Large horizontal device for continuous methane fermentation and method thereof

What is claimed is: 1. A large horizontal device for continuous methane fermentation using fermenting materials, the device comprises: a hydrolysis feed compartment, a hydrolysis heating feeder, a hydrolysis feed heater, a hydrolysis feeder, a hydrolysis feed inoculation and homogenizing compartment, a hydrolysis inoculator, a hydrolysis fermentation compartment, a hydrolysis feed distributor, a hydrolysis materials propeller, a hydrolysis material ejection balancer, a hydrolysis ejector, a hydrolysis gas stirring distributor, a hydrolysis gas circulation draught fan; a methane fermentation feeder, a methane fermentation and inoculation homogenizing compartment, a methane fermentation material inoculator, a methane fermentation compartment, a methane fermentation feed distributor, a methane fermentation material propeller, a methane fermentation ejection balancer, a methane fermentation ejection compartment, a methane fermentation feed heater, a methane fermentation stirring gas distributor, a methane fermentation gas circulation draught fan, a vertical main partition, a parapet, a horizontal main partition, wherein: the hydrolysis feed compartment and the hydrolysis feed heater are connected through hydrolysis heating feeder, the hydrolysis heating feeder is in the hydrolysis feed compartment and runs through hydrolysis feed heater, the hydrolysis feed heater connects the hydrolysis feed inoculation homogenizing compartment through the hydrolysis feeder, the hydrolysis feed inoculation homogenizing compartment connects an inlet of hydrolysis fermentation compartment through the hydrolysis feed distributor, an outlet of hydrolysis fermentation compartment connects hydrolysis ejection compartment through a hydrolysis material ejection balancer, the hydrolysis feed inoculation homogenizing compartment and the hydrolysis ejection compartment are connected through the hydrolysis inoculator, the hydrolysis ejection compartment connects the methane fermentation feed heater through the hydrolysis ejector, the methane fermentation feed heater connects the methane fermentation feed inoculation homogenizing compartment through the methane fermentation feeder, the methane fermentation feed inoculation homogenizing compartment connects an inlet of methane fermentation compartment through the methane fermentation feed distributor, an outlet of methane fermentation compartment connects the methane fermentation ejection compartment through the methane fermentation ejection balancer, the methane fermentation feed inoculation homogenizing compartment and the methane fermentation ejection compartment are connected by the methane fermentation material inoculator; the methane fermentation compartment and the hydrolysis fermentation compartment generally are reinforced concrete, the vertical main partition is set in the middle of the hydrolysis fermentation compartment for propelling materials in order, the vertical partition divides the hydrolysis fermentation compartment into two parts and sets route of materials in hydrolysis fermentation compartment to be U-shape, and each part are divided into several grids by alternate horizontal main partitions and parapets, hydrolysis fermentation material propeller is set under every horizontal main partition in each grid, in order to make the fermenting materials move forward up and down, besides, hydrolysis gas distributor for gas stirring is installed at the bottom of the hydrolysis fermentation compartment, the top part of hydrolysis fermentation compartment is an assembly zone of hydrolysis gas, and the gas inside is ejected through the hydrolysis gas distributor for gas stirring after compression the by hydrolysis gas circulation draught fan; the methane fermentation compartment is the same as the hydrolysis fermentation compartment with two parts divided by a vertical main partition and a U-shaped material flowing route, each part are divided into several grids by alternate horizontal main partitions and parapets, a methane fermentation material propeller is set under the horizontal main partition in order to force the materials moving forward up and down in methane fermentation compartment, and a methane fermentation stirring gas distributor is set at the bottom of methane fermentation compartment, the top part of the methane fermentation compartment is an assembly zone of methane, and the gas inside is ejected through a methane fermentation gas distributor after compression by the methane fermentation gas circulation draught fan; and the material propellers are placed under reverse vertical main partitions at the end of both the methane fermentation compartment and the hydrolysis fermentation compartment to collect the fermenting materials, and wherein every propeller includes two long axis impellers, two propeller driving axis, and a propeller shell, each long axis impeller is a cylinder overall with impellers in an axis direction in order to apply a long side design in driving axis directions, and a vertical cross-section is like a dumbbell with arcs at both ends and in the middle, each long axis impeller has a propeller driving axis, and an axis of two long impellers is parallel and synchronous rotate in reverse direction, one is clockwise while the other one is anticlockwise and two impeller blades are constantly occluded and seal in the whole rotation process, outside each long axis impeller there is a propeller shell, and an internal surface is half arc, making the impeller be tangent with a corresponding half arc internal wall during the rotation, there are blocks set outside the propeller shells such asin order to divide each side out of the propeller into two parts, and the viscous half-solid materials are transported from one side to the other side through rotation of the long axis impeller. 2. The device of claim 1 , wherein the fermenting materials in the hydrolysis feed compartment are put in proportion and then driven by the hydrolysis heating feeder, the fermenting materials are moved into a hydrolysis feed heater and are heated, the hydrolysis feed inoculation homogenizing compartment is driven by the hydrolysis feed feeder, the fermenting materials are inoculated, homogenized and propelled in the hydrolysis fermentation compartment using the hydrolysis inoculator, hydrolysis feed distributor, and hydrolysis materials propeller, the fermenting materials are stirred by the compressed gas flowing from a hydrolysis gas stirring distributor in the hydrolysis fermentation compartment, the materials are, in the meantime, moved forward slowly along the flow direction using the hydrolysis material propellers set in the fermentation compartment, the whole hydrolysis fermentation lasts for 5 to 6 days, the last hydrolysis material propeller in hydrolysis fermentation compartment drives most of the materials into the methane fermentation feed heater through the hydrolysis material ejection balancer and the hydrolysis ejector and one portion of the materials to the hydrolysis feed inoculation homogenizing compartment through the hydrolysis inoculator in order to finish the inoculation, the fermenting materials in the methane fermentation feed heater are heated, and the hydrolysis acidize bacteria are eliminated or inhibited at a high temperature (60 to 65° C.) during the heating process; and after hydrolysis, acidulation, and heating processes, the fermenting materials enter the methane fermentation feed inoculation homogenizing compartment through the methane fermentation feeder, the fermenting materials are re-inoculated and homogenized using the methane fermentation material inoculator, the methane fermentation feed distributor, and the methane fermentation material propeller and then are propelled in the methane fermentation compartment, the fermenting materials move forward during the whole fermentation, which lasts for 20 days using the methane fermentation mate