Solids mitigation within flow batteries

What is claimed is the following: 1. A flow battery comprising: a first half-cell containing a first electrolyte solution; a second half-cell containing a second electrolyte solution; a first reservoir containing the first electrolyte solution; a second reservoir containing the second electrolyte solution; a first flow loop comprising a first pump and configured to circulate the first electrolyte solution from the first reservoir through the first half-cell and returning to the first reservoir; a second flow loop comprising a second pump and configured to circulate the second electrolyte solution from the second reservoir through the second half-cell and returning to the second reservoir; and at least one lamella clarifier, each lamella clarifier comprising (a) an inflow location, (b) an outflow location, and (c) a solids outlet and separately positioned in the first flow loop, the second flow loop, or in each of the first and second flow loops; wherein the inflow location of each lamella clarifier is configured to receive an incoming electrolyte flow stream and is positioned upstream of the outflow location within the respective first and/or second flow, wherein each lamella clarifier is configured (i) to generate (a) an exiting electrolyte stream having a concentration of solids that is lower than that of the incoming electrolyte flow stream and (b) a solids-containing outflow stream having a concentration of solids that is higher than that of the incoming electrolyte flow stream and (ii) to direct the exiting electrolyte stream having the lower concentration of solids to exit the lamella clarifier through the outflow location and (iii) to direct the solids-containing outflow stream having the higher concentration of solids to exit the lamella clarifier through the solids outlet; and wherein the solids outlet is fluidically coupled to an external processing unit that is configured (i) to remove solids from the solids-containing outflow stream so as to provide a solids-depleted electrolyte stream and (ii) to direct the solids-depleted electrolyte stream to the respective first and/or second reservoir and/or the respective first and/or second flow loop via a return line. 2. The flow battery of claim 1 , wherein each lamella clarifier is disposed between the respective first and/or second pump and an entry location of the first and/or second half-cell. 3. The flow battery of claim 1 , wherein each lamella clarifier is disposed between the first and/or second electrolyte reservoir and the first and/or second pump, respectively. 4. The flow battery of claim 1 , wherein the at least one lamella clarifier is disposed in the electrolyte reservoir. 5. The flow battery of claim 1 , wherein the external processing unit is a filtration system, a heat source, a settling tank, or a combination thereof. 6. The flow battery of claim 1 , further comprising a secondary line configured to bypass the at least one lamella clarifier in the respective first and/or second flow loop. 7. The flow battery of claim 1 , wherein the external processing unit is configured to direct the solids-depleted electrolyte stream to the respective first and/or second reservoir. 8. A method comprising: circulating the first and second electrolyte solutions through the flow battery of claim 1 discharging the solids-containing outflow stream from the at least one lamella clarifier to the external processing unit; and directing the solids-depleted electrolyte stream to the respective first and/or second reservoir and/or the first and/or second flow loop. 9. The method of claim 8 , wherein the at least one lamella clarifier is disposed between the first and/or second pump and the first and/or second half-cell, respectively. 10. The method of claim 8 , wherein the at least one lamella clarifier is disposed between the respective first and/or second electrolyte reservoir and the respective first and/or second pump. 11. The method of claim 8 , wherein the at least one lamella clarifier is disposed in the respective first and/or second electrolyte reservoir. 12. The method of claim 8 , wherein the external processing unit is a filtration system a heat source, a settling tank or any combination thereof. 13. The method of claim 8 , further comprising diverting at least a portion of the electrolyte solution to bypass the at least one lamella clarifier. 14. The method of claim 8 , wherein the solids-depleted electrolyte stream is directed to the respective first and/or second reservoir.