Biomass pyrolysis reactor with integrated quench and method for converting biomass to liquid bio-oil

We claim: 1. A method for producing bio-oil, comprising: milling biomass feedstock to a particle size in the range of 1-3 mm; introducing a substantially oxygen-free fluidizing gas into a bubbling fluidized bed reactor from below the reactor that is kept at a temperature about 300° C. to 650° C. upstream of a fluidized bed medium in the reactor, wherein the fluidizing gas is introduced at a linear velocity above the minimum fluidization velocity for the bed; introducing the biomass feedstock into the reactor into the fluidized bed medium, wherein the biomass is introduced from above the fluidized bed medium and is incorporated into the fluidized bed medium through the bubbling action of the bed; heating the biomass feedstock inside the reactor whereby condensable organic vapors, non-condensable process gas, and char particles are produced and only the condensable organic vapors and char are elutriated along with the fluidizing gas and non-condensable process gas as a reactor effluent from the bed medium and substantially all of the fluidized bed medium remains in the reactor; and introducing a stream of temperature-lowering quench fluid, comprised of recycled non-condensable process gas into the reactor, only downstream of the fluidized bed medium, and wherein the introduction of the quench fluid stream only cools the elutriated condensable organic vapors, non-condensable gas, and char by about 10° C. to 250° C. upon the introduction of the quench fluid; wherein the temperature of the reactor effluent after quenching by the quenching fluid is maintained between about 350° C. to 450° C.; separating the char from the condensable organic vapors shortly after quenching; and cooling the condensable organic vapors to collect the bio-oil. 2. The method of claim 1 , wherein the char particles are separated from the reactor effluent downstream and externally of the reactor. 3. The method of claim 1 , wherein the quench fluid is introduced at least one position downstream of the fluidized bed medium to provide progressive staged quenching.