Methods and apparatuses for generating a polyol from biomass using multiple reaction zones and catalysts

1 . A method of catalytically generating a polyol from biomass, the method comprising the steps of: pretreating a feed stream comprising biomass and polymeric lignin to reduce the amount of polymeric lignin in the feed stream; contacting the pretreated feed stream to acid conditions in a first reaction zone, wherein the acid conditions in the first reaction zone are sufficient to hydrolyze a saccharide from the biomass to generate glucose and comprise an acidic aqueous environment having a pH from about 2.0 to about 6.5, a temperature of about 20° C. to about 350° C. and a pressure of about 15 psig to about 2500 psig; directing at least a first portion of a first effluent from the first reaction zone to a second reaction zone wherein the composition of the first portion may be the same as the first effluent or a subset thereof; and contacting the at least first portion of the first effluent with a first saccharide-to-polyol catalyst system under conditions suitable for catalytic conversion of saccharide to polyol. 2 . The method of claim 1 , wherein contacting the at least first portion of the first effluent with the first saccharide-to-polyol catalyst system comprises contacting the at least first portion of the first effluent with the first saccharide-to-polyol catalyst system in the presence of hydrogen. 3 . The method of claim 1 , contacting the at least first portion of the first effluent with the first saccharide-to-polyol catalyst system comprises contacting the at least first portion of the first effluent with a first saccharide-to-polyol catalyst system comprising two active metal components. 4 . The method of claim 1 , wherein contacting the at least first portion of the first effluent with the first saccharide-to-polyol catalyst system under conditions suitable for catalytic conversion of saccharide to polyol comprises contacting the at least first portion of the first effluent with a nickel tungsten carbide catalyst system under conditions suitable to catalytically convert glucose to ethylene glycol. 5 . The method of claim 1 , wherein contacting the at least first portion of the first effluent with the first saccharide-to-polyol catalyst system comprises contacting the at least first portion of the first effluent with a supported first saccharide-to-polyol catalyst system. 6 . The method of claim 1 , further comprising directing a second portion of the first effluent from the first reaction zone to a third reaction zone wherein the composition of the second portion may be the same as the first effluent or a subset thereof, and contacting the second portion of the first effluent with a second saccharide-to-polyol catalyst system under conditions suitable for catalytic conversion of saccharide to polyol, wherein the first saccharide-to-polyol catalyst system and the second saccharide-to-polyol catalyst system are different. 7 . The method of claim 6 , wherein contacting the first portion of the first effluent with the first saccharide-to-polyol catalyst system comprises contacting the first effluent with a saccharide-to-polyol catalyst system that catalyzes a hydrogenation reaction, and wherein contacting the second portion of the first effluent with the second saccharide-to-polyol catalyst system comprises contacting the second portion with a second saccharide-to-polyol catalyst system that catalyzes a saccharide-to-polol reaction and a retro-aldol reaction. 8 . The method of claim 6 , wherein contacting the first portion of the first effluent with the first saccharide-to-polyol catalyst system comprises contacting the at least first portion of the first effluent with a supported first saccharide-to-polyol catalyst system, contacting the second portion of the first effluent with the second saccharide-to-polyol catalyst system comprises contacting the second portion of the first effluent with a supported second saccharide-to-polyol catalyst system, or both. 9 . The method of claim 1 , wherein contacting the at least first portion of the first effluent with the first saccharide-to-polyol catalyst system is conducted in an ebullating catalyst bed system, immobilized catalyst reaction system having catalyst channels, augured reaction system, fluidized bed reactor system, mechanically mixed reaction system, or slurry reactor system. 10 . The method of claim 6 , wherein contacting the first portion of the first effluent with the first saccharide-to-polyol catalyst system and contacting the second portion of the first effluent with the second saccharide-to-polyol catalyst system are independently conducted in an ebullating catalyst bed system, immobilized catalyst reaction system having catalyst channels, augured reaction system, fluidized bed reactor system, mechanically mixed reaction system, or slurry reactor system. 11 . The method of claim 1 , further comprising pretreating the biomass via sizing, drying, grinding, or a combination thereof into solid particles of a size that may be flowed or moved through a continuous process using a liquid or gas flow, or mechanical processing, hot water treatment, steam treatment, pyrolysis, thermal treatment, chemical treatment, biological treatment, catalytic treatment, or combinations thereof, wherein the step of pretreating the biomass is conducted prior to contacting the feed stream to the acid conditions in the first reaction zone. 12 . The method of claim 1 , wherein the generated polyol comprises ethylene glycol, propylene glycol, or a combination thereof. 13 . The method of claim 1 , further comprising generating a second effluent, wherein the second effluent comprises a polyol and a co-product, wherein the polyol comprises ethylene glycol, propylene glycol, or a combination thereof, and the co-product is an alcohol, organic acid, aldehyde, monosaccharide, polysaccharide, phenolic compound, hydrocarbon, glycerol, depolymerized lignin, carbohydrate, or protein. 14 . The method of claim 13 , further comprising separating the second effluent to generate at least one product polyol stream. 15 . A method of generating polyols from biomass, the method comprising the steps of: contacting a feed stream comprising biomass to acid conditions in a first reaction zone, wherein the acid conditions in the first reaction zone are sufficient to hydrolyze a saccharide from the biomass to generate glucose; directing a first portion of a first effluent from the first reaction zone to a second reaction zone; contacting the first portion of the first effluent with a first saccharide-to-polyol catalyst system under conditions suitable for catalytic conversion of saccharide to polyol and generating a first product polyol stream, wherein the first saccharide-to-polyol catalyst system comprises a saccharide-to-polyol catalyst system that catalyzes a hydrogenation reaction; directing a second portion of the first effluent from the first reaction zone to a third reaction zone; and contacting the second portion of the first effluent with a second saccharide-to-polyol catalyst system under conditions suitable for catalytic conversion of saccharide to polyol and generating a second product polyol stream, wherein the second saccharide-to-polyol catalyst system comprises a saccharide-to-polyol catalyst system that catalyzes a retro-aldol reaction; wherein the first product polyol stream and the second product polyol stream are different, and the composition of polyols catalytically generated from the biomass is based on the relative amounts of first effluent directed to the second and third reaction zones. 16 . The method of claim 15 , further comprising pretreating