Optimization of Fermentation Process of Low Alcohol Degree Cider with Cold Crushing Red Fuji Apple Pulp

TIAN Dan; LIU Minhao; DENG Hong; WANG Xiaoyu; MENG Yonghong; GUO Yurong

doi:10.13386/j.issn1002-0306.2020050150

Volume 42 Issue 6

Mar. 2021

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Science and Technology of Food Industry > 2021 > 42(6): 166-173,180. > DOI: 10.13386/j.issn1002-0306.2020050150

TIAN Dan, LIU Minhao, DENG Hong, WANG Xiaoyu, MENG Yonghong, GUO Yurong. Optimization of Fermentation Process of Low Alcohol Degree Cider with Cold Crushing Red Fuji Apple Pulp[J]. Science and Technology of Food Industry, 2021, 42(6): 166-173,180. DOI: 10.13386/j.issn1002-0306.2020050150

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Optimization of Fermentation Process of Low Alcohol Degree Cider with Cold Crushing Red Fuji Apple Pulp

TIAN Dan¹,
LIU Minhao¹,
DENG Hong^1,2,3, ,,
WANG Xiaoyu^1,2,3,
MENG Yonghong^1,2,3,
GUO Yurong^1,2,3

1. College of Food Engineering and Nutrition Science, Shaanxi Normal University, Xi'an 710119, China;
2. National Research & Development Center of Apple Processing Technology, Xi'an 710119, China;
3. Engineering Research Center of High Value Utilization of Western China Fruit Resources, Ministry of Education, Xi'an 710119, China

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Received Date: May 14, 2020
Available Online: March 15, 2021

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Abstract

Abstract

Cold crashing apple pulp of red Fuji was used as raw materials to ferment and prepare the low degree cider. The fermentation strain was selected through the analysis of sugar content, alcohol content, pH and total acid in different yeast fermentation cycles. The single factor and response surface analysis were used to optimize the fermentation process to determine the best conditions for cold crashing apple pulp fermented cider, and the quality was compared with that of apple juice fermented cider by analyzing the cider indexes. The results showed that the optimal fermented parameters were initial sugar content 18%, SY yeast inoculation 0.1 g/L, and temperature 20℃. The residual sugar(7.5±0.46 g/L) and alcohol content(7.8±0.1%) of fermented apple pulp cider were compared with the residual sugar(7.3±0.31 g/L) and alcohol content(8.0%±0.1%) of fermented apple juice cider, and the difference was not significant. The contents of total phenols(74.99±1.23 mg/100 mL) and organic acids(5.33±0.01 g/L) in apple pulp fermented cider were higher than those in apple juice fermented cider(total phenols 47.5±2.2 mg/100 mL, organic acids 5.01±0.03 g/L). This research results could be used as reference for the cider production, and provide ideas for the apple processing industry to drive the diversified development.
- red Fuji apple,
- cold crushing apple pulp,
- fermentation,
- apple cider,
- process

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References

[1]	纪杨洋,王丽萍. 苹果加工研究进展[J]. 保鲜与加工,2017,17(1):126-129.
[2]	林惠娇,张海娥,蒋湘,等. 中国苹果产业进出口及其植物检疫情况[J]. 落叶果树,2019,51(4):22-26.
[3]	李启彭,张福胜. 苹果营养成分及应用价值研究进展[J]. 浙江农业科学,2017,58(1):132-134.
[4]	叶万军,宋丽娟,刘畅,等. 苹果白兰地酿造工艺研究[J]. 黑龙江农业科学,2019(6):106-108.
[5]	王娟,徐桂花. 苹果酒的营养价值分析及发展现状[J]. 中国食物与营养,2006(8):35-37.
[6]	杨越. 优良苹果酒发酵菌株筛选与苹果酒酿造工艺研究[D]. 邯郸:河北工程大学,2018.
[7]	王嘉伟. 酵母-乳酸菌共发酵低醇苹果酒的研制[D]. 杨凌:西北农林科技大学,2015.
[8]	Vanessa W,Sandra V D,Fernanda R S,et al. Effect of glutathione addition in sparkling wine[J]. Food Chemistry,2014,159:391-398.
[9]	Laaksonen O,Kuldjrv R,Paalme T,et al. Impact of apple cultivar,ripening stage,fermentation type and yeast strain on phenolic composition of apple ciders[J]. Food Chemistry,2017,233:29-37.
[10]	Hui Y,Junli H,Chuang W,et al. Anti-oxidation and anti-aging activity of polysaccharide from Malus micromalus Makino fruit wine[J]. International Journal of Biological Macromolecules,2019,121:1203-1212.
[11]	Laaksonen O,Kuldjarv R,Paalme T,et al. Impact of apple cultivar,ripening stage,fermentation type and yeast strain on phenolic composition of apple ciders[J]. Food Chemistry,2017:29-37.
[12]	张鹏,李莉,米晓春,等. 3种鲜食型苹果发酵酒的对比研究[J]. 农产品加工(学刊),2012(3):84 -87.
[13]	王艳,王汉屏,翟文俊,等. 陕西地区苹果酒酵母的选育及发酵工艺研究[J]. 食品科技,2016,41(10):5-9.
[14]	Lorenzini M,Simonato B,Slaghenaufi D,et al. Assessment of yeasts for apple juice fermentation and production of cider volatile compounds[J]. Lebensmittel Wissenschaft Und Technologie,2019,99:224-230.
[15]	杨颖迪. 酿酒酵母合成苹果酒特征香气的代谢机制研究[D]. 武汉:华中农业大学,2019.
[16]	Daccache M A,Koubaa M,Salameh D,et al. Control of the sugar/ethanol conversion rate during moderate pulsed electric field-assisted fermentation of a Hanseniaspora sp. strain to produce low-alcohol cider[J]. Innovative Food Science and Emerging Technologies,2020,59:102258.
[17]	吴茂玉,葛邦国,马超,等. 固定化酵母菌生产苹果酒的研究[J]. 中国酿造,2009(4):167-170.
[18]	李坤娜. 基于模糊综合评判-响应面分析的苹果酒发酵工艺参数优化[J]. 内蒙古科技与经济,2018(2):89-92.
[19]	张建萍,蔡望秋,陈尚龙,等. 黄精苹果酒的研制及挥发性成分分析[J]. 食品研究与开发,2019,40(15):165-170.
[20]	Junior W J,Binati R L,Felis G E,et al. Volatile organic compounds from Starmerella bacillaris to control gray mold on apples and modulate cider aroma profile.[J]. Food Microbiology,2020,89:103446.
[21]	高振鹏,岳田利,袁亚宏,等. 果脯加工废糖液发酵猕猴桃酒的工艺研究[J].农产品加工(学刊),2007(3):58-60.
[22]	许先猛,董文宾,卢军,等. 利用果脯废糖液发酵制备苹果酒及其抗氧化性分析[J].江苏农业科学,2018,46(1):133-137.
[23]	李国薇. 苹果品种及酵母菌种对苹果酒品质特性影响的研究[D]. 杨凌:西北农林科技大学,2013.
[24]	卫春会,黄治国,罗惠波,等. 干型苹果酒发酵工艺条件的优化[J]. 现代食品科技,2013,29(2):367-371.
[25]	王旭芳. 提升产业价值链打造中国"苹果梦"[J]. 中国农村科技,2016(8):28-35.
[26]	王玉莹,戴洪义. 响应面法优化苹果酒发酵工艺[J]. 中国酿造,2012,31(8):19-23.
[27]	王思勰. 苹果酒酿造工艺研究[D]. 西安:陕西科技大学,2015.
[28]	王文娟,陈娟,张荣,等. 黄心猕猴桃果酒主发酵工艺参数的优化[J]. 食品工业科技,2017,38(21):216-219.
[29]	朱克永. 猕猴桃发酵果酒的酿造和营养成分分析[J]. 食品研究与开发,2017,38(8):92-95
[30]	叶学林,程水明,温露文,等. 响应面法优化桑葚果酒发酵工艺[J]. 中国酿造,2017,36(12):105-109.
[31]	中华人民共和国国家质量监督检验检疫总局,中国国家标准化管理委员会. GB/T 15038-2006,果酒、葡萄酒通用分析方法[S]. 北京:中国标准出版社,2006.
[32]	刘婧琳. 浓缩苹果汁酿造苹果酒的工艺优化及不同发酵基质苹果酒成分分析[D]. 西安:陕西师范大学,2012.
[33]	SB/T 10203-1994果汁通用试验方法商业行业标准[S].北京:中国标准出版社,1994.
[34]	蔡红梅,田子玉. 苯酚-硫酸法测定草莓中总糖含量[J].吉林农业,2019(4):46.
[35]	李雪,白新鹏,曹君,等. 仙人掌果酒发酵动力学及其抗氧化性[J]. 食品科学,2017,38(4):87-92.
[36]	中华人民共和国国家卫生和计划生育委员会. GB 5009.157-2016,食品安全国家标准食品有机酸的测定[S]. 北京:中国标准出版社,2016.
[37]	马瑞雪,高天,宋蕾,等. 响应面法优化调理鸡排水油混合油炸工艺[J].食品与发酵工业,2016,42(8):128-134.

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Optimization of Fermentation Process of Low Alcohol Degree Cider with Cold Crushing Red Fuji Apple Pulp

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