Resource-generating dialysis system

What is claimed is: 1. A hemodialysis machine operable in multiple modes, the hemodialysis machine comprising: a blood pump configured to pump blood to and from a patient; an electrical interface; a removable solar panel module configured to connect to the electrical interface and receive light energy and generate electricity; a removable atmospheric water generator configured to be powered by the generated electricity and configured to extract water from ambient air and pump a first portion of the extracted water to a removable mixing chamber; the mixing chamber configured to mix one or more substances with the first portion of the extracted water to generate dialysate; and a dialyzer configured to receive the blood and the dialysate, remove toxins from the blood, and provide filtered blood to the patient, wherein, in a first configuration, the hemodialysis machine operates in an emergency mode using the solar panel module, the atmospheric water generator and the mixing chamber, and wherein, in a second configuration, the hemodialysis machine operates in a clinic mode in which the solar panel module, the atmospheric water generator and the mixing chamber are removed and in which the electrical interface is connected to a power outlet and the dialyzer receives the dialysate from a dialysate supply line. 2. The hemodialysis machine of claim 1 , comprising a battery configured to store a charge derived from the generated electricity. 3. The hemodialysis machine of claim 1 , comprising a water heater configured to heat the extracted water. 4. The hemodialysis machine of claim 3 , wherein the water heater comprises a container for storing heated water. 5. The hemodialysis machine of claim 3 , wherein the water heater comprises a second solar panel module configured to receive light energy that is used to heat the extracted water. 6. The hemodialysis machine of claim 1 , wherein the blood pump comprises a mechanical component that is configured to be manually operated. 7. The hemodialysis machine of claim 6 , wherein the mechanical component comprises one or both of a hand pump and a foot pump. 8. The hemodialysis machine of claim 6 , wherein the mechanical component is configured to generate electricity in response to manual operation of the blood pump. 9. The hemodialysis machine of claim 8 , comprising a battery configured to store a charge derived from the electricity generated by one or both of the mechanical component and the solar panel. 10. The hemodialysis machine of claim 1 , wherein the blood pump comprises one or more valves configured to control a flow rate of the blood pumped to and from the patient. 11. The hemodialysis machine of claim 1 , comprising a forward osmosis container configured to produce a salt concentrate solution from a second portion of the extracted water, the forward osmosis container comprising: a first compartment configured to store a salt concentrate; a second compartment configured to receive the second portion of the extracted water; and a membrane that separates the first compartment from the second compartment, the membrane configured to allow the second portion of the extracted water to mix with the salt concentrate to produce the salt concentrate solution. 12. The hemodialysis machine of claim 11 , wherein the forward osmosis container further comprises one or more conductivity sensors configured to ensure that the salt concentration solution has a salt concentration commensurate with saline solution. 13. The hemodialysis machine of claim 1 , further comprising a sorbent device configured to (i) remove toxins from spent dialysate flowing from the dialyzer to produce recycled dialysate, and (ii) provide the recycled dialysate to the dialyzer for further cleansing of the patient's blood.