陈楠 , 王殿轩 , 陈鹏枭 , 郭相毅 , 李玉 , 吴建章 , 朱文学 . 品种与干燥方式对花生干燥特性及干燥后品质影响的研究进展[J]. 食品与发酵工业, 2023 , 49(2) : 316 -324 . DOI: 10.13995/j.cnki.11-1802/ts.031141

[1] 万书波. 花生品质学[M].北京:中国农业科学技术出版社, 2007.
WAN S B.Peanut Quality[M].Beijing:China Agricultural Science and Technology Press, 2007.
[2] 杨慧, 王童, 翟辰璐, 等.我国花生干燥影响因素分析及干燥技术装备研究进展[J].河南农业科学, 2021, 50(2):1-7.
YANG H, WANG T, ZHAI C L, et al.Analysis on influencing factors and research progress of drying technology and equipment of peanut in China[J].Journal of Henan Agricultural Sciences, 2021, 50(2):1-7.
[3] AKHTAR S, KHALID N, AHMED I, et al.Physicochemical characteristics, functional properties, and nutritional benefits of peanut oil:A review[J].Critical Reviews in Food Science and Nutrition, 2014, 54(12):1 562-1 575.
[4] 李先翠, 李保国, 姜元荣, 等.光照处理对花生萌发过程中营养成分和活性成分的影响[J].食品与发酵工业, 2021, 47(4):47-53.
LI X C, LI B G, JIANG Y R, et al.Effects of light on nutrients and bioactive in peanut during germination[J].Food and Fermentation Industries, 2021, 47(4):47-53.
[5] 杨潇. 新鲜花生热风干燥试验研究[D].北京:中国农业机械化科学研究院, 2017.
YANG X.Experimental study on fresh peanut hot air drying[D].Beijing:Chinese Academy of Agricultural Mechanization Science, 2017.
[6] 万书波. 我国花生科研工作的回顾与前瞻[J].花生科技, 1999(S1):6-12.
WAN S B.Review and prospect of peanut scientific research in China[J].Peanut Science and Technology, 1999 (S1):6-12.
[7] 肖昌珍, 吴渝, 甘冬生, 等.中国花生种质主要生化品质分析[J].花生科技, 1999(S1):161-166.
XIAO C Z, WU Y, GAN D S, et al.Analysis on biochemical qualities of peanut germplasm in China[J].Peanut Science and Technology, 1999 (S1):161-166.
[8] 张晓颖. 花生干燥与储藏技术探究[J].种子科技, 2019, 37(15):36-38.
ZHANG X Y.Study on drying and storage technology of peanut[J].Seed Science and Technology, 2019, 37(15):36-38.
[9] 渠琛玲, 王雪珂, 汪紫薇, 等.花生果常温通风干燥实验研究[J].中国粮油学报, 2020, 35(1):121-125.
QU C L, WANG X K, WANG Z W, et al.Experimental study on peanut drying by ventilation at room temperature[J].Journal of the Chinese Cereals and Oils Association, 2020, 35(1):121-125.
[10] 刘肖. 花生储藏过程中水活度、温度对黄曲霉生长和产毒的影响[D].北京:中国农业科学院, 2016.
LIU X.Impact of water activity and temperature on Aspergillus flavus growth and aflatoxin production in stored peanuts[D].Beijing:Chinese Academy of Agricultural Sciences,2016.
[11] MORENO-MARTÍNEZ E, RIVERA A, VÁZQUEZ-BADILLO M.Effect of fungi and fungicides on the preservation of wheat seed stored with high and low moisture content[J].Journal of Stored Products Research, 1998, 34(4):231-236.
[12] KARUNAKARAN C, MUIR W E, JAYAS D S, et al.Safe storage time of high moisture wheat[J].Journal of Stored Products Research, 2001, 37(3):303-312.
[13] 李建辉. 花生中黄曲霉毒素的影响因子及脱毒技术研究[D].北京:中国农业科学院, 2009.
LI J H.Impact factor and detoxification of aflatoxins in peanuts[D].Beijing:Chinese Academy of Agricultural Sciences,2009.
[14] 颜建春, 吴努, 胡志超, 等.花生干燥技术概况与发展[J].中国农机化, 2012(2):10-13.
YAN J C, WU N, HU Z C, et al.Overview and development of peanut drying technology[J].Chinese Agricultural Mechanization, 2012 (2):10-13.
[15] KLEVORN C M, DEAN L L.A metabolomics-based approach identifies changes in the small molecular weight compound composition of the peanut as a result of dry-roasting[J].Food Chemistry, 2018(240):1 193-1 200.
[16] 舒垚. 花生品种和烘烤条件及储存条件对花生酱综合品质的影响研究[D].郑州:河南工业大学, 2020.
SHU Y.Study on the effect of peanut varieties, roasting conditions and storage conditions on the comprehensive quality of peanut butter[D].Zhengzhou:Henan University of Technology,2020.
[17] KOPPELMAN S J, JAYASENA S, LUYKX D, et al.Allergenicity attributes of different peanut market types[J].Food And Chemical Toxicology, 2016(91):82-90.
[18] CHUKWUMAH Y, WALKER L, VOGLER B, et al.Profiling of bioactive compounds in cultivars of Runner and Valencia peanut market-types using liquid chromatography/APCI mass spectrometry[J].Food Chemistry, 2012, 132(1):525-531.
[19] 段乃雄,姜慧芳,谈宇俊,等.花生品种资源的收集保存鉴定[J].中国油料, 1994 (3):28-32.
DUAN N X, JIANG H F, TAN Y J, et al.Collection, conservation, evaluation and utilization of groundnut germplasm[J].Chinese Journal of Oil Crop Sciences, 1994(3):28-32.
[20] 栾文琪, 封海胜, 王晶珊.花生品种主要性状的研究——性状表现及类型间的差异[J].作物品种资源, 1986 (2):8-11.
LUAN W Q, FENG H S, WANG J S.Study on main characters of peanut varieties——Traits and differences among types[J].China Seed Industry, 1986(2):8-11.
[21] 廖伯寿. 我国花生生产发展现状与潜力分析[J].中国油料作物学报, 2020, 42(2):161-166.
LIAO B S.A review on progress and prospects of peanut industry in China[J].Chinese Journal of Oil Crop Sciences, 2020, 42(2):161-166.
[22] 王艳. 中国花生主产区比较优势研究[D].南京:南京农业大学, 2013.
WANG Y.Study on comparative advantage of main peanut producing areas in China[D].Nanjing:Nanjing Agricultural University,2013.
[23] 吴长城. 河南花生主要新品种栽培管理及病虫草害防治技术[M].北京:中国农业科学技术出版社, 2018.
WU C C.Cultivation and management of main new peanut varieties and control techniques of diseases, pests and weeds in Henan Province[M].Beijing:China Agricultural Science and Technology Press,2018.
[24] RAMACHANDRAN S, SINGH S K, LARROCHE C, et al.Oil cakes and their biotechnological applications — A review[J].Bioresource Technology, 2007, 98(10):2 000-2 009.
[25] 崔少雄. 不同花生品种的生长发育及养分累积分配特性研究[D].保定:河北农业大学, 2015.
CUI S X.Study on the characteristics of growth and nutrient accumulation of different peanut varieties[D].Baoding:Agricultural University of Hebei,2015.
[26] 周巾英, 罗晶, 何家林, 等.我国花生机械化干燥生产现状与发展[J].江西农业学报, 2019, 31(2):66-69.
ZHOU J Y, LUO J, HE J L, et al.Current situation and development of mechanized dry production of peanut in China[J].Acta Agriculturae Jiangxi, 2019, 31(2):66-69.
[27] 林子木, 赵卉, 李玉, 等.花生热风干燥特性及动力学模型的研究[J].农业科技与装备, 2020(2):31-33.
LIN Z M, ZHAO H, LI Y, et al.Study on hot air drying characteristics and kinetic model of peanut[J].Agricultural Science and Technology and Equipment, 2020(2):31-33.
[28] 武洪博, 陈君若.基于水势理论的花生真空干燥特性分析[J].机械制造, 2016, 54(6):38-40.
WU H B, CHEN J R.Analysis of vacuum drying characteristics of peanut based on water potential theory[J].Machinery, 2016, 54(6):38-40.
[29] BAGHERI H, KASHANINEJAD M, ZIAIIFAR A M, et al.Textural, color and sensory attributes of peanut kernels as affected by infrared roasting method[J].Information Processing in Agriculture, 2019, 6(2):255-264.
[30] 梁克红, 朱大洲, 孙君茂, 等.不同品种与年份对花生营养品质的影响[J].食品工业, 2017, 38(1):149-151.
LIANG K H, ZHU D Z, SUN J M, et al.Effects of different varieties and years on nutritional quality of peanut[J].The Food Industry, 2017, 38(1):149-151.
[31] 宋晓峰, 付春, 鲁成凯, 等.不同品种花生荚果自然干燥速率的研究[J].农业与技术, 2021, 41(4):4-6.
SONG X F, FU C, LU C K, et al.Study on natural drying rate of pod of different peanut varieties[J].Agriculture and Technology,2021, 41(4):4-6.
[32] 王传堂, 韩宏伟, 王志伟, 等.高油酸花生干燥过程中荚果脱水与回潮特性的研究[J].山东农业科学, 2021, 53(4):19-22.
WANG C T, HAN H W, WANG Z W, et al.Dehydration and moisture absorption properties of high-oleic peanut pods during drying[J].Shandong Agricultural Sciences, 2021, 53(4):19-22.
[33] 渠琛玲, 汪紫薇, 王雪珂, 等.基于低场核磁共振的热风干燥过程花生仁含水率预测模型[J].农业工程学报, 2019, 35(12):290-296.
QU C L, WANG Z W, WANG X K, et al.Prediction model of moisture in peanut kernel during hot air drying based on LF-NMR technology[J].Transactions of the Chinese Society of Agricultural Engineering, 2019, 35(12):290-296.
[34] QU C L, WANG Z W, JIN X B, et al.A moisture content prediction model for deep bed peanut drying using support vector regression[J].Journal of Food Process Engineering, 2020, 43(11).
[35] MAO S W, SRZEDNICKI G, DRISCOLL R H.Modeling of drying of selected varieties of Australian peanuts[J].Drying Technology, 2012, 30(16):1 890-1 895.
[36] 林茂, 赵景芳, 郑秀艳, 等.不同种皮颜色花生生品的营养、感官和品质的分析[J].分子植物育种, 2019, 17(5):1 647-1 657.
LIN M, ZHAO J F, ZHENG X Y, et al.Analysis of nutrition, sense and quality of peanut seed with different testa color[J].Molecular Plant Breeding, 2019, 17(5):1 647-1 657.
[37] NEPOTE V, OLMEDO R H, MESTRALLET M G, et al.A Study of the relationships among consumer acceptance, oxidation chemical indicators, and sensory attributes in high-oleic and normal peanuts[J].Journal of Food Science, 2009, 74(1):S1-S8.
[38] TALCOTT S T, PASSERETTI S, DUNCAN C E, et al.Polyphenolic content and sensory properties of normal and high oleic acid peanuts[J].Food Chemistry, 2005, 90(3):379-388.
[39] MARTÍN M P, GROSSO A L, NEPOTE V, et al.Sensory and chemical stabilities of high-oleic and normal-oleic peanuts in shell during long-term storage[J].Journal of Food Science, 2018, 83(9):2 362-2 368.
[40] RIVEROS C G, MESTRALLET M G, GAYOL M F, et al.Effect of storage on chemical and sensory profiles of peanut pastes prepared with high-oleic and normal peanuts[J].Journal of the Science of Food and Agriculture, 2010, 90(15):2 694-2 699.
[41] 刘玉兰, 舒垚, 孙国昊, 等.花生品种对花生酱风味及综合品质的影响[J].食品科学, 2021, 42(9):15-21.
LIU Y L, SHU Y, SUN G H, et al.Effects of different varieties of peanuts on the flavor and quality of peanut butter[J].Food Science, 2021, 42(9):15-21.
[42] 李淑荣, 王丽, 张春红, 等.烘烤花生中关键香味化合物的研究[J].中国农业科学, 2010, 43(15):3 199-3 203.
LI S R, WANG L, ZHANG C H, et al.Analysis of the key odorants of roasted peanut[J].Scientia Agricultura Sinica, 2010, 43(15):3 199-3 203.
[43] BAKER G L, CORNELL J A, GORBET D W, et al.Determination of pyrazine and flavor variations in peanut genotypes during roasting[J].Journal of Food Science, 2003, 68(1):394-400.
[44] 邱庆树, 李正超, 段淑芬.花生品质的影响因素研究Ⅰ.花生品种因素[J].花生学报, 2001(3):21-26.
QIU Q S, LI Z C, DUAN S F.Studies on the effect factors of peanut qualities Ⅰ.Peanut varieties[J].Journal of Peanut Science, 2001(3):21-26.
[45] 滕葳, 柳琪, 郭栋梁.花生主要营养物质含量的统计与分类分析[J].食品研究与开发, 2003(4):84-85.
TENG W, LIU Q, GUO D L.Statistics and classification analysis of main nutrients in peanut[J].Food Research and Development, 2003(4):84-85.
[46] AFOLABI O A, OJOFEITIMI E O, OKE O L.Chemical and clinical evaluation of groundnut-maize gruel mixture(‘Epa—ogr’) in the amelioration of protein energy malnutrition in the developing countries[J].Nutrition Reports International, 1989(38):621-628.
[47] ISLEIB T G, TILLMAN B L, PATTEE H E, et al.Genotype by environment interactions for seed composition traits of breeding lines in the uniform peanut performance test[J].Peanut Science, 2008, 35(2):130-138.
[48] 梁克红, 朱大洲, 孙君茂, 等.品种与产地因素对花生营养品质的影响[J].江苏农业科学, 2017, 45(17):73-76.
LIANG K H, ZHU D Z, SUN J M, et al.Effects of variety and origin factors on nutrient quality of peanut[J].Jiangsu Agricultural Sciences, 2017, 45(17):73-76.
[49] 杜琪, 赵新华, 耿雷跃, 等.不同干燥温度对花生营养品质和发芽特性的影响[J].核农学报, 2020, 34(10):2 254-2 260.
DU Q, ZHAO X H, GENG L Y, et al.Effects of different drying temperatures on the nutritional quality and germination characteristics of peanut after harvest[J].Journal of Nuclear Agricultural Sciences, 2020, 34(10):2 254-2 260.
[50] LIM H J, KIM D S, PAN J H, et al.Characterization of physicochemical and sensory attributes of a novel high-oleic peanut oil cultivar (Arachis hypogaea ssp.Fastigiata L.)[J].Applied Biological Chemistry, 2017, 60(6):653-657.
[51] 黄淑霞, 蔡静平, 高翔.不同花生品种储藏期间霉菌活动差异性初探[J].中国粮油学报, 2009, 24(12):114-117.
HUANG S X, CAI J P, GAO X.A primary study on mould action variety among peanut cultivars in storage[J].Journal of the Chinese Cereals and Oils Association, 2009, 24(12):114-117.
[52] 郑畅, 杨湄, 周琦, 等.高油酸花生油与普通油酸花生油的脂肪酸、微量成分含量和氧化稳定性[J].中国油脂, 2014, 39(11):40-43.
ZHENG C, YANG M, ZHOU Q, et al.Contents of fatty acid and minor component and oxidative stability of high-oleic peanut oil and normal-oleic peanut oil[J].China Oils and Fats, 2014, 39(11):40-43.
[53] GONG A N, SHI A M, LIU H Z, et al.Relationship of chemical properties of different peanut varieties to peanut butter storage stability[J].Journal of Integrative Agriculture, 2018, 17(5):1 003-1 010.
[54] 于丽娜, 张初署, 毕洁, 等.不同花生品种制作花生芽及营养成分分析[J].食品工业科技, 2017, 38(14):304-309.
YU L N, ZHANG C S, BI J, et al.Research of peanut sprout production by different varieties of peanut and its nutrition analysis[J].Science and Technology of Food Industry, 2017, 38(14):304-309.
[55] 卢映洁, 任广跃, 段续, 等.热风干燥过程中带壳鲜花生水分迁移特性及品质变化[J].食品科学, 2020, 41(7):86-92.
LU Y J, REN G Y, DUAN X, et al.Moisture migration properties and quality changes of fresh in-shell peanuts during hot air drying[J].Food Science, 2020, 41(7):86-92.
[56] 卢映洁, 任广跃, 段续, 等.基于温度梯度的带壳鲜花生热风干燥收缩模型研究[J].食品与机械, 2019, 35(8):148-154.
LU Y J, REN G Y, DUAN X, et al.Study on shrinkage model of fresh shelled peanuts by hot air drying based on temperature gradient[J].Food and Machinery, 2019, 35(8):148-154.
[57] 陈鹏枭, 王殿轩, 王晨光, 等.基于双组分结构的高油酸花生荚果干燥动力学研究[J].花生学报, 2021, 50(1):64-69.
CHEN P X, WANG D X, WANG C G, et al.Study on drying dynamics of high oleic peanut pod based on two-component structure[J].Journal of Peanut Science, 2021, 50(1):64-69.
[58] 凌铮铮, 任广跃, 段续, 等.间歇微波—热风耦合干燥花生工艺优化及品质研究[J].食品与机械, 2020, 36(10):183-189.
LING Z Z, REN G Y, DUAN X, et al.Research on process optimization and quality of intermittent microwave-hot air coupling drying peanut[J].Food and Machinery, 2020, 36(10):183-189.
[59] ZHU K Y, LI L L, REN G Y, et al.Efficient production of dried whole peanut fruits based on infrared assisted spouted bed drying[J].Foods, 2021, 10(10):2383.
[60] PEI Y S, LI Z F, SONG C F, et al.Effects of combined infrared and hot-air drying on ginsenosides and sensory properties of ginseng root slices (Panax ginseng Meyer)[J].Journal of Food Processing and Preservation, 2019, 44(1):e14312.
[61] BAGHERI H.Application of infrared heating for roasting nuts[J].Journal of Food Quality, 2020(4), 1-10.
[62] 王安建, 刘丽娜, 李顺峰.花生热风干燥特性及动力学模型[J].河南农业科学, 2014, 43(8):137-141.
WANG A J, LIU L N, LI S F.Hot air drying characteristics and dynamics model of peanut[J].Journal of Henan Agricultural Sciences, 2014, 43(8):137-141.
[63] 王安建, 高帅平, 田广瑞, 等.花生热泵干燥特性及动力学模型[J].农产品加工, 2015 (9):57-60.
WANG A J, GAO S P, TIAN G R, et al.Heat pump drying characteristics and dynamics model of peanut[J].Farm Products Processing, 2015(9):57-60.
[64] 周琦, 杨湄, 黄凤洪, 等.微波生产咸干花生的失水特性及工艺优化[J].食品科学, 2010, 31(4):63-67.
ZHOU Q, YANG M, HUANG F H, et al.Dehydration characteristics of microwave-treated peanut and optimization of microwave dehydration for production of dried salted peanut[J].Food Science, 2010, 31(4):63-67.
[65] 杨爱金, 刘璇, 毕金峰, 等.食品干燥过程中水分扩散特性的研究进展[J].食品与机械, 2012, 28(5):247-250.
YANG A J, LIU X, BI J F, et al.Research progress of moisture diffusion properties during food drying process[J].Food and Machinery, 2012, 28(5):247-250.
[66] NEWTON A E, FAIRBANKS A J, GOLDING M, et al.The role of the Maillard reaction in the formation of flavour compounds in dairy products-not only a deleterious reaction but also a rich source of flavour compounds[J].Food and Function, 2012, 3(12):1 231-1 241.
[67] 邢建荣, 夏其乐, 邵敏, 等.干燥工艺对带壳咸酥小京生花生品质的影响[J].保鲜与加工, 2005 (1):39.
XING J R, XIA Q L, SHAO M, et al.Effects of different methods of drying on quality of salty and crisp Xiaojingsheng peanut with shuck[J].Storage and Process, 2005 (1):39.
[68] 陈霖. 基于控温的花生微波干燥工艺[J].农业工程学报, 2011, 27(S2):267-271.
Chen Lin.Microwave drying technology of peanuts based on constant temperature[J].Transactions of the Chinese Society of Agricultural Engineering, 2011, 27(S2):267-271.
[69] KUMAR S, DEBNATH S, HEBBAR U H.Pulsed infrared roasting of groundnuts and its quality[J].International Journal of Food Engineering, 2009, 5(4):1-21.
[70] BAKER G L, SIMS C A, GORBET D A, et al.Storage water activity effect on oxidation and sensory properties of high-oleic peanuts[J].Journal of Food Science, 2002, 67(5):1 600-1 603.
[71] JIAO S S, ZHU D D, DENG Y, et al.Effects of hot air-assisted radio frequency heating on quality and shelf-life of roasted peanuts[J].Food and Bioprocess Technology, 2016, 9(2):308-319.
[72] BAGHERI H, KASHANINEJAD M, ZIAIIFAR A M, et al.Novel hybridized infrared-hot air method for roasting of peanut kernels[J].Innovative Food Science and Emerging Technologies, 2016(37):106-114.
[73] 王招招,杨慧,韩俊豪,等.花生果微波-热风耦合干燥实验研究[J].中国粮油学报,2021,36(1):155-164.
WANG Z Z, YANG H, HAN J H, et al.Experimental study on microwave-hot air coupled drying process for peanut pods[J].Journal of the Chinese Cereals and Oils Association, 2021,36(1):155-164.
[74] 王海鸥, 胡志超, 陈守江, 等.收获时期及干燥方式对花生品质的影响[J].农业工程学报, 2017, 33(22):292-300.
WANG H O, HU Z C, CHEN S J, et al.Effects of different harvesting dates and drying methods on peanut quality[J].Transactions of the Chinese Society of Agricultural Engineering, 2017, 33(22):292-300.
[75] QU C, WANG X, WANG Z, et al.Effect of drying temperatures on the peanut quality during hot air drying[J].Journal of Oleo Science, 2020, 69(5):403-412.
[76] QU C L, LI Z Z, YANG Q K, et al.Effect of drying methods on peanut quality during storage[J].Journal of Oleo Science, 2021, 71(1):57-66.
[77] 纵伟, 陈怡平.不同干燥方法对花生蛋白功能特性的影响[J].食品工程, 2007(3):48-50.
ZONG W, CHEN Y P.Effect of different drying methods on functional properties of peanut protein power[J].Food Engineering, 2007 (3):48-50.
[78] WANG R, ZHANG M, MUJUMDAR A S.Effects of vacuum and microwave freeze drying on microstructure and quality of potato slices[J].Journal of Food Engineering, 2010, 101(2):131-139.
[79] 朱凯阳, 任广跃, 段续, 等.不同干燥方式对新鲜花生营养成分、理化特性及能耗的影响[J].食品与发酵工业, 2022,48(15):230-236.
ZHU K Y, REN G Y, DUAN X, et al.Effects of different drying methods on nutrient composition, physicochemical properties and energy consumption of fresh peanut[J].Food and Fermentation Industries, 2022,48(15):230-236.
[80] 王童, 杨慧, 朱广成, 等.热风、微波及其联合干燥对花生营养特性及感官品质的影响[J].核农学报,2021,35(9):2 102-2 110.
WANG T,YANG H,ZHU G C,et al.Effects of hot air, microwave and combined drying on nutritional properties and sensory quality of peanut[J].Journal of Nuclear Agricultural Sciences, 2021,35(9):2 102-2 110.
[81] 张佳蕾. 不同品质类型花生品质形成差异的机理与调控[D].泰安:山东农业大学, 2013.
ZHANG J L.Mechanism of quality formation differences and regulation measures in different quality types of peanut[D].Taian:Shandong Agricultural University, 2013.