Effects of using bamboo fiber and guar gum on physicochemical, rheological, shelf life and organoleptic characteristics of instant noodles

Document Type : Research Paper

Authors

1 Department of Food Science and Technology, Ghods City Branch, Islamic Azad University, Tehran, Iran

2 Academic member of food science and technology iau. shahri e qods branch

Abstract

Introduction: The nutritional trend of the food industry in recent years has created new challenges in the design and formulation of new food products and products with medicinal properties. In other words, today, consumers prefer foods that, in addition to being safe for them, also have nutritional benefits. Noodles are a grain-based product, including noodles, and can be used as an instant food. . The aim of this study was to produce noodles using bamboo fiber and guar gum and the physicochemical, textural and sensory properties of the samples were evaluated.
materials and methods: The materials used in this research are wheat flour, frying oil, bamboo fiber, salt, food additives, guar gum, and water. The equipment used in this research includes: mixer, feeder, roller, steam oven, molds, fryer tank, cannibal, cooling and packaging. In this study, the effect of different levels of guar gum 0.3 and 0.5% and bamboo fiber 15, 10, 5 and 20% on physicochemical properties on the first day of production (ash, fat, protein, viscosity and pH) and sensory tests of the final product (texture, Color, taste, smell and general acceptance) and (peroxide number and acidity) on the first day of production and shelf life (90 and 180 days) after noodle production were evaluated using SPSS software. To make noodles, first pour wheat flour and bamboo fiber with a 90 micron mesh into the mixer and add salt, sodium polyphosphate water, potassium carbonate and guar gum and mix thoroughly to obtain a uniform dough. The dough turns into a thin sheet of dough after passing through two parallel rotating rollers. A thin sheet of dough is cut immediately after passing through a grater or stringer. The filaments are passed through a steam tunnel for 1-5 minutes at 90-100 ° C to be steamed. Then, after cutting and placing in the mold, the noodle noodles are immersed, fried and dried for 1-5 minutes in a hot oil tank at a temperature of 130-160 ° C. In the frying process, the humidity of the noodles is reduced from 30-35% to 2-5%, the noodles are cooled after frying and passing through the cooling tunnel. Then it is packed with spices in various flavors in weights of 50 to 100 grams. Storage conditions: Noodles packed in a cool dry place at room temperature (temperature less than 25 ° C). The treatments used in this study include 9 treatments. T1 treatment containing wheat flour without guar gum and bamboo fiber (control treatment), T2 treatment containing 0.3% guar gum and 5% bamboo fiber replacing wheat flour, T3 treatment containing 0.5% guar gum and 5% alternative bamboo fiber Wheat flour, T4 treatment contains 0.3% guar gum and 10% bamboo fiber instead of wheat flour, T5 treatment contains 0.5% guar gum and 10% bamboo fiber replaces wheat flour, T6 treatment contains 0.3% guar gum and 15% Bamboo fiber replaces wheat flour, T7 treatment contains 0.5% guar gum and 15% bamboo fiber replaces wheat flour, T8 treatment contains 0.3% guar gum and 20% bamboo fiber replaces wheat flour and T9 treatment contains 0.5% gum Guar and 20% bamboo fiber instead of wheat flour were examined.
Results and discussion: In this study, the effect of different levels of guar gum (0.3 and 0.5%) and bamboo fiber (5, 10, 15 and 20%) on physicochemical, rheological, shelf life and organoleptic properties on the first day of production including (ash, fat, Protein, viscosity and pH) and sensory tests of the final product (texture, color, taste, odor and general acceptance) by five-point hedonic method and (peroxide number and acidity) at intervals of the first day of production, 90 and 180 days after Noodle production was analyzed using SPSS software version 24. Differences between treatments in Duncan multiple test were evaluated at a significant level of 95% confidence (p <0.05). Evaluation revealed different characteristics of noodles. Addition of bamboo fiber and guar gum to the noodle formulation caused a significant increase (p <0.05) in ash content, viscosity of different noodle treatments, also increasing the amount of bamboo fiber significantly reduced the pH and protein of noodle treatments, but the effect of guar gum significantly Was not (p> 0.05). Addition of bamboo fiber and guar gum had no significant effect (p> 0.05) on fat content. Increasing the amount of bamboo fiber and guar gum decreased the amount of peroxide and acidity in noodle samples on the first day of production. During the storage period of treatments (on days 90 and 180) after production, caused a significant increase in peroxide and acidity in noodle samples. In treatments containing higher amounts of bamboo fiber and guar gum peroxide and acidity was lower than the control treatment, in terms of sensory scores, the results showed that the addition of bamboo fiber and guar gum did not have a significant effect on odor and overall acceptance. But the taste, color and texture of the product received significantly more points. The results showed that the addition of bamboo fiber and guar gum improved physicochemical and sensory properties in noodle treatments. Addition of bamboo fiber up to 10 and 15% with 0.5% guar gum can be introduced as superior treatments compared to the control treatment and treatments containing 5 and 20% bamboo fiber and 0.3% guar gum.
Conclusion: The results showed that the addition of bamboo fiber and guar gum improved physicochemical and sensory properties in noodle treatments. Addition of bamboo fiber up to 10 and 15% with 0.5% guar gum can be introduced as superior treatments compared to the control treatment and treatments containing 5 and 20% bamboo fiber and 0.3% guar gum.
Keywords: Noodles, Bamboo fiber, Guar gum

Keywords


توکلی فدیهه م، 1392.بررسی تاثیر اقزودن فیبر های گندم و جو بر ویژگی های فیزیکو شییایی و زنده مانی لاکتو باسیلو ساسیدو فیلوس(LA5)در ماست.86 -75.
حسینی ح، معرفی انواع صمغ ها، خواص و کاربرد آنها در صنایع غذایی، 1395. 24 کنگره بین الملی علوم و صنایع غذایی.
زارعی ن، امام جمعه ز، عزیزی م. 1397. بررسی اثرات صمغ گوار بر خصوصیات حسی و بافتی مافین تهیه شده از آرد برنج، علوم و صنایع غذایی، 15(78)، 216-205.
سازمان ملی استاندارد ایران. 1369. روش اندازه گیری چربی غلات و فراورده های آن، استاندارد ملی شماره2862 چاپ اول.
سازمان ملی استاندارد ایران. 1371. شیر و فرآورده های آن-تعیین اسیدیته و pH-روش آزمون. استاندارد ملی شماره 2852چاپ اول.
سازمان ملی استاندارد ایران. 1387. غلات؛حبوبات و فراورده های جانبی- اندازه گیری خاکستر در کوره استاندارد ملی شماره 2606.
سازمان استاندارد ملی ایران. 1387. فراوده های خمیری- رشته فوری- ویژگی ها و روش های آزمون، استاندارد ملی شماره 11981، 11-9.
سازمان ملی استاندارد ایران. 1389. ایران. غلات و فراورده های ان- روش اندازه گیری رطوبت- روش مرجع. استاندارد ملی شماره 27.
سازمان استاندارد ملی ایران. 1390. آرد گندم- ویژگی ها و روش آزمون، استاندارد ملی شماره 103.
سازمان استاندارد ملی ایران. 1392. سوپ ویژگی ها و روش آزمون، استاندارد ملی شماره3827.
سازمان ملی استاندارد ایران. 1394. بیسکویت-ویژگی ها و روش های آزمون، استاندارد ملی شماره 37- تجدید نظر هفتم. جلد اول، شماره سوم، پاییز 88، 82-65.
سازمان ملی استاندارد ایران. 1396. کیک- ویژگی ها و روش های آزمون- اصلاحیه شماره 2، استاندارد ملی شماره 2553.
سوهان آجیلی ع، موحد س، احمدی چناربن ح. 1396. تاثیر صمغ های گوار و زانتان به عنوان جایگزین بخشی از چربی بر خواص کیفی کیک روغنی. مجله علوم و صنایع غذایی، 69(14)، 3-2.
علی مددی م، عزیزی م. 1398. تاثیر افزودن فیبر ذرت بر ویژگی های فیزیکوشیمیایی و حسی ماکارونی. علوم و صنایع غذایی،88 (16)، 255-243.
عبادی ملاباشیم،ناطقی ل.1396. بررسی اثر صمغ دانه شاهی بر بهبود ویژگی های فیزیکوشیمیایی و حسی شیرینی برنجی.نشریه ی نوآوری در علوم و فناوری غذایی،3، 25-20
فاطمی ح، 1378. شیمی مواد غذایی، نشر شرکت سهامی انتشار، تهران، 6، 262-252.
فروغی م، کرامت ج، هاشمی روان م. 1391. اثر افزودن فیبر رژیمی سیب زمینی بر ویژگی های شیمیایی و کیفیت ارگانولپتیکی سوسیس گوشت گاو. مجله علوم غذایی و تغذیه، 4، 59-50
مصدق ی، توکلی م، کمالی روستا ل، خوشخو ژ، سلطانی م، 1398.ماکارونی غنی شده با فیبر سیب زمینی و پودر جلبک دونالیلاسالینا و ارزیابی خصوصیات فیزیکی، شیمیایی و حسی آن، علوم و صنایع غذایی، 16-99-87.
نقی پور ف، صحرائیان ب، حبیبی نجفی م، حداد خداپرست م.1394. بررسی تاثیر صمغ اسفرزه بر ماندگاری و کیفیت کیک روغنی ترکیبی (گندم - سورگوم)، نشریه ی نوآوری در علوم و فنّاوری غذایی، سال4، شماره 3.
نوری م، ناصحی ب، سماواتی و، مهدی زاده س. (1394). تاثیر پیش فرآیند مایکروویو بر ویژگیهای فیزیکوشیمیایی دونات حاوی منابع فیبر خوراکی صمغ فارسی و پودر تفاله هویج. نشریه پژوهشهای علوم و صنایع غذایی ایران، 13(2)،239-227.
همایونی راد ع، 1394. بررسی اثر افزودن نشاسته مقاوم نوع دو بر خواص فیزیکوشیمیایی، رئولوژیکی، حسی و پخت ماکارونی پری بیوتبک حاصل. مجله علوم تغذیه و صنایع غذایی ایران.1، 88-81.
وزارت بهداشت، درمان و آموزش پزشکی. 1388. ضوابط و مقررات مربوط به غنی سازی مواد خوراکی و آشامیدنی. معاونت غذا و دارو. تجدید نظر اول.
Allen l, Benoist DB, Dary O, Harrell R. 2006. Guidelines on food fortification with micronutrients. 341
Barcenas, M. F., and Rosell, C. M .2005. Effect of HPMC on the microstructure, quality and aging of wheat bread. Food Hydrocolloids,19: 1037-43.
Chongtham Nirmala, Singh Bisht Madho, Haorongbam Sheena. (2010). Nutritional Properties of Bamboo Shoots: Potential and Prospects for Utilization as a Health Food. ComprehensiveReviews in Food Science and Food Safety 10:153-168.
Crizel T,Rios A,Thys R, Hickmann S, 2015. Food Science and Technology.
Codex Alimentanis Standard for Instant noodles, CODEX STAN 249-2006: 1-9.
Dello Staffolo, M. Bertola, N. Martino, M. and Bevilacqua, A. 2004. Influence of dietary fiber addition on sensory and rheological properties of yogurt. International Dairy Journal, 14: 263–268.
Felisberto Mária Herminia Ferrari, Miyake Patricia Satie Endo, Beraldo Antonio Ludovico, Clerici Maria Teresa Pedrosa Silva. (2017). Young bamboo culm: Potential food as source of fiber and starch. Food Research International. S0963-9969(17)30515-X.
Ferna'ndez-Garci'a, E. and McGregor, J. U. 1997. Fortification of sweetened plain yogurt with insoluble dietary fiber. European Food Research and Technology, 204: 433-437.
Ferreira VLP, Azzini A, de Figueriredo IB, Salgado ALB, Barbieri MK 1995. Evaluation of bamboo shoots for human consumption. Coletanea do Instituto de Tecnologia de Alimento, Brazil 16:23–36.
Fu,BinXiao. (2008). Asian noodles: History, classification, raw materials, and processing. Food Research International Journal. Vol. No. 41: 888–902
Guarda, A., Rosell, C.M., Benedito, C., and Galotto, M.J. 2004. Different hydrocolloids as bread improvers and antistaling agents. Food Hydrocolloids, 18: 241-247.
Haskaraca, G., Demirok, E., Kolsarıcı, N., Öz, F. and Özsaraç, N. 2014. Effect of green tea extract and microwave pre-cooking on the formation of heterocyclic aromatic amines in fried chicken meat products. Food Research International, 63: 373-381.
Hou Guoquan and Kruk Mark. (1998). Asian noodle technology. Technical Bulletin. Vol.20. No 12: 1-10.
Kozukue E, Kozukue N, Tsichida H. 1999. Changes in several enzyme activities accompanying the pulp browning of bamboo shoots during storage. J Jap Soc Hort Sci 68(3):689–93.
Kudake Dnyaneshwar C., Pawar Amesh V., Muley Abhijeet B., Parate Vishal R. and Talib Mohammed I. (2017).  Enrichment of Wheat Flour Noodles with Oat Flour: Effect on Physical, Nutritional, Antioxidant and Sensory Properties. Int.J.Curr.Microbiol.App.Sci6(12): 204-213.
Man Li a, Jia-Hui Zhang a, Ke-Xue Zhu a,*, Wei Peng a, Shi-Kang Zhang b, Bin Wang b, Yue-Jin Zhu Hui-Ming Zhou a, 2012. Effect of superfine green tea powder on the thermodynamic, rheological and fresh noodle making properties of wheat flour. Food Science and Technology 46: 23-28.
Mahmoud A, Shereen L, Nassef M, Basuny M,2012. Annals of Agricultural Science (2012) 57(2), 105–112.
Movahhed, S., Khalatbari Mohseni, G.,Ahmadi Chenarbon, H. 2012. Comparing the effect of potato flour and xanthan gums on staling rate of toast breads. Annals of Biological Research, 5(6): 3-9.
Sahraiyan, B., Naghipour, F., Karimi, M.,and Davoodi, M.G. 2013. Evaluation of lepidium sativum seed and guar gum to improve dough rheology and quality parameters in composite rice–wheat bread. Food Hydrocolloids.30:698–703.
Shi QT, Yang KS. 1992. Study on relationship between nutrients in bamboo shoots and human health. Proceedings of the International Symposium on Industrial Use of Bamboo. International Tropical Timber Organization and Chinese Academy, Beijing, China: Bamboo and its Use; p 338–46.
Turabi, E., Sumnu,G and Serpil,S. 2008. Rheological properties and quality of rice cakes formulated with different gums and an emulsifier blend. Food Hydrocolloids.22 (2):305-312. 
Umair Mustafa, Naureen Naeem*, Saima Masood, Zubair Farooq. (2016). Effect of Bamboo Powder Supplementation on Physicochemical and Organoleptic Characteristics of Fortified Cookies. Food Science and Technology 4(1): 7-13.
Valeria -Eim - S., Simal, S., Rosselló, C. & Femenia, A. (2008). Effects of addition of carrot dietary fibre on the ripening process of a dry fermented sausage (sobrassada), 80(2): 173-182
Visuphaka K. 1985. The role of bamboo as a potential food source in Thailand. Proceedings of the International Bamboo Workshop; 1985 Oct6–14; Hangzhou, China: Recent Research on Bamboos. p 301–3.
Vitali D, Dragojević I.V and Šebečić B, 2009. Effects of incorporation of integral raw 97-materials and dietary fibre on the selected nutritional and functional properties of biscuits. Food Chemistry 114: 1462-1469.
Waldron, K. W. Parker, M. L. and Smith, A. C. 2003. Plant cell walls and food quality. Comprehensive Reviews in Food Science and Food Safety, 2: 30-46.
Zhang Hua, Zhang Yanyan, Wang Xintian, Qisen Xiang, Bai Yanhong, Li Suyun, Yang Lixin, (2017). Effects of Bamboo Shoot Dietary Fiber on Mechanical Properties, Moisture Distribution, and Microstructure of Frozen. Dough. Journal of Chemistry., Article ID 4513410: 1-7.
Zhou Yun, Hui Cao, Man Hou, Satoru Nirasawa, Eizo Tatsumi, Tim J. Foster, Yongqiang Cheng, (2013). Effect of konjac glucomannan on physical andv sensory properties of noodles made from low-protein wheat flour. Food Research International 51: 879–885.
Zhu F, Cai Y. Z and Corke H, (2010). Evaluation of Asian salted noodles in the presence of of Amaranthus betacyanin pigments. Food Chemistry 118: 663–669.