Microbial fuel cell unit, use thereof, and microbial fuel cell arrangement

1 . Microbial fuel cell arrangement comprising at least two microbial fuel cell (MFC) units, where each unit comprises at least one cathode, at least one anode, which is arranged at a distance from the cathode, preferably in direction of gravity, the anode being in free contact with a surrounding medium, provided that the number of cathodes or anodes is more than one, the anode(s) and cathode(s) being connected with each other through an external electrical circuit, locating means for positioning the unit within the surrounding medium, wherein the fuel cell units are free from any membranes located between the cathode(s) and the anode(s) and where each unit is physically connected, detachably, with at least one other unit. 2 . Arrangement according to claim 1 , wherein in the microbial fuel cell unit the at least one cathode is flat and sheet-like, having a first horizontal large surface which can be arranged in contact with a catholyte, and a second horizontal large surface which is at least partly arranged in contact with the surrounding medium. 3 . Arrangement according to claim 1 , wherein the at least one anode is brushlike, has a honeycomb structure or is in form of a hollow perforated body. 4 . Arrangement according to claim 1 , wherein the at least one anode may be a flat sheet-like anode, arranged parallel with the at least one cathode. 5 . Arrangement according to claim 1 , wherein in that in the microbial fuel cell unit the number of anodes is higher than the number of cathodes. 6 . Arrangement according to claim 5 , wherein unit comprises one cathode and a plurality of anodes. 7 . Arrangement according to claim 1 , wherein the unit comprises a plurality of anodes, which are arranged in connection with one common anode current collector, or each individual anode is arranged in connection with its own anode current collector. 8 . Arrangement according to claim 1 , wherein the unit comprises at least two anodes, which are in contact with a common anode current collector. 9 . Arrangement according to claim 1 , wherein the locating means comprises at least one floating support, such as a buoy. 10 . Arrangement according to claim 1 , wherein the locating means comprises attaching means and fixed supports, such as poles. 11 . Arrangement according to claim 1 , wherein the locating means is arranged to position the cathode in contact with the surface of the surrounding medium. 12 . Arrangement according to claim 1 , wherein each unit comprises an anode current collector and a cathode current collector, and the anode current collectors and the cathode current collectors are in electrical connection with each other. 13 . Arrangement according to claim 1 , wherein the cathodes of the units are connected to a common cathode current collector and the anodes of the units are connected to a common anode current collector. 14 . Arrangement according to claim 1 , wherein each unit comprises either an anode current collector or a cathode current collector, and either the cathodes of the units are connected to a common cathode current collector or the anodes of the units are connected to a common anode current collector. 15 . Use of an arrangement according to claim 1 for treating surrounding medium, which is a body of water including natural waters, such as rivers, lakes, ponds, and wastewater. 16 . Use of an arrangement according to claim 1 for treating surrounding medium, which is wastewater selected from domestic wastewater; municipal or agricultural wastewater; effluent from an industrial process selected from pulp and paper, oil and gas, mining, food or beverage, pharmaceutical manufacturing, textile manufacturing, chemical manufacturing, power production, goods or electronics manufacturing, medical waste. 17 . (canceled) 18 . (canceled)