Exploring new drying technology can help to deal with the challenge of better preservation of rhizome medicinal materials in the traditional Chinese medicine industry.In current work,combined infrared and hot-air dryi...Exploring new drying technology can help to deal with the challenge of better preservation of rhizome medicinal materials in the traditional Chinese medicine industry.In current work,combined infrared and hot-air drying(IR-HAD)was employed to Panax notoginseng roots and its effect on drying kinetics,energy efficiency and quality,i.e.,rehydration ratio(RR),color parameters(L^(*),a^(*),b^(*)),total color difference(ΔE),Panax notoginseng saponins(PNS)content,and ginsenosides content(R_(1),R^(g1),R_(e),R_(d),R_(b1))were evaluated.Hot air drying(HAD)was used as the control.Results showed that the increase in drying temperature significantly shortened drying time and reduced energy consumption.The shortest drying time of 43.0 h and lowest specific energy consumption of 15.9 kW·h/(kg-water)were obtained by IR-HAD at 55°C.The decrease of radiation distance and the increase of radiation power led to the shortening of drying time.However,high drying temperature resulted in largeΔE values,large collapse structure,and RR of samples.The drying time of Panax notoginseng roots dried by IR-HAD at a drying temperature of 50°C was shorter(15.5%)than HAD dried at the same drying temperature.The contents of R_(1),R_(g1),R_(e),R_(b1),and PNS were higher when the samples were dried by IR-HAD than those dried by HAD at the same temperature of 50°C.Moreover,the IR-HAD dried samples shortened 15.5%drying time and saved 22.1%energy consumption compared with HAD.Therefore,the optimal process condition was Panax notoginseng roots under IR-HAD at drying temperature of 50°C,radiation distance of 12 cm and radiation power of 1350 W,which can shorten drying time,maintain high ginsenosides contents and satisfactory apparent qualities.展开更多
[目的]研究热风-真空冷冻联合干燥对脆性龙眼果干品质及益生活性的影响,为高品质龙眼果干工业化节能干燥模式提供理论依据.[方法]以热风干燥、真空冷冻干燥龙眼果干为对照,比较分析热风-真空冷冻联合干燥对脆性龙眼果干水分含量、水分...[目的]研究热风-真空冷冻联合干燥对脆性龙眼果干品质及益生活性的影响,为高品质龙眼果干工业化节能干燥模式提供理论依据.[方法]以热风干燥、真空冷冻干燥龙眼果干为对照,比较分析热风-真空冷冻联合干燥对脆性龙眼果干水分含量、水分活度、皱缩率、复水比等理化特性和总糖、多糖等营养品质的影响.同时采用GC-MS测定风味物质变化,电量表测定能源消耗量.并选用植物乳杆菌和嗜酸乳杆菌发酵龙眼果干,比较发酵过程中活菌数、总糖、还原糖以及短链脂肪酸的变化,评价热风-真空冷冻联合干燥对龙眼体外益生活性的影响.[结果]热风-真空冷冻联合干燥龙眼果干的水分含量、水分活度和皱缩率显著低于热风干燥,而复水比显著高于热风干燥.在总糖、多糖含量以及挥发性风味物质种类和总量上,热风-真空冷冻联合干燥低于真空冷冻干燥而高于热风干燥.在能源消耗上,热风-真空冷冻联合干燥比真空冷冻干燥节约干燥时间12.16%,节约单位能耗25.40%.在益生活性方面,植物乳杆菌和嗜酸乳杆菌均能通过发酵龙眼干增加活菌数量,利用龙眼干中的总糖产生短链脂肪酸,降低发酵液pH,且益生效果受干燥方式和菌株种类的影响较大.当植物乳杆菌发酵热风-真空冷冻干燥的龙眼果干48 h后,活菌数生长最多可达12.40 lg cfu/mL,高于真空冷冻干燥、热风干燥和新鲜龙眼.嗜酸乳杆菌发酵48 h后,热风-真空冷冻联合干燥活菌数达11.84 lg cfu/mL,与真空冷冻干燥接近,低于热风干燥,但高于新鲜龙眼.[结论]热风-真空冷冻联合干燥结合了热风干燥和真空冷冻干燥两种干燥方式的特点,可以显著缩短干燥时间,节约能耗,提高干燥效率和果干品质.展开更多
根据牛肉红外吸收光谱图,选择牛肉干中红外-热风组合(combined mid-infrared and hot air,CMIHA)干燥的红外波长条件下进行干燥,并与传统热风(hot air,HA)干燥比较,研究CMIHA与HA的干燥特性;通过优化加热距离分别为8、12、16 cm的最佳...根据牛肉红外吸收光谱图,选择牛肉干中红外-热风组合(combined mid-infrared and hot air,CMIHA)干燥的红外波长条件下进行干燥,并与传统热风(hot air,HA)干燥比较,研究CMIHA与HA的干燥特性;通过优化加热距离分别为8、12、16 cm的最佳干燥模型及基于Visual Basic(VB)软件对模型进行编程,建立CMIHA干燥牛肉干水分快速预测模型。结果表明:与HA干燥相比,CMIHA干燥能够显著提高牛肉干干燥过程中内部温度、外部温度以及内外温差(P<0.05),进而显著降低耗时、耗能(P<0.05);此外,Modified Henderson and Pabis模型为CMIHA干燥牛肉干最优模型(R2>0.999),同时CMIHA干燥牛肉干水分预测模型能够很好地预测牛肉干干燥过程中的水分含量,其预测值和实测值间R2均大于0.997。展开更多
Hot air(HA)drying of banana has low drying efficiency and results in undesirable product quality.The objectives of this research were to investigate the feasibility of infrared(IR)heating to improve banana drying rate...Hot air(HA)drying of banana has low drying efficiency and results in undesirable product quality.The objectives of this research were to investigate the feasibility of infrared(IR)heating to improve banana drying rate,evaluate quality of the dried product,and establish models for predicting drying characteristics.Banana slices of 5 mm and 8 mm thickness were dried with IR and HA at product temperatures of 60℃,70℃ and 80℃.Banana drying characteristics and changes in residual polyphenol oxidase(PPO),Hydroxymethylfurfural(HMF),color,moisture content(MC)and water activity during the treatments were investigated.Results showed that significant moisture reduction and higher drying rates were achieved with IR drying compared to HA drying in the early stage.The drying data could be fitted to the Page model for accurate prediction of MC change for IR and HA drying with mean R2 of 0.983.It was noted that enzyme inactivation occurred more quickly with IR than with HA drying.A unique response of PPO under IR and HA drying was revealed.IR heating of banana inactivated PPO within the first 20 min of drying at 60℃,70℃ and 80℃,while PPO was first activated before inactivation at 60℃ and 70℃ drying with HA.The highest HMF content occurred in banana slices with 5 mm thickness dried with IR at a product temperature of 80℃.It is therefore recommendable to dry banana with IR at product temperature of 70℃ or below to preserve the product quality.These findings are new and provide more insight in the application of IR heating for drying banana for improved drying rate and product quality.展开更多
文摘Exploring new drying technology can help to deal with the challenge of better preservation of rhizome medicinal materials in the traditional Chinese medicine industry.In current work,combined infrared and hot-air drying(IR-HAD)was employed to Panax notoginseng roots and its effect on drying kinetics,energy efficiency and quality,i.e.,rehydration ratio(RR),color parameters(L^(*),a^(*),b^(*)),total color difference(ΔE),Panax notoginseng saponins(PNS)content,and ginsenosides content(R_(1),R^(g1),R_(e),R_(d),R_(b1))were evaluated.Hot air drying(HAD)was used as the control.Results showed that the increase in drying temperature significantly shortened drying time and reduced energy consumption.The shortest drying time of 43.0 h and lowest specific energy consumption of 15.9 kW·h/(kg-water)were obtained by IR-HAD at 55°C.The decrease of radiation distance and the increase of radiation power led to the shortening of drying time.However,high drying temperature resulted in largeΔE values,large collapse structure,and RR of samples.The drying time of Panax notoginseng roots dried by IR-HAD at a drying temperature of 50°C was shorter(15.5%)than HAD dried at the same drying temperature.The contents of R_(1),R_(g1),R_(e),R_(b1),and PNS were higher when the samples were dried by IR-HAD than those dried by HAD at the same temperature of 50°C.Moreover,the IR-HAD dried samples shortened 15.5%drying time and saved 22.1%energy consumption compared with HAD.Therefore,the optimal process condition was Panax notoginseng roots under IR-HAD at drying temperature of 50°C,radiation distance of 12 cm and radiation power of 1350 W,which can shorten drying time,maintain high ginsenosides contents and satisfactory apparent qualities.
文摘[目的]研究热风-真空冷冻联合干燥对脆性龙眼果干品质及益生活性的影响,为高品质龙眼果干工业化节能干燥模式提供理论依据.[方法]以热风干燥、真空冷冻干燥龙眼果干为对照,比较分析热风-真空冷冻联合干燥对脆性龙眼果干水分含量、水分活度、皱缩率、复水比等理化特性和总糖、多糖等营养品质的影响.同时采用GC-MS测定风味物质变化,电量表测定能源消耗量.并选用植物乳杆菌和嗜酸乳杆菌发酵龙眼果干,比较发酵过程中活菌数、总糖、还原糖以及短链脂肪酸的变化,评价热风-真空冷冻联合干燥对龙眼体外益生活性的影响.[结果]热风-真空冷冻联合干燥龙眼果干的水分含量、水分活度和皱缩率显著低于热风干燥,而复水比显著高于热风干燥.在总糖、多糖含量以及挥发性风味物质种类和总量上,热风-真空冷冻联合干燥低于真空冷冻干燥而高于热风干燥.在能源消耗上,热风-真空冷冻联合干燥比真空冷冻干燥节约干燥时间12.16%,节约单位能耗25.40%.在益生活性方面,植物乳杆菌和嗜酸乳杆菌均能通过发酵龙眼干增加活菌数量,利用龙眼干中的总糖产生短链脂肪酸,降低发酵液pH,且益生效果受干燥方式和菌株种类的影响较大.当植物乳杆菌发酵热风-真空冷冻干燥的龙眼果干48 h后,活菌数生长最多可达12.40 lg cfu/mL,高于真空冷冻干燥、热风干燥和新鲜龙眼.嗜酸乳杆菌发酵48 h后,热风-真空冷冻联合干燥活菌数达11.84 lg cfu/mL,与真空冷冻干燥接近,低于热风干燥,但高于新鲜龙眼.[结论]热风-真空冷冻联合干燥结合了热风干燥和真空冷冻干燥两种干燥方式的特点,可以显著缩短干燥时间,节约能耗,提高干燥效率和果干品质.
文摘根据牛肉红外吸收光谱图,选择牛肉干中红外-热风组合(combined mid-infrared and hot air,CMIHA)干燥的红外波长条件下进行干燥,并与传统热风(hot air,HA)干燥比较,研究CMIHA与HA的干燥特性;通过优化加热距离分别为8、12、16 cm的最佳干燥模型及基于Visual Basic(VB)软件对模型进行编程,建立CMIHA干燥牛肉干水分快速预测模型。结果表明:与HA干燥相比,CMIHA干燥能够显著提高牛肉干干燥过程中内部温度、外部温度以及内外温差(P<0.05),进而显著降低耗时、耗能(P<0.05);此外,Modified Henderson and Pabis模型为CMIHA干燥牛肉干最优模型(R2>0.999),同时CMIHA干燥牛肉干水分预测模型能够很好地预测牛肉干干燥过程中的水分含量,其预测值和实测值间R2均大于0.997。
文摘Hot air(HA)drying of banana has low drying efficiency and results in undesirable product quality.The objectives of this research were to investigate the feasibility of infrared(IR)heating to improve banana drying rate,evaluate quality of the dried product,and establish models for predicting drying characteristics.Banana slices of 5 mm and 8 mm thickness were dried with IR and HA at product temperatures of 60℃,70℃ and 80℃.Banana drying characteristics and changes in residual polyphenol oxidase(PPO),Hydroxymethylfurfural(HMF),color,moisture content(MC)and water activity during the treatments were investigated.Results showed that significant moisture reduction and higher drying rates were achieved with IR drying compared to HA drying in the early stage.The drying data could be fitted to the Page model for accurate prediction of MC change for IR and HA drying with mean R2 of 0.983.It was noted that enzyme inactivation occurred more quickly with IR than with HA drying.A unique response of PPO under IR and HA drying was revealed.IR heating of banana inactivated PPO within the first 20 min of drying at 60℃,70℃ and 80℃,while PPO was first activated before inactivation at 60℃ and 70℃ drying with HA.The highest HMF content occurred in banana slices with 5 mm thickness dried with IR at a product temperature of 80℃.It is therefore recommendable to dry banana with IR at product temperature of 70℃ or below to preserve the product quality.These findings are new and provide more insight in the application of IR heating for drying banana for improved drying rate and product quality.