Heat exchanger for a loopseal of a circulating fluidized bed boiler and a circulating fluidized bed boiler

The invention claimed is: 1. A heat exchanger suitable for recovering heat from bed material of a fluidized bed boiler, the heat exchanger comprising: first heat exchanger tubes, second heat exchanger tubes, a first feeding chamber configured to supply bed material to the first heat exchanger tubes, a second feeding chamber configured to supply bed material to the second heat exchanger tubes, and a first wall that limits the first feeding chamber and the second feeding chamber, the first wall comprising a first lower edge that is arranged at a higher vertical level than a floor or floors of the first feeding chamber and the second feeding chamber, wherein: the first heat exchanger tubes are arranged only on a first side of a plane and the second heat exchanger tubes are arranged only on a second side of the plane, the first feeding chamber is configured to supply bed material to the second feeding chamber, and the first feeding chamber is configured to supply bed material to the second feeding chamber from between the first lower edge of the first wall and floor(s) of the first and second feeding chambers. 2. The heat exchanger of claim 1 , wherein: the first feeding chamber is configured to supply bed material only to the first heat exchanger tubes and to the second feeding chamber, and the second feeding chamber configured to supply bed material only to the second heat exchanger tubes. 3. The heat exchanger of claim 1 , further comprising: primary first nozzles arranged at a lower vertical level than the first lower edge of the first wall and in the first feeding chamber, the primary first nozzles being configured to fluidize bed material in the first feeding chamber; and primary second nozzles arranged at a lower vertical level than the first lower edge of the first wall and in the second feeding chamber, the primary second nozzles being configured to fluidize bed material in the second feeding chamber. 4. The heat exchanger of claim 1 , further comprising: secondary first nozzles arranged at a higher vertical level than the first lower edge of the first wall and in the first feeding chamber, the secondary first nozzles being configured to fluidize bed material in the first feeding chamber; and secondary second nozzles arranged at a higher vertical level than the first lower edge of the first wall and in the second feeding chamber, the secondary second nozzles being configured to fluidize bed material in the second feeding chamber. 5. The heat exchanger of claim 3 , further comprising: secondary first nozzles arranged at a higher vertical level than the first lower edge of the first wall and in the first feeding chamber, the secondary first nozzles being configured to fluidize bed material in the first feeding chamber; and secondary second nozzles arranged at a higher vertical level than the first lower edge of the first wall and in the second feeding chamber, the secondary second nozzles being configured to fluidize bed material in the second feeding chamber. 6. The heat exchanger of claim 1 , wherein: the second heat exchanger tubes are arranged in a second heat exchange chamber of the heat exchanger; the second feeding chamber comprises an outlet for supplying bed material to the second heat exchange chamber; and the outlet of the second feeding chamber is arranged at a higher vertical level than the first lower edge. 7. The heat exchanger of claim 1 , further comprising: a second wall that limits an inlet chamber and the first feeding chamber, and an inlet for receiving bed material, the inlet being arranged in the inlet chamber, wherein: the second wall comprises a second lower edge that is arranged at a higher vertical level than a floor or floors of the inlet chamber and the first feeding chamber, and the inlet chamber is configured to supply bed material to the first feeding chamber from between the second lower edge of the second wall and floor(s) of the inlet chamber and the first feeding chamber. 8. The heat exchanger of claim 7 , further comprising: a first wall that limits the first feeding chamber and the second feeding chamber, the first wall comprising a first lower edge that is arranged at a higher vertical level than a floor or floors of the first feeding chamber and the second feeding chamber, wherein: the second wall is parallel to the first wall, the first lower edge is not arranged at a lower vertical level than the second lower edge, and the first feeding chamber is configured to supply bed material to the second feeding chamber from between the first lower edge of the first wall and floor(s) of the first and second feeding chambers. 9. The heat exchanger of claim 7 , wherein the first feeding chamber is arranged between the inlet chamber and the second feeding chamber. 10. The heat exchanger of the claim 8 , wherein: the first heat exchanger tubes are arranged in a first heat exchange chamber of the heat exchanger; the first feeding chamber comprises an outlet for supplying bed material to the first heat exchange chamber of the heat exchanger; and the outlet of the first feeding chamber is arranged at a higher vertical level than the first lower edge and/or the outlet of the first feeding chamber is arranged at a higher vertical level than the second lower edge. 11. The heat exchanger of claim 1 , wherein: the heat exchanger further comprises: a third wall limiting a first heat exchange chamber provided with the first heat exchanger tubes, and a fourth wall limiting a second heat exchange chamber provided with the second heat exchanger tubes, and wherein: the third wall is parallel to the fourth wall, and at least a part of the first wall is arranged between the third wall and the fourth wall. 12. The heat exchanger of the claim 1 , wherein: the heat exchanger further comprises: a fifth wall limiting a bypass chamber and an inlet chamber, the fifth wall comprising a fifth lower edge that is arranged at a higher vertical level than a floor or floors of the inlet chamber and the bypass chamber, and the inlet chamber is configured to supply bed material to the bypass chamber, and the bypass chamber is suitable for bypassing the heat exchanger tubes of the heat exchanger. 13. A circulating fluidized bed boiler, comprising: a furnace, a particle separator configured to separate bed material from flue gases receivable from the furnace, and a loopseal configured to receive the separated bed material from the particle separator, the loopseal comprising a heat exchanger comprising: first heat exchanger tubes, second heat exchanger tubes, a first feeding chamber configured to supply bed material to the first heat exchanger tubes, and a second feeding chamber configured to supply bed material to the second heat exchanger tubes, wherein: the first heat exchanger tubes are arranged only on a first side of a plane and the second heat exchanger tubes are arranged only on a second side of the plane, and the first feeding chamber is configured to supply bed material to the second feeding chamber; wherein: the heat exchanger being arranged such that at least a part of the separated bed material is configured to run through the first feeding chamber, a first part of the separated bed material is configured to run from the first feeding chamber to the first heat exchanger tubes, and a second part of the separated bed material is configured to run from the first feeding chamber to the second feeding chamber and through the second feeding chamber to the second heat exchanger tubes; and wherein the heat exchanger further comprises: a first wall that l