ABSTRACT
Abstract This study evaluated the effects of three chemical pretreatments of biomass sorghum (BS): dilute alkaline (PTA1 and PTA2), dilute acid (PTB1 and PTB2) and alkaline hydrogen peroxide (PTC1 and PTC2) in the enzymatic hydrolysis and ethanol production. Among the six investigated conditions, the pretreatment with 7.36% H2O2 (PTC2) was the most efficient in the lignin removal and preservation of the polysaccharide fraction. After the enzymatic hydrolysis, increases in the glucose and xylose concentrations were observed in the pretreated BS hydrolysates, mainly in PTB1 and PTC1. All the hydrolysates obtained low concentrations of inhibitors. In the alcoholic fermentations with Pichia stiptis, the greatest ethanol yield was obtained in PTB1 hydrolysate (3.84 g L-1), corresponding to 16.15% of yield. The highest ethanol yield in PTB1 hydrolysate can be justified by the maximum concentration of xylose obtained in this hydrolysate, demonstrating the potential of P. stiptis in the fermentation of pentose to ethanol. The results indicated that biomass sorghum is an alternative lignocellulose source with potential for the production of second generation ethanol, opening up prospects for additional studies.
Subject(s)
Biomass , Ethanol , Chemical Phenomena , Hydrogen Peroxide , Metals, AlkaliABSTRACT
O objetivo deste trabalho foi avaliar o efeito de dois pré-tratamentos (pt) na desidratação osmo-convectiva: Pré-tratamento químico a 20°C por 5min em solução de ácido cítrico, bissulfito de sódio e carbonato de cálcio a 0,1% cada (pt-ABC) e por branqueamento a 80°C por 5min (pt-B), bem como a combinação pt-ABC seguido de pt-B (amostra:solução = 1:10 w/w). O pt-ABC provocou aumento de massa (13% em média) entretanto o pt-B perda (-34% em média). A desidratação osmótica a 20°C por 60min em solução de NaCl a 10% reduziu a massa de fatias não pré-tratadas em 43%. Esse nível de redução de massa não pode ser atingido com o uso do pt-ABC, mas melhorou para 49% para fatias submetidas ao pt-B. Os pré-tratamentos reduziram o tempo de secagem (70°C e com circulação de ar de 18m³ h-1) de 150min para 60min para atingir o nível de atividade de água do produto seco igual ou menor a do produto comercial. As fatias submetidas ao pt-ABC ou do controle apresentaram boa capacidade de reidratação. As fatias que foram submetidas aos dois pré-tratamentos apresentaram coloração mais clara e menos enrugadas após secagem, aparência similar foi observada às do pt-ABC. O pt-ABC pode ser usado para se obter fatias de champignon seco com aspecto visual e capacidade de reidratação adequados para o desenvolvimento de novos produtos para consumo direto ou que necessite reidratação.
The objective of this paper was assessments the effect of pre-treatment (pt) in osmo-convective dehydration: Chemical pretreatment at 20°C for 5min with 0.1% solution of citric acid, sodium bisulfite and calcium carbonate (pt-ABC) and bleaching at 80°C for 5min (pt-B), as well the combination pt-ABC followed by pt-B (sample:solution = 1:10 w/w). The pt-ABC provoked mass increase (13% on average), while pt-B caused loss (-34% on average). Osmotic dehydration at 20°C for 60 min with 10% NaCl reduced mass of slices not pretreated at 43%. This level of mass reduction was not achieved for the pt-ABC, but it was improved for 49% to slices subjected to pt-B. Pretreatments reduced drying time (70°C and air circulation 18m³ h-1) from 150min to 60min to achieve the desired a w. Water activity of dried product was equal to or less than the commercial product. Slices subjected to pt-ABC or from control group had good rehydration capacity. Slices subjected to combined pt and dried showed lighter color and were less wrinkled. pt-ABC allowed very similar results. The pt-ABC must be used to obtain slices of dry champignon with visual aspect and rehydration capacity suitable for the development of new products for direct consumption or require rehydration.
ABSTRACT
Ziziphus joazeiro Mart. é uma arvore brasileira endêmica da Caatinga e tem diversos usos no Nordeste. As sementes apresentam dormência tegumentar e o presente trabalho teve por objetivo avaliar tratamentos pré-germinativos com ácido sulfúrico concentrado para superar a dormência. O delineamento experimental utilizado foi o inteiramente casualizado, com 9 tratamentos, sendo 0, 30, 60, 90, 120, 150, 180, 210 e 240 minutos de imersão em ácido sulfúrico concentrado P.A. com três repetições de 50 sementes, em dois experimentos. No experimento 1 foram usadas sementes recém coletadas e a avaliação foi feita durante 140 dias. No experimento 2 foram usadas sementes armazenadas por 5 meses e a avaliação feita durante 100 dias. Ziziphus joazeiro apresenta dormência imposta pelo endocarpo que envolve as sementes, e é necessário o uso de ácido sulfúrico durante 180 minutos para sementes recém-coletadas e por 240 ou 270 minutos, para sementes armazenadas por 5 meses para se atingir 80 por cento de emergência. O tempo de armazenamento das sementes pode influenciar a resposta germinativa, com emergência mais rápida após o armazenamento por 5 meses.
Ziziphus joazeiro Mart. is a Brazilian tree endemic to Caatinga and has been largely used in the Northeast of Brazil. Its seeds present tegument dormancy and this work aimed to evaluate pre-germinative treatments with concentrated sulfuric acid to break dormancy. Experimental design was completely randomized, with 9 treatments, i.e. 0, 30, 60, 90, 120, 150, 180, 210, and 240 min of immersion in concentrated sulfuric acid A.R. with three replicates of 50 seeds, in two experiments. In experiment 1, newly collected seeds were evaluated for 140 days. In experiment 2, 5-month stored seeds were evaluated for 100 days. Ziziphus joazeiro presents dormancy imposed by the endocarp that involves the seeds, and sulfuric acid should be used for 180 min on newly collected seeds and for 240 or 270 min on 5-month stored seeds in order to reach 80 percent emergence. Seed storage time may influence the germinative response, with faster emergence after 5-month storage.
Subject(s)
Germination , Plant Epidermis , Chemical Phenomena/methods , Sulfuric Acids , Thermic Treatment/methods , Ziziphus/embryology , Ethnobotany , Seeds/growth & developmentABSTRACT
STATEMENT OF PROBLEM: The failure of adhesion between the resilient denture liner and the denture base is a serious problem in clinic. PURPOSE: The PURPOSE of this study was to evaluate the effect of denture base resin surface pretreatments (mechanical and/or chemical) on the tensile bond strength between a resilient liner and processed denture resin. MATERIAL AND METHOD: Acrylic-based resilient liners (Soft liner; GC co., Japan & Coe-Soft; GC America Inc. USA) and silicone-based resilient liners (Mucosoft; Parkell Inc., USA & Dentusil; Bosworth co., USA) were used. Specimens in each soft lining material were divided two groups with or without mechanical pretreatment. Each denture base specimen received 1 of 4 chemical pretreatments including: (1) no treatment, (2) 30-s acetone treatment, (3) 15-s methylene chloride treatment, (4) 180-s methyl methacrylate treatment. All specimens were thermocycled and placed under tension until failure in a universal testing machine. RESULTS: 1. Silicone-based resilient liners exhibited significantly higher tensile bond strengths than acrylicbased resilient liners (P<.05). 2. Grinding the denture base resin improved tensile bond strengths of silicone-based resilient liners, but reduced tensile bond strengths of acrylic-based resilient liners (P<.05). 3. In acrylic-based resilient liners, treating with acetone significantly increased the bond strength of Soft liner and treating with methyl methacrylate significantly increased the bond strength of Coe-Soft (P<.05). However they were not effective compared to silicone-based resilient liner. 4. In silicone-based resilient liners, treating with all chemical etchants significantly increased the bond strength of Mucosoft to denture base, and treating with methylene chloride and methyl methacrylate increased the bond strength of Dentusil to denture base (P<.05). CONCLUSION: Although chemical and mechanical pretreatments were not effective on tensile bond strength of acrylic-based resilent liner to denture base, treating the denture base resin surface with appropriate chemical etchants after mechanical pretreatment significantly increased the tensile bond strength of silicone-based resilient liner to denture base.