinoxylans and their relationship with physiochemical and rheological properties in wheat flour mill streams as an effective way to predict flour functionality. Applied Sciences, 13(9), 5458. Search in Google Scholar

Lin, S., Jin, X., Gao, J., Qiu, Z., Ying, J., Wang, Y., Dong, Z., Zhou, W. (2021). Impact of wheat bran micronization on dough properties and bread quality: Part I – Bran functionality and dough properties. Food Chemistry 353, 129407. Search in Google Scholar

Liu, C., Liu, L., Li, L., Hao, C., Zheng, X., Bian, K., Zhang, J., Wang, X. (2015). Effects of different milling processes on whole wheat flour quality and performance in steamed bread making. LWT - Food Science and Technology, 62(1), 310-318. Search in Google Scholar

Liu, Z., Zheng, Z., Zhu, G., Luo, S., Zhang, D., Liu, F., Shen, Y. (2021). Modification of the structural and functional properties of wheat gluten protein using a planetary ball mill. Food Chemistry, 363,130251. Search in Google Scholar

Magyar, Z., Véha, A., Pepó, P., Bartók, T., Gyimes, E. (2019). Wheat cleaning and milling technologies to reduce DON toxin contamination. Acta Agraria Debreceniensis, 2, 89-95. Search in Google Scholar

Mathews, R., Chu, Y.F. (2021). Global review of whole grain definitions and health claims. Nutrition Reviews, 78, 98-106. Search in Google Scholar

Morris, C.F. (2019). Development of soft kernel durum wheat. Frontiers of Agricultural Science and Engineering, 6(3), 273-278. Search in Google Scholar

Onipe, O. O., Jideani, A. I. O., Beswa, D. (2015). Composition and functionality of wheat bran and its application in some cereal food products. International Journal of Food Science and Technology, 50(12), 2509-2518. Search in Google Scholar

Parizad, P.A., Marengo, M., Bonomi, F., Scarafoni, A., Cecchini, C., Pagani, M.A., Marti, A., Iametti, S. (2020). Bio-functional and structural properties of pasta enriched with a debranning fraction from purple wheat. Foods, 9(2), 163. Search in Google Scholar

Poudel, R., Rose, D.J. (2018). Changes in enzymatic activities and functionality of whole wheat flour due to steaming of wheat kernels. Food Chemistry, 263, 315-320. Search in Google Scholar

Prabhasankar, P., Sudha, M.L., Haridas Rao, P. (2000). Quality characteristics of wheat flour milled streams. Food Research International, 33(5), 381-386. Search in Google Scholar

Protonotariou, S., Drakos, A., Evageliou, V., Ritzoulis, C., Mandala, I. (2014). Sieving fractionation and jet mill micronization affect the functional properties of wheat flour. Journal of Food Engineering, 134, 24-29. Search in Google Scholar

Protonotariou, S., Ritzoulis, C., Mandala, I. (2021). Jet milling conditions impact on wheat flour particle size. Journal of Food Engineering, 294, 110418. Search in Google Scholar

Protonotariou, S., Stergiou, P., Christaki, M., Mandala, I.G. (2020). Physical properties and sensory evaluation of bread containing micronized whole wheat flour. Food Chemistry, 318, 126497. Search in Google Scholar

Przyborowski, M., Gasparis, S., Kala, M., Orczyk, W., Nadolska-Orczyk, A. (2020). The variability of puroindoline-encoding alleles and their influence on grain hardness in modern wheat cultivars cultivated in Poland, breeding lines and polish old landraces (Triticum aestivum L.). Agronomy, 10(8), 1075. Search in Google Scholar

Qi, Y., Yang, Y., Hassane Hamadou, A., Li, B., Xu, B. (2022). Gentle debranning as a technology to reduce microbial and deoxynivalenol levels in common wheat (Triticum aestivum L.) and its application in milling industry. Journal of Cereal Sciences, 107, 103518. Search in Google Scholar

Rydzak, L., Sagan, A., Andrejko, D., Starek, A., Ślaska-Grzywna, B., Blicharz-Kania, A., Kobus, Z., Natoniewski, M. (2017). Changes in particle size distribution of bran and flour obtained from vacuum impregnated and infra-red heated wheat grain. Food and Bioprocess Technology, 10(11), 1997-2004. Search in Google Scholar

Sarkar, A., Fu, B.X. (2022). Impact of quality improvement and milling innovations on durum wheat and end products. Foods, 11(12). Search in Google Scholar

Suprabha Raj, A., Boyacioglu, M.H., Dogan, H., Siliveru, K. (2023). Investigating the contribution of blending on the dough rheology of roller-milled hard red wheat. Foods, 12(10), 2078. Search in Google Scholar

Tian, X., Wang, X., Ma, S., Sun, B., Li, L., Wang, Z. (2022a). Study of the ball milling condition effect on physicochemical and structural characteristics of wheat flour. Journal of Food Processing and Preservation, 46(1), 1-8. Search in Google Scholar

Tian, X., Wang, X., Wang, Z., Sun, B., Wang, F., Ma, S., Gu, Y., Qian, X. (2022b). Particle size distribution control during wheat milling: nutritional quality and functional basis of flour products — a comprehensive review. International Journal of Food Science and Technology, 57, 7556-7572. Search in Google Scholar

Tian, X., Wang, Z., Wang, X., Ma, S., Sun, B., Wang, F. (2022c). Mechanochemical effects on the structural properties of wheat starch during vibration ball milling of wheat endosperm. International Journal of Biological Macromolecules, 206, 306-312. Search in Google Scholar

Tibola, C.S., Guarienti, E.M., Dias, A.R.G., Nicolau, M., Devos, R.J.B., Teixeira, D.D. (2019). Effect of debranning process on deoxynivalenol content in whole-wheat flours. Cereal Chemistry, 96, 717-724. Search in Google Scholar

Tu, M., Li, Y. (2020). Toward the genetic basis and multiple QTLs of kernel hardness in wheat. Plants, 9(12), 1631. Search in Google Scholar

Turky, T., Isaak, M., Hassan, N.A., Sabah, K. (2023). Mechanization Status, its Technical Indicators and Impact on the Wheat Crop Production in Iraq. Agricultural Engineering, 27(1), 75-85. Search in Google Scholar

Wang, T., He, F., Chen, G. (2014). Improving bioaccessibility and bioavailability of phenolic compounds in cereal grains through processing technologies: A concise review. Journal of Functional Foods, 7, 101–111. Search in Google Scholar

Warechowska, M., Markowska, A., Warechowski, J., Miś, A., Nawrocka, A. (2016). Effect of tempering moisture of wheat on grinding energy, middlings and flour size distribution, and gluten and dough mixing properties. Journal of Cereal Sciences, 69, 306-312. Search in Google Scholar

Wrigley C.W. (2009). Wheat: a unique grain in the world. In: Khan K, Shewry PP, editors. Wheat: Chemistry and technology. 4th ed. St. Paul, MN: AACC International. pp. 1-17. Search in Google Scholar

Yamaguchi, M.M., Souza, D. de F.M. de, Carvalho, P.T. de, Serafim, R.Â. (2021). Influence of wheat conditioning duration on the technological qualities of flour. Research, Society and Development, 10(1), e20110111230. https://doi.org/10.33448/rsd-v10i1.11230 Search in Google Scholar

Yüksel, Y., Elgün, A. (2020). Determination of the effect of high energy ultrasound application in tempering on flour quality of wheat. Ultrasonics Sonochemistry, 67, 105129. Search in Google Scholar

Zannini, E., Núñez, Á.B., Sahin, A.W., Arendt, E.K. (2022). Arabinoxylans as functional food ingredients: A Review. Foods, 11(7), 1026. Search in Google Scholar

Zanoletti, M., Abbasi Parizad, P., Lavelli, V., Cecchini, C., Menesatti, P., Marti, A., Pagani, M.A. (2017). Debranning of purple wheat: recovery of anthocyanin-rich fractions and their use in pasta production. LWT - Food Science and Technology, 75, 663-669. Search in Google Scholar

Zubko, V., Sirenko, V., Kuzina, T., Onychko, V., Sokolik, S., Roubik, H., Koszel, M., Shchur, T. (2022). Modelling wheat grain flow during sowing based on the model of grain with shifted center of gravity. Agricultural Engineering, 26(1), 25-37. Search in Google Scholar