[Objective] The aim was to research property of maca and three plants' powders and process parameters of compound maca direct compression. [Method] Based on analysis data from SAS, bulk density, tap density, angle of...[Objective] The aim was to research property of maca and three plants' powders and process parameters of compound maca direct compression. [Method] Based on analysis data from SAS, bulk density, tap density, angle of repose and swelling of powders were studied as per single factor method and orthogonal exper- imental design. [Result] The test indicated that fillibilities of plant A and B, and maca powders are better and flowability plays an important role in fractional close of compound maca powder; plant A and B powders have a significant effect on bulk density of maca (P=0.0125), an extremely significant effect on swelling volume ratio (P=0.008 9) and little effect on tap density (g/ml); the optimal process condition of compound maca powder is as follows: A at 0.15 share; B at 0.10 share; C at 0.05 share; the optimal swelling volume ratio is at 2.459. [Conclusion] The technology is reasonable in formulation and satisfactory in fillibility, swelling ability, flowability, and it could serve as theoretical basis for the industrial production of maca tablets.展开更多
Approximately one quarter of the global edible food supply is wasted. The drivers of food waste can occur at any level between production, harvest, distribution, processing, and the consumer. While the drivers vary gl...Approximately one quarter of the global edible food supply is wasted. The drivers of food waste can occur at any level between production, harvest, distribution, processing, and the consumer. While the drivers vary globally, the industrialized regions of North America, Europe, and Asia share similar situations; in each of these regions the largest loss of food waste occurs with the consumer, at approximately 51% of total waste generated. As a consequence, handling waste falls on municipal solid waste operations. In the United States, food waste constitutes 15% of the solid waste stream by weight, contributes 3.4 -107 t of carbon dioxide (CO2) equivalent emissions, and costs 1.9 billion USD in disposal fees. The levels of carbon, nutrients, and moisture in food waste make bioprocessing into higher value products an attractive method for mitigation. Opportunities include extraction of nutraceuticals and bioactive compounds, or conversion to a variety of volatile acids-including lactic, acetic, and propionic acids-that can be recovered and sold at a profit. The conversion of waste into volatile acids can be paired with bioen- ergy production, including hydrogen or biogas. This present review compares the potential for upgrading industrial food waste to either specialty products or methane. Higher value uses of industrial food waste could alleviate approximately 1.9-108 t of CO2 equivalent emissions. As an example, potato peel could be upgraded to lactic acid via fermentation to recover 5600 million USD per year, or could be converted to methane via anaerobic digestion, resulting in a revenue of 900 million USD per year. The potential value to be recovered is significant, and food-waste valorization will help to close the loop for various food industries.展开更多
Alginate is a widely used polymer matrix in food industry since it allows formation of spherical, soft, and strong membranes adequate for encapsulation of a large amount of products, including food. The flow rate of a...Alginate is a widely used polymer matrix in food industry since it allows formation of spherical, soft, and strong membranes adequate for encapsulation of a large amount of products, including food. The flow rate of alginate solutions and the permeability of the capsules were evaluated within an acidic-low acidic pH range and different alginate concentrations. In solutions adjusted at different pH (3.0 to 7.0) with concentrations of alginate of 0.8, 1.0, and 1.2% w/v, flow rates at 20 ℃ were 6.95 to 10.00, 4.54-5.35, and 2.60-2.80 mL sl, respectively. Permeability of the capsules was evaluated in terms of the diffusion of H+ions (expressed as pH) and soluble solids (~Brix). Meanwhile both diffusions were minor at 4.0 〈 pH 〈 7.0 and were significantly superior at more acidic pH (P 〈 0.05), alginate concentration did not present significant effect. Yellow, purple, and red juices from Stenocereus spp. fruits (pitayas) were encapsulated using 1.0% of alginate and stored with isotonic solution (3 mL g^-1) at 4 ℃ in the dark. The capsules were spherical with diameter between 4.59 and 470 mm, weight from 82.60 to 97.50 rag, and volume of 0.075-0.098 mL. Pigment (total betalains content) diffusion reached equilibrium at 24 h of storage, at which point retentions of total betalains in the yellow, purple, and red capsules were 87.79, 96.13, and 85.13%, respectively. Also, changes in the color of the capsules were observed during storage.展开更多
The essential oil and gum of Pistachia lentiscus var. Chia, commonly known as the mastic gum tree, are natural antioxidant and antimicrobial agents that have found extensive uses in food, beverages and medicine in rec...The essential oil and gum of Pistachia lentiscus var. Chia, commonly known as the mastic gum tree, are natural antioxidant and antimicrobial agents that have found extensive uses in food, beverages and medicine in recent years. In this work, the chemical composition of the hydro-distilled essential oil of mastic gum was evaluated by GC-MS (gas chromatography-mass spectrometry) technique and the majority of their components were identified. Twenty nine different compounds were identified and quantified. The gum oil contained monoterpene, hydrocarbons, sesquitepenes, and also oxygen-containing monoterpenes. The main constituents of the gum oil are ct-pinene which follow β-pinene and β-myrcene. Essential oil of mastic gum is valuable product in food industries and in folklore medicine due to its antimicrobial and antimutagenic activity. The aim of this study was to evaluate the principal congeners of these valuable natural "resin tears" of the tree which are used in flavoring liquors, food, pharmaceutical and cosmetic industries.展开更多
Amylose is a food starch found in cereals, legumes and root vegetables. Keeping in view the importance of amylose for various food industries as well as its importance on domestic level, the current study was conducte...Amylose is a food starch found in cereals, legumes and root vegetables. Keeping in view the importance of amylose for various food industries as well as its importance on domestic level, the current study was conducted to analyze the amylose content of common cereals e. g rice (sela, coarse and basmati), maize yellow, Kisan and Azam varieties and wheat (Tatara, Fakhr-e-sarhad and Bakhtawar-92) varieties as well as quantifying the influence of cooking/boiling procedures on the amylose contents of cereals. The maximum amylose content were observed for wheat variety Tatara (24.28%) followed by Bakhtawar-92 (22.74%) and Fakhr-e-sarhad (19.77%). Among maize and rice varieties studied, Kisan and course rice were rich in amylose content with values of 27.19 and 30.48% respectively. The chapti of Tatra wheat were scored highest for appearance (7.6), flavor (7.5), texture (7.6) and overall acceptability (7.55). The roti of Kisan and Azam varieties got maximum appearance score of 7.6 as compared to 7.4 for maize yellow variety. Basmati rice was scored highest regarding appearance (8.4), flavor (8.6), texture (8.6) and overall acceptability (8.53. The moisture content ranged from 10.61 (Azam) to 8.01% (wheat variety Fakhr-e-sarhad). Cooking reduced the amylose content of wheat bread from (19.77%-24.28%) to (15.47%-15.94%) with cooking time of 5 min, maize bread from (21.48%-27.19%) to (19.53 %-25.85%) with maximum cooking time of 10 min and boiled rice from (24.90%-30.48%) to (24.18%-30.19%) with cooking time ranging from 12 to 20 min. It can be inferred from these studies that the reduction in amylose content were more in chapti/roti preparation of wheat and maize varieties as compared to boiling of rice varieties and that significant varietals differences exist in amylose content of the uncooked samples.展开更多
基金Supported by Special Funds of National Technological and Basic Work(2006FY110700)Yunnan Province Improvement Project(2007C0219Z)Special Funds of Biological Industry of Yunnan Financial Development([2011]274)~~
文摘[Objective] The aim was to research property of maca and three plants' powders and process parameters of compound maca direct compression. [Method] Based on analysis data from SAS, bulk density, tap density, angle of repose and swelling of powders were studied as per single factor method and orthogonal exper- imental design. [Result] The test indicated that fillibilities of plant A and B, and maca powders are better and flowability plays an important role in fractional close of compound maca powder; plant A and B powders have a significant effect on bulk density of maca (P=0.0125), an extremely significant effect on swelling volume ratio (P=0.008 9) and little effect on tap density (g/ml); the optimal process condition of compound maca powder is as follows: A at 0.15 share; B at 0.10 share; C at 0.05 share; the optimal swelling volume ratio is at 2.459. [Conclusion] The technology is reasonable in formulation and satisfactory in fillibility, swelling ability, flowability, and it could serve as theoretical basis for the industrial production of maca tablets.
基金supported by Hatch Fund (IND010677)the Department of Agricultural and Biological Engineering at Purdue University
文摘Approximately one quarter of the global edible food supply is wasted. The drivers of food waste can occur at any level between production, harvest, distribution, processing, and the consumer. While the drivers vary globally, the industrialized regions of North America, Europe, and Asia share similar situations; in each of these regions the largest loss of food waste occurs with the consumer, at approximately 51% of total waste generated. As a consequence, handling waste falls on municipal solid waste operations. In the United States, food waste constitutes 15% of the solid waste stream by weight, contributes 3.4 -107 t of carbon dioxide (CO2) equivalent emissions, and costs 1.9 billion USD in disposal fees. The levels of carbon, nutrients, and moisture in food waste make bioprocessing into higher value products an attractive method for mitigation. Opportunities include extraction of nutraceuticals and bioactive compounds, or conversion to a variety of volatile acids-including lactic, acetic, and propionic acids-that can be recovered and sold at a profit. The conversion of waste into volatile acids can be paired with bioen- ergy production, including hydrogen or biogas. This present review compares the potential for upgrading industrial food waste to either specialty products or methane. Higher value uses of industrial food waste could alleviate approximately 1.9-108 t of CO2 equivalent emissions. As an example, potato peel could be upgraded to lactic acid via fermentation to recover 5600 million USD per year, or could be converted to methane via anaerobic digestion, resulting in a revenue of 900 million USD per year. The potential value to be recovered is significant, and food-waste valorization will help to close the loop for various food industries.
文摘Alginate is a widely used polymer matrix in food industry since it allows formation of spherical, soft, and strong membranes adequate for encapsulation of a large amount of products, including food. The flow rate of alginate solutions and the permeability of the capsules were evaluated within an acidic-low acidic pH range and different alginate concentrations. In solutions adjusted at different pH (3.0 to 7.0) with concentrations of alginate of 0.8, 1.0, and 1.2% w/v, flow rates at 20 ℃ were 6.95 to 10.00, 4.54-5.35, and 2.60-2.80 mL sl, respectively. Permeability of the capsules was evaluated in terms of the diffusion of H+ions (expressed as pH) and soluble solids (~Brix). Meanwhile both diffusions were minor at 4.0 〈 pH 〈 7.0 and were significantly superior at more acidic pH (P 〈 0.05), alginate concentration did not present significant effect. Yellow, purple, and red juices from Stenocereus spp. fruits (pitayas) were encapsulated using 1.0% of alginate and stored with isotonic solution (3 mL g^-1) at 4 ℃ in the dark. The capsules were spherical with diameter between 4.59 and 470 mm, weight from 82.60 to 97.50 rag, and volume of 0.075-0.098 mL. Pigment (total betalains content) diffusion reached equilibrium at 24 h of storage, at which point retentions of total betalains in the yellow, purple, and red capsules were 87.79, 96.13, and 85.13%, respectively. Also, changes in the color of the capsules were observed during storage.
文摘The essential oil and gum of Pistachia lentiscus var. Chia, commonly known as the mastic gum tree, are natural antioxidant and antimicrobial agents that have found extensive uses in food, beverages and medicine in recent years. In this work, the chemical composition of the hydro-distilled essential oil of mastic gum was evaluated by GC-MS (gas chromatography-mass spectrometry) technique and the majority of their components were identified. Twenty nine different compounds were identified and quantified. The gum oil contained monoterpene, hydrocarbons, sesquitepenes, and also oxygen-containing monoterpenes. The main constituents of the gum oil are ct-pinene which follow β-pinene and β-myrcene. Essential oil of mastic gum is valuable product in food industries and in folklore medicine due to its antimicrobial and antimutagenic activity. The aim of this study was to evaluate the principal congeners of these valuable natural "resin tears" of the tree which are used in flavoring liquors, food, pharmaceutical and cosmetic industries.
文摘Amylose is a food starch found in cereals, legumes and root vegetables. Keeping in view the importance of amylose for various food industries as well as its importance on domestic level, the current study was conducted to analyze the amylose content of common cereals e. g rice (sela, coarse and basmati), maize yellow, Kisan and Azam varieties and wheat (Tatara, Fakhr-e-sarhad and Bakhtawar-92) varieties as well as quantifying the influence of cooking/boiling procedures on the amylose contents of cereals. The maximum amylose content were observed for wheat variety Tatara (24.28%) followed by Bakhtawar-92 (22.74%) and Fakhr-e-sarhad (19.77%). Among maize and rice varieties studied, Kisan and course rice were rich in amylose content with values of 27.19 and 30.48% respectively. The chapti of Tatra wheat were scored highest for appearance (7.6), flavor (7.5), texture (7.6) and overall acceptability (7.55). The roti of Kisan and Azam varieties got maximum appearance score of 7.6 as compared to 7.4 for maize yellow variety. Basmati rice was scored highest regarding appearance (8.4), flavor (8.6), texture (8.6) and overall acceptability (8.53. The moisture content ranged from 10.61 (Azam) to 8.01% (wheat variety Fakhr-e-sarhad). Cooking reduced the amylose content of wheat bread from (19.77%-24.28%) to (15.47%-15.94%) with cooking time of 5 min, maize bread from (21.48%-27.19%) to (19.53 %-25.85%) with maximum cooking time of 10 min and boiled rice from (24.90%-30.48%) to (24.18%-30.19%) with cooking time ranging from 12 to 20 min. It can be inferred from these studies that the reduction in amylose content were more in chapti/roti preparation of wheat and maize varieties as compared to boiling of rice varieties and that significant varietals differences exist in amylose content of the uncooked samples.
