Apparatus and method for treatment of wet organic matter to produce biogas

The invention claimed is: 1. Apparatus for treatment of wet organic matter to produce biogas, comprising a first reactor ( 11 ) for anaerobic digestion of the wet organic matter, wherein said first reactor ( 11 ) is an anaerobic reactor, and wherein said first reactor ( 11 ) has the form of two vertical tubes, a vertically arranged outer tube ( 14 ) defining a first reactor chamber ( 111 ) enveloping a vertically arranged inner tube ( 15 ) which is divided into a first region ( 112 a ) and a second region ( 112 b ) of a second reactor chamber ( 112 ) by a vertical partitioning wall ( 16 ) leaving a free area between the first region ( 112 a ) and the second region ( 112 b ) near the bottom of the inner tube ( 15 ) to allow material transportation therethrough, the upper end of the first region ( 112 a ) of the second reactor chamber exhibiting an opening to first reactor chamber ( 111 ) for allowing material transportation from the first reactor chamber ( 111 ) to the first region ( 112 a ) of the second reactor chamber ( 112 ), said first reactor chamber ( 111 ) being connected to an inlet conduit ( 12 ) at its lower end while the second reactor chamber ( 112 b ) at its upper end is connected to a discharge conduit ( 17 ) for fluid material, the first reactor ( 11 ) further exhibiting a top discharge pipe ( 18 ) for gas developed in either of the two reactor chambers ( 111 , 112 ), characterized in that a first particle retaining unit ( 31 ) is arranged between the first reaction chamber ( 111 ) and the first region ( 112 a ) of the second reactor chamber ( 112 ), wherein the first particle retaining unit ( 31 ) is supplied with arrangements at the lower surfaces that gather small rising gas bubbles into larger bubbles and channel these to rise to the reactor liquid surfaces in such a way that they locally impose strong mixing to break up floating sludge to enhance release of gas within this floating sludge. 2. Apparatus as claimed in claim 1 , wherein the opening between the first section of the second reactor chamber ( 112 ) and the first reactor chamber ( 111 ) has the form of a slot shaped opening ( 15 c ) in the wall section of the inner tube at the first region ( 112 a ) thereof. 3. Apparatus as claimed in claim 1 , wherein a second particle retaining unit ( 32 ) is arranged between the second reactor chamber ( 112 ) and the discharge conduit ( 17 ). 4. Apparatus as claimed in claim 1 , wherein the larger bubbles flow from where they were gathered in a pipe ending at or close to the fluid surface. 5. Apparatus as claimed in claim 1 , wherein the first particle retaining unit ( 31 ) is supplied with inside arrangements consisting of parallel plates or tubes parallel to the said unit's side walls to dampen flow disturbances and obtain laminar flow conditions to enhance sedimentation of particles. 6. Apparatus as claimed in claim 1 , wherein the first reactor chamber ( 111 ) is provided with a temperature controlling device. 7. Apparatus as claimed in claim 1 , wherein the apparatus furthermore comprises a second reactor ( 21 ) arranged downstream of the first reactor ( 11 ), wherein the second reactor ( 21 ) is a closed aerobic reactor and wherein the second reactor comprises a fluid inlet conduit ( 25 ) connected to the fluid discharge conduit ( 17 ) from the first reactor ( 11 ), the second reactor ( 21 ) comprising at least two reactor chambers ( 211 , 212 ), the first reactor chamber ( 211 ) of the second reactor ( 21 ) being arranged to receive as feed the material discharged through discharge conduit ( 17 ) of the first reactor, the second reactor chamber ( 212 ) being arranged for addition of oxygen though an inlet conduit ( 29 ), and a recycle conduit ( 28 ) for recycling fluid with particulate material from the second aerobic reactor ( 21 ) to the first reactor ( 11 ). 8. Apparatus as claimed in claim 7 , wherein the second reactor ( 21 ) further comprises a third reactor chamber ( 213 ) exhibiting an upper discharge conduit ( 26 ) for purified fluid and a lower discharge conduit ( 27 ) for mostly particulate matter or wherein the second reactor ( 21 ) further comprises a third particle retaining unit arranged between the reactor chamber ( 211 or 212 ) and the discharge conduit ( 26 ). 9. Apparatus as claimed in claim 7 , wherein the recycle conduit ( 28 ) for recycling particulate matter and fluid from the second reactor ( 21 ) to the first reactor ( 11 ) is arranged for adjustable flow amounts. 10. Apparatus as claimed in claim 8 , wherein the first reactor chamber ( 211 ) of the second reactor ( 21 ) is defined within an inner, open vertical tube ( 22 ) and the third reactor chamber ( 213 ) is defined between an outer, closed vertical tube ( 23 ) and said inner vertical tube ( 22 ). 11. Apparatus as claimed in claim 7 , wherein the second reactor ( 21 ) is comprised by three reactor chambers ( 211 , 212 , 213 ) separated by vertical walls having the shape of an open innermost tube ( 24 ) arranged within a wider inner tube ( 22 ), both of which being arranged within a wider closed vertical tube ( 23 ), the upper wall edge of the innermost tube ( 24 ) being terminated below the fluid discharge conduit ( 26 ) that determines the fluid level in the closed vertical tube ( 23 ), the lower wall of the innermost tube ( 24 ) being terminated above the bottom of the outer, closed vertical tube ( 23 ), the upper wall edge of the wider inner tube ( 22 ) being terminated above the fluid discharge conduit ( 26 ) that determines the fluid level in the closed vertical tube ( 23 ), the lower wall of the wider inner tube ( 22 ) being terminated above the bottom of the outer, closed vertical tube ( 23 ), defining an annulus ( 211 ) between the inside wall of tube ( 22 ) and the outside wall of tube ( 24 ) and defining an annulus ( 213 ) between the inside wall of tube ( 23 ) and the outside wall of tube ( 22 ). 12. Apparatus as claimed in claim 3 , wherein the second particle retaining unit ( 32 ) is supplied with arrangements at the lower surfaces that gather small rising gas bubbles into larger bubbles and channel these to rise to the reactor liquid surfaces in such a way that they locally impose strong mixing to break up floating sludge to enhance release of gas within this floating sludge. 13. Apparatus as claimed in claim 3 , wherein the second particle retaining unit ( 32 ) is supplied with inside arrangements consisting of parallel plates or tubes parallel to the said unit's side walls to dampen flow disturbances and obtain laminar flow conditions to enhance sedimentation of particles.