Sadegh Afzalinia; Alidad Boostani; Abdolhamid Karimi; dadgar mohammadi; Seiid Mansur Alavimanesh; Mashaallah Zare; Ali Nouroozi
Abstract
In this research, effects of water sprayed over the upper layer of the mowed and rowed alfalfa (before baling) on quantitative and qualitative losses of alfalfa during baling process were evaluated. The study was conducted in the form of split plot experiment with 12 treatments and three replications ...
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In this research, effects of water sprayed over the upper layer of the mowed and rowed alfalfa (before baling) on quantitative and qualitative losses of alfalfa during baling process were evaluated. The study was conducted in the form of split plot experiment with 12 treatments and three replications from 2020 to 2022. Main plots were the amount of water sprayed on the alfalfa with four levels of water (0, 250, 350, and 450 liters per hectare). Subplots were the time interval between spraying water on alfalfa and baling operation (0, 30, and 60 minutes after spraying water). Alfalfa losses at the baler pickup and compression chamber, during transportation, and total losses were measured. Alfalfa dry matter, crude protein, fat, organic matter, ash, acid detergent fiber, neutral detergent fiber was measured, and amount of aflatoxin were also detected after six months of storage. Results showed that spraying 450 L water per hectare decreased alfalfa losses at baler pickup and compression chamber, transportation, and total losses by 20.4, 34.3, 4.7, and 21.1% respectively, compared to the control treatment. Time interval between spraying water on alfalfa and baling time had no significant effect on alfalfa losses during baling operation and transportation. Results also indicated that spraying water on alfalfa before baling operation had no significant negative effects on alfalfa quality after six months storing and did not reduce alfalfa quality during storing time.
Samane Torabi; S. R. Hasanbeigi; Behzad Sattari; Barat Ghobadian
Abstract
Bread waste is the common part of food biomass in the world. The aim of this study was to investigate the effects of saccharification time and also substrate concentration on the amount of glucose as well as bioethanol obtained from bread wastes folowing hydrolysis processing. The bread wastes were crushed ...
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Bread waste is the common part of food biomass in the world. The aim of this study was to investigate the effects of saccharification time and also substrate concentration on the amount of glucose as well as bioethanol obtained from bread wastes folowing hydrolysis processing. The bread wastes were crushed to small parts and then mixed with water at ratio of 10-15 (w/v%). Alpha-amylase and glucoamylase enzymes were used for liquefaction and saccharification, respectively. The effects of saccharification time and substrate loading parameters on the amount of glucose were investigated by using response surface methodology (central composite design) with Design Expert software. The glucose-derived from hydrolysis processing was measured by glucose kit. Aflatoxin contents of the bread wastes (as control sample) and optimum sample obtained from the hydrolysis processing (sample with the maximum glucose) were measured. Fermentation processing was carried out by using Saccharomyces cerevisiae yeast. The results showed that the highest amount of glucose (100.21 g/l) in enzymatic hydrolysis was obtained at the saccharification time of 48 h and substrate loading of 150 g/l. The hydrolysis processing at the higher concentrations and longer duration, due to high viscosity and adhesion, reduced the concentration of glucose, so high concentration did not have any favorable effect on the hydrolysis processing. The hydrolysis processing reduced Aflatoxin B1 and B2 at a ratio of 76% and 16%, respectively. The greatest amount of bio-ethanol in the fermentation phase (45.35 g/l) was obtained at 36 hours with efficiency of 88.7%. It could be related to the consumption of glucose produced in the hydrolysis phase due to proper growth of the cell mass during fermentation phase in this duration. The recommended time for the fermentation processing is 36 hours.
