Abstract
Background:Napier grass is a naturally abundant waste material that can be cultivated over a vast area of land which makes it a viable source for sugar and bioethanol production.Introduction:The presence of lignin in the biomass makes cellulose inaccessible for conversion to useful products, however, in order to provide for efficient utilization of the waste material, reagent and energy, a study on the kinetics of lignin removal from Napier grass was carried out in this work using 1 and 3 w/w % NaOH at temperatures between 80 and 120°C.Materials & Methods:Based on the investigation, there was increased lignin removal for increased NaOH concentration. Kinetic parameters were also determined and it was observed that, the reaction of lignin in Napier grass with NaOH obeys a pseudo-zero or pseudo-fractional order kinetics. Furthermore, the orders of the reaction for the pretreatment conditions of 3 w/w% NaOH at 100°C and those of 3 and 1 w/w NaOH at 120°C gave close reaction orders of 0.2, 0.22 and 0.24 respectively after 110 minutes, which implies that, for the three cases, the residual lignin in the extract was almost the same at the pretreatment conditions while slight differences are evident in their pseudo rate constants. Also, it was observed that, the activation energy of the reaction reduced significantly as the concentration of NaOH increased from 1w/w - 3 w/w%.Conclusion:Based on the AIL and the total lignin (i.e.AIL + ASL) in the Napier grass, the recorded delignification efficiencies at the optimum pretreatment time of 17.5 h are 90 and 76% respectively. In addition, the adopted Differential Technique (DT) combined with the Ostwald Method of Isolation (OMI) can be accurately used to study the kinetics of lignin removal from Napier grass.
Highlights
The presence of lignin in the biomass makes cellulose inaccessible for conversion to useful products, in order to provide for efficient utilization of the waste material, reagent and energy, a study on the kinetics of lignin removal from Napier grass was carried out in this work using 1 and 3 w/w % NaOH at temperatures between 80 and 120°C
Pretreatment/delignification kinetics may be used to optimize the production of high value sugars or maximize utilization of feed stocks nutrients
Besides providing access route to the cellulose in biomass, initial pretreatment of biomass and enzymatic hydrolysis lead to the recovery of residual lignin which can be converted to p-hydroxy-phenyl propane by taking advantage of the structural adjustments in the lignin matrix on further pretreatment [8, 9]
Summary
The presence of lignin in the biomass makes cellulose inaccessible for conversion to useful products, in order to provide for efficient utilization of the waste material, reagent and energy, a study on the kinetics of lignin removal from Napier grass was carried out in this work using 1 and 3 w/w % NaOH at temperatures between 80 and 120°C. The purpose of the pretreatment is to provide easy enzyme-accessibility of carbohydrate polymers [5], remove lignin, reduce cellulose crystallinity, increase the porosity of the materials, improve substrate ability to form sugars and prevent loss of carbohydrate and the formation of byproducts which are inhibitory to hydrolysis and fermentation processes. Napier grass is a naturally abundant waste material that can be cultivated over a vast area of land which makes it a viable source for sugar and bioethanol production
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