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W13995536 endingPage "173" @default.
W13995536 startingPage "155" @default.
W13995536 abstract "One of the major challenges in second-generation biofuel production is economical conversion of lignocellulosic biomass to fermentable sugars. The most commercially feasible method for conversion of biomass to fermentable sugars has been the combination of thermochemical and enzymatic hydrolysis treatment of biomass. Nevertheless, even with the most efficient pretreatment method, the use of cellulolytic enzymes accounts for more than half of the sugar production cost. As a result of the high cost of commercial hydrolytic enzyme and the low digestibility of pretreated biomass with minimal enzyme use, sugar production costs are not economical for commercial production of some fermentation products. One of the primary reasons for low digestibility of biomass at minimal enzyme doses is the limited enzyme accessibility to cellulose due to the presence of lignin. Other reasons include (1) the change in reactivity of cellulose during hydrolysis that occurs when amphiphilic substance is depleted and (2) deactivation of enzyme by sugars, sugar degradation products, and both soluble and insoluble lignin. With current pretreatment technologies, commercially relevant methods must be developed that would improve the performance of enzymes and make the application of lower enzyme doses feasible. An attractive solution is to generate on-site enzymes to allow for the utilization of cheap abundant protein activity in-house. This chapter reviews the cellulolytic enzyme system, the mechanism of action, rate-limiting factors of enzymatic hydrolysis, on-site enzyme production, and recovery of enzyme activity by enzyme recycling." @default.
W13995536 created "2016-06-24" @default.
W13995536 creator A5080621251 @default.
W13995536 date "2015-01-01" @default.
W13995536 modified "2023-09-23" @default.
W13995536 title "Enzymatic Hydrolysis Technologies for the Production of Biofuels" @default.
W13995536 cites W14453833 @default.
W13995536 cites W1507396609 @default.
W13995536 cites W1873195519 @default.
W13995536 cites W1969056401 @default.
W13995536 cites W1972170812 @default.
W13995536 cites W1973302810 @default.
W13995536 cites W1986142812 @default.
W13995536 cites W1989806342 @default.
W13995536 cites W1990054174 @default.
W13995536 cites W1990087733 @default.
W13995536 cites W1990416075 @default.
W13995536 cites W1991866570 @default.
W13995536 cites W1991990233 @default.
W13995536 cites W1997167909 @default.
W13995536 cites W1998752513 @default.
W13995536 cites W1999336080 @default.
W13995536 cites W2000847240 @default.
W13995536 cites W2002019912 @default.
W13995536 cites W2007594105 @default.
W13995536 cites W2010634051 @default.
W13995536 cites W2013246213 @default.
W13995536 cites W2015478270 @default.
W13995536 cites W2016429076 @default.
W13995536 cites W2017920842 @default.
W13995536 cites W2018798798 @default.
W13995536 cites W2020764071 @default.
W13995536 cites W2021738810 @default.
W13995536 cites W2022076878 @default.
W13995536 cites W2028705917 @default.
W13995536 cites W2028802348 @default.
W13995536 cites W2029763377 @default.
W13995536 cites W2030842826 @default.
W13995536 cites W2034485633 @default.
W13995536 cites W2036953671 @default.
W13995536 cites W2040378517 @default.
W13995536 cites W2047589002 @default.
W13995536 cites W2049456658 @default.
W13995536 cites W2051520792 @default.
W13995536 cites W2051921179 @default.
W13995536 cites W2052574636 @default.
W13995536 cites W2052622825 @default.
W13995536 cites W2053113581 @default.
W13995536 cites W2054042279 @default.
W13995536 cites W2060317734 @default.
W13995536 cites W2061325811 @default.
W13995536 cites W2064245564 @default.
W13995536 cites W2070432341 @default.
W13995536 cites W2075855733 @default.
W13995536 cites W2077019864 @default.
W13995536 cites W2077143061 @default.
W13995536 cites W2077836844 @default.
W13995536 cites W2079079591 @default.
W13995536 cites W2081907022 @default.
W13995536 cites W2082324597 @default.
W13995536 cites W2083722736 @default.
W13995536 cites W2088165518 @default.
W13995536 cites W2093538887 @default.
W13995536 cites W2096061807 @default.
W13995536 cites W2106295890 @default.
W13995536 cites W2107703742 @default.
W13995536 cites W2122636850 @default.
W13995536 cites W2126025567 @default.
W13995536 cites W2136464092 @default.
W13995536 cites W2138777593 @default.
W13995536 cites W2140743417 @default.
W13995536 cites W2147665045 @default.
W13995536 cites W2149725925 @default.
W13995536 cites W2151362160 @default.
W13995536 cites W2151564216 @default.
W13995536 cites W2159799069 @default.
W13995536 cites W23817973 @default.
W13995536 cites W2408988391 @default.
W13995536 cites W2488414423 @default.
W13995536 cites W2502432476 @default.
W13995536 cites W2505080339 @default.
W13995536 doi "https://doi.org/10.1007/978-3-319-14033-9_4" @default.
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