Reactor discharge screw

The invention claimed is: 1. A discharge screw arrangement for discharging lignocellulosic material from a lignocellulosic treatment reactor, the discharge screw arrangement comprising: a feeder pipe comprising a side wall, wherein an outlet nozzle is located in the side wall at a downstream end of the feeder pipe with respect to a material transport direction; a blow pipe located outside the feeder pipe and communicating with outlet nozzle; a discharge screw rotatably arranged inside the feeder pipe, the discharge screw configured to: mechanically transport the lignocellulosic material in the longitudinal direction along the rotational axis of the discharge screw, through the feeder pipe, and toward the downstream end of the feeder pipe, and allow steam to flow through the feeder pipe in a longitudinal direction along a rotational axis of the discharge screw towards the downstream end of the feeder pipe, out of the feeder pipe through the outlet nozzle, and into the blow pipe; and a material spreader rotatably arranged at the downstream end of the feeder pipe along the rotational axis of the discharge screw, the material spreader is configured to transport the lignocellulosic material in a radial direction perpendicular to a rotational axis of the material spreader, towards the outlet nozzle, which is arranged peripherally of the material spreader, out of the feeder pipe through the outlet nozzle, and into the blow pipe. 2. The discharge screw arrangement according to claim 1 , wherein an upstream surface of the material spreader comprises vanes configured to facilitate transport of the lignocellulosic material towards the outlet nozzle. 3. The discharge screw arrangement according to claim 1 , further comprising at least one motor configured to rotate the material spreader and the discharge screw, wherein the at least one motor is configured to rotate the material spreader at a rotational speed which is faster than a rotational speed of the discharge screw. 4. The discharge screw arrangement according to claim 1 , further comprising at least one motor configured to rotate the material spreader and the discharge screw, wherein the at least one motor is configured to rotate the material spreader at a rotational speed which is equal to a rotational speed of the discharge screw. 5. The discharge screw arrangement according to claim 4 , wherein the material spreader is a part of the discharge screw. 6. The discharge screw arrangement according to claim 1 , wherein the outlet nozzle has an opening of adjustable size. 7. The discharge screw arrangement according to claim 1 , further comprising a discharge valve arranged adjacent to the outlet nozzle and configured to adjust discharge of lignocellulosic material from the feeder pipe into the blow pipe. 8. The discharge screw arrangement according to claim 1 , wherein the discharge screw arrangement is adapted for a horizontal reactor. 9. A lignocellulosic treatment reactor comprising: the discharge screw arrangement according to claim 1 ; and a reactor vessel configured to provide the lignocellulosic material to the discharge screw arrangement. 10. The lignocellulosic treatment reactor according to claim 9 , further comprising: an internal conveyor screw located inside the reactor vessel and configured to transport the lignocellulosic material through the reactor vessel towards a downstream end of the reactor vessel with respect to the material transport direction; wherein: the discharge screw arrangement is configured to receive the lignocellulosic material from the reactor vessel at the downstream end of the reactor vessel. 11. The lignocellulosic treatment reactor according to claim 10 , wherein: the reactor is a horizontal reactor; and the discharge screw arrangement is located vertically below the reactor vessel at the downstream end of the reactor vessel, such that the lignocellulosic material can fall vertically from the reactor vessel into the discharge screw arrangement at the downstream end of the reactor vessel.