The mycotoxin, patulin (4-hydroxy-4H-furo [3, 2c] pyran-2 [6H]-one), is produced by a number of fungi common to fruit and vegetable-based products, most notably apples. Patulin contamination within apple products po...The mycotoxin, patulin (4-hydroxy-4H-furo [3, 2c] pyran-2 [6H]-one), is produced by a number of fungi common to fruit and vegetable-based products, most notably apples. Patulin contamination within apple products poses a serious health risk to consumers. Studies done on laboratory animals have demonstrated that patulin has a broad spectrum of toxicity, including mutagen city and carcinogenicity. The aim of the experiment was studying influence of selectively acting activated carbon powder--Ercarbon SH (Erbsloh, Germany) which is special produced for lowering HMF (hydroxy methyl furfural), on reduction of patulin content in clear apple juice. Industrial apple row material with some damaged parts was pressed, juice was pasteurized at 95 ℃ during 2 min. After cooling on 55 ℃, enzymatic treated and clarified juice were filtered by 0.45 [am pore sizes membrane filter, Apple clear juice sample was divided for five parts. The samples of apple juice were diluted to 11.5° Brix and contacted with concentrations of 2, 2.5, 3 and 3.5 g/L activated carbon powder for 30 min. After filtration in the experimental samples, putulin was quantitatively determined by HPLC (high performance liquid chromatography with UV) detector at 276 nm. The research revealed that the best results were achieved by treatment with activated carbon in its powder form at concentration of 2.5 g/L with 30 min contact time.展开更多
This paper is dedicated to results of studying microbiological, physico-chemical and organoleptical parameters of apple juice processed by shungite. Shungite is a natural mineral which has special structural compositi...This paper is dedicated to results of studying microbiological, physico-chemical and organoleptical parameters of apple juice processed by shungite. Shungite is a natural mineral which has special structural composition, characterized by the existence of fullerenes and nanotubes. This paper explains the methods applied by the authors to prepare shungite for experimental research, to process apple juice by adsorbent, to determine the quantity of microorganisms in juice after it interacted with shungite, weight percentage of dissolvable dry solids, active acidity and quality parameters. In juice, processed by shungite, bacteria, fungi and yeast were detected. The authors made a comparison between microbial population in juice before and after its interaction with shungite. The paper refers to method under which shungite adsorbs bacteria, fungi and yeasts. The authors presented the results of studying dry solids content, active acidity of apple juice, processed by shungite at various temperatures and conducted assessment of apple juice quality after its interaction with sorbent. Through their research, the authors established rational parameters of apple juice processed by shungite under which the maximum reduction of microbial insemination is reached. The research proved that after apple juice interacts with shungite, its dry solids content and active acidity level remain unchanged. This paper confirmed high quality parameters of apple juice processed by shungite. Taking into account the obtained results, the authors concluded that use of shungite to process apple juice does not require expensive equipment, complex maintenance of the processing procedure, which reduce the cost value of a manufactured product.展开更多
Despite many advantages, the many technologies studied to eliminate astringen</span><span style="font-family:Verdana;">cy from cashew apple juice are not all accessible and not adopted by pr</...Despite many advantages, the many technologies studied to eliminate astringen</span><span style="font-family:Verdana;">cy from cashew apple juice are not all accessible and not adopted by pr</span><span style="font-family:Verdana;">ocessors due to the lack of financial means to access these sophisticated technologies. Thus, the formulation of mixed juice based on cashew apple juice and passion fruit juice has proved to be a way of adding value to the cashew apple, a co-product of the production of the nut. After the formulation of the mixed juice in different proportions and the sensory evaluation, it appears that the juice of formulation E is more appreciated by the tasters. Indeed, this juice has preferred sensory characteristics in terms of color (6.90), flavor (5.47), odor (6.42), settling (6.28) and overall acceptance (6.53). These characteristics are similar to those of passion fruit juice in terms of color, odor, and overall acceptance, where the latter obtained scores of 6.94, 7.17 an</span><span style="font-family:Verdana;">d 6.00 respectively;and also, to those of cashew apple juice in terms of f</span><span style="font-family:Verdana;">la</span><span style="font-family:Verdana;">vor and decanting, where the latter obtained scores of 5.19 and 6.14 respe</span><span style="font-family:Verdana;">ctively. Therefore, the addition of passion fruit juice to cashew apple juice results in a new product that is more appreciated when mixed with proportions of 90 mL of passion fruit juice and 10 mL of cashew apple juice. For exam</span><span style="font-family:Verdana;">ple, passion fruit juice, due to its color, flavor, and odor, has helped re</span><span style="font-family:Verdana;">duce the pronounced astringency of raw cashew apple juice. Ultimately, formulation E is recommended to improve the organoleptic value of cashew apple juice.展开更多
Chitosan is a good flocculant. The paper deals with the clarification of apple juice by means of chitosan. The results showed that the transmittance was over 97 % and soluble solid content was stable basically , under...Chitosan is a good flocculant. The paper deals with the clarification of apple juice by means of chitosan. The results showed that the transmittance was over 97 % and soluble solid content was stable basically , under the technological condition of chitosan of 0. 5 -1. 2 g L-1, temperature of 45 - 55℃ and pH 4.5. After the orthogonal trial, the optimum technological conditions of apple juice clarification by using chitosan were 0.3 g L-1 chitosan, 45℃ and pH 4. 5. The research of the apple juice clarification with chitosan made a basis of the application of chitosan and provided the theoretical basis for the clarification of apple juice with chitosan.展开更多
[Objective] The study aimed to determine the formula and production process of apple clear juice beverage. [Method] Concentrated apple juice was used as the raw material in this experiment, apple clear juice beverage ...[Objective] The study aimed to determine the formula and production process of apple clear juice beverage. [Method] Concentrated apple juice was used as the raw material in this experiment, apple clear juice beverage was produced through dilution, blending, color protection, sterilization and other key processes. By using orthogonal test, the best formula of the apple clear juice beverage was determined, and then the color protection effects of three color protection agents Cys, NaHSO3 and Vc on the apple clear juice beverage were compared. [ Result] The best formula of the apple clear juice beverage was composed of 0.15% citric acid, 0.20% sodium citrate, 0.06% tannic acid, 6% white sugar and 16% concentrated apple juice. Besides, there was a big difference among the three kinds of color protection agents ( Cys, NaHSO3 and Vc ) in the color protection effects on the apple clear juice beverage. Considering the quality safety of the product, 0.60% Vc was chosen as the best color protection a.clent. I- Conclusionl The research could provide theoretical references for using concentrated aDDle juice to produce aDDle clear iuice beveraae.展开更多
In Africa, the number of undernourished people is increasing at an alarming rate. However, fruits play an important role in humans, especially as a source of vitamins and minerals. In Senegal, there is research on the...In Africa, the number of undernourished people is increasing at an alarming rate. However, fruits play an important role in humans, especially as a source of vitamins and minerals. In Senegal, there is research on the nut, but no attention given to the cashew apple. The present study contributes to the evaluation of the physicochemical and biochemical properties of cashew apple juice from the eco-geographical area of Casamance, in southern Senegal. The plant material consists of cashew apples collected in June 2021 from 120 cashew trees. Three batches were constituted for this purpose, taking into account the colour of the apples (red, yellow, and orange). AFNOR standardised methods were used for the physicochemical and biochemical characterisation of cashew apple juice. The dry extract, dry matter, and ash content of the red, yellow, and orange varieties ranged from 14 to 14.70 °Brix;12.96% to 14.17%, and 0.24 to 0.35 g/100g respectively. The multivariate analysis of variance by permutation allowed us to identify two groups of cashew apples. The first group, consisting of orange cashew apples, had the best nutritional quality and was very rich in total minerals (0.35 g/100g) and reducing sugars (18.69 mg/100g). The second group, made up of red and yellow apples, is particularly rich in protein (0.52 g/100ml) and antioxidants (43.28% in IP). Antioxidant power is positively correlated with total phenolic content (r = 0.99). Cashew co-products have a high nutritional value and a considerable economic issue.展开更多
The peel of Citrus changshan-huyou, coupled with wheat bran, could be utilized by Aspergillus niger P-6021 in slurry-state fermentation to produce pectinase with suitable enzyme composition for application in apple ju...The peel of Citrus changshan-huyou, coupled with wheat bran, could be utilized by Aspergillus niger P-6021 in slurry-state fermentation to produce pectinase with suitable enzyme composition for application in apple juice processing. The production of pectinase is improved by additional nitrogen source substances and mineral supplements. The ratio of carbon source substances to nitrogen source substances in the medium also has significant effect on the pectinase production by A. niger P-6021 in slurry-state fermentation. In the optimized medium composition, the maximal enzyme activity could reach 42 U.L^- 1 (polymethylgalacturonase), 6.7 U.L^- 1 (polymethygalacturatesterase), and 4.3 U.L^-1 (polymethylgalacturonate lyase), respectively, after 3 days at 180 r.min^- 1 and 30℃. The crude pectinase shows significant effect to improve the yield and clarification of apple juice. Keywords Aspergillus niger, slurry-state fermentation, pectinase, Citrus changshan-huyou, apple juice展开更多
文摘The mycotoxin, patulin (4-hydroxy-4H-furo [3, 2c] pyran-2 [6H]-one), is produced by a number of fungi common to fruit and vegetable-based products, most notably apples. Patulin contamination within apple products poses a serious health risk to consumers. Studies done on laboratory animals have demonstrated that patulin has a broad spectrum of toxicity, including mutagen city and carcinogenicity. The aim of the experiment was studying influence of selectively acting activated carbon powder--Ercarbon SH (Erbsloh, Germany) which is special produced for lowering HMF (hydroxy methyl furfural), on reduction of patulin content in clear apple juice. Industrial apple row material with some damaged parts was pressed, juice was pasteurized at 95 ℃ during 2 min. After cooling on 55 ℃, enzymatic treated and clarified juice were filtered by 0.45 [am pore sizes membrane filter, Apple clear juice sample was divided for five parts. The samples of apple juice were diluted to 11.5° Brix and contacted with concentrations of 2, 2.5, 3 and 3.5 g/L activated carbon powder for 30 min. After filtration in the experimental samples, putulin was quantitatively determined by HPLC (high performance liquid chromatography with UV) detector at 276 nm. The research revealed that the best results were achieved by treatment with activated carbon in its powder form at concentration of 2.5 g/L with 30 min contact time.
文摘This paper is dedicated to results of studying microbiological, physico-chemical and organoleptical parameters of apple juice processed by shungite. Shungite is a natural mineral which has special structural composition, characterized by the existence of fullerenes and nanotubes. This paper explains the methods applied by the authors to prepare shungite for experimental research, to process apple juice by adsorbent, to determine the quantity of microorganisms in juice after it interacted with shungite, weight percentage of dissolvable dry solids, active acidity and quality parameters. In juice, processed by shungite, bacteria, fungi and yeast were detected. The authors made a comparison between microbial population in juice before and after its interaction with shungite. The paper refers to method under which shungite adsorbs bacteria, fungi and yeasts. The authors presented the results of studying dry solids content, active acidity of apple juice, processed by shungite at various temperatures and conducted assessment of apple juice quality after its interaction with sorbent. Through their research, the authors established rational parameters of apple juice processed by shungite under which the maximum reduction of microbial insemination is reached. The research proved that after apple juice interacts with shungite, its dry solids content and active acidity level remain unchanged. This paper confirmed high quality parameters of apple juice processed by shungite. Taking into account the obtained results, the authors concluded that use of shungite to process apple juice does not require expensive equipment, complex maintenance of the processing procedure, which reduce the cost value of a manufactured product.
文摘Despite many advantages, the many technologies studied to eliminate astringen</span><span style="font-family:Verdana;">cy from cashew apple juice are not all accessible and not adopted by pr</span><span style="font-family:Verdana;">ocessors due to the lack of financial means to access these sophisticated technologies. Thus, the formulation of mixed juice based on cashew apple juice and passion fruit juice has proved to be a way of adding value to the cashew apple, a co-product of the production of the nut. After the formulation of the mixed juice in different proportions and the sensory evaluation, it appears that the juice of formulation E is more appreciated by the tasters. Indeed, this juice has preferred sensory characteristics in terms of color (6.90), flavor (5.47), odor (6.42), settling (6.28) and overall acceptance (6.53). These characteristics are similar to those of passion fruit juice in terms of color, odor, and overall acceptance, where the latter obtained scores of 6.94, 7.17 an</span><span style="font-family:Verdana;">d 6.00 respectively;and also, to those of cashew apple juice in terms of f</span><span style="font-family:Verdana;">la</span><span style="font-family:Verdana;">vor and decanting, where the latter obtained scores of 5.19 and 6.14 respe</span><span style="font-family:Verdana;">ctively. Therefore, the addition of passion fruit juice to cashew apple juice results in a new product that is more appreciated when mixed with proportions of 90 mL of passion fruit juice and 10 mL of cashew apple juice. For exam</span><span style="font-family:Verdana;">ple, passion fruit juice, due to its color, flavor, and odor, has helped re</span><span style="font-family:Verdana;">duce the pronounced astringency of raw cashew apple juice. Ultimately, formulation E is recommended to improve the organoleptic value of cashew apple juice.
文摘Chitosan is a good flocculant. The paper deals with the clarification of apple juice by means of chitosan. The results showed that the transmittance was over 97 % and soluble solid content was stable basically , under the technological condition of chitosan of 0. 5 -1. 2 g L-1, temperature of 45 - 55℃ and pH 4.5. After the orthogonal trial, the optimum technological conditions of apple juice clarification by using chitosan were 0.3 g L-1 chitosan, 45℃ and pH 4. 5. The research of the apple juice clarification with chitosan made a basis of the application of chitosan and provided the theoretical basis for the clarification of apple juice with chitosan.
基金Supported by the Project for Scientific and Technical Personnel ServingEnterprises of Ministry of Science and Technology, China( 2009GJG10050)
文摘[Objective] The study aimed to determine the formula and production process of apple clear juice beverage. [Method] Concentrated apple juice was used as the raw material in this experiment, apple clear juice beverage was produced through dilution, blending, color protection, sterilization and other key processes. By using orthogonal test, the best formula of the apple clear juice beverage was determined, and then the color protection effects of three color protection agents Cys, NaHSO3 and Vc on the apple clear juice beverage were compared. [ Result] The best formula of the apple clear juice beverage was composed of 0.15% citric acid, 0.20% sodium citrate, 0.06% tannic acid, 6% white sugar and 16% concentrated apple juice. Besides, there was a big difference among the three kinds of color protection agents ( Cys, NaHSO3 and Vc ) in the color protection effects on the apple clear juice beverage. Considering the quality safety of the product, 0.60% Vc was chosen as the best color protection a.clent. I- Conclusionl The research could provide theoretical references for using concentrated aDDle juice to produce aDDle clear iuice beveraae.
文摘In Africa, the number of undernourished people is increasing at an alarming rate. However, fruits play an important role in humans, especially as a source of vitamins and minerals. In Senegal, there is research on the nut, but no attention given to the cashew apple. The present study contributes to the evaluation of the physicochemical and biochemical properties of cashew apple juice from the eco-geographical area of Casamance, in southern Senegal. The plant material consists of cashew apples collected in June 2021 from 120 cashew trees. Three batches were constituted for this purpose, taking into account the colour of the apples (red, yellow, and orange). AFNOR standardised methods were used for the physicochemical and biochemical characterisation of cashew apple juice. The dry extract, dry matter, and ash content of the red, yellow, and orange varieties ranged from 14 to 14.70 °Brix;12.96% to 14.17%, and 0.24 to 0.35 g/100g respectively. The multivariate analysis of variance by permutation allowed us to identify two groups of cashew apples. The first group, consisting of orange cashew apples, had the best nutritional quality and was very rich in total minerals (0.35 g/100g) and reducing sugars (18.69 mg/100g). The second group, made up of red and yellow apples, is particularly rich in protein (0.52 g/100ml) and antioxidants (43.28% in IP). Antioxidant power is positively correlated with total phenolic content (r = 0.99). Cashew co-products have a high nutritional value and a considerable economic issue.
文摘The peel of Citrus changshan-huyou, coupled with wheat bran, could be utilized by Aspergillus niger P-6021 in slurry-state fermentation to produce pectinase with suitable enzyme composition for application in apple juice processing. The production of pectinase is improved by additional nitrogen source substances and mineral supplements. The ratio of carbon source substances to nitrogen source substances in the medium also has significant effect on the pectinase production by A. niger P-6021 in slurry-state fermentation. In the optimized medium composition, the maximal enzyme activity could reach 42 U.L^- 1 (polymethylgalacturonase), 6.7 U.L^- 1 (polymethygalacturatesterase), and 4.3 U.L^-1 (polymethylgalacturonate lyase), respectively, after 3 days at 180 r.min^- 1 and 30℃. The crude pectinase shows significant effect to improve the yield and clarification of apple juice. Keywords Aspergillus niger, slurry-state fermentation, pectinase, Citrus changshan-huyou, apple juice
