Durable pneumatic elevator system and methods

The invention claimed is: 1. An elevator system, comprising: an elevator car; an electric elevator drive adapted to move the elevator car in an elevator shaft, the elevator system further comprising: a gas reservoir, wherein the gas reservoir is adapted for storing a pressurized gas, wherein the gas reservoir is connected to a generator of the elevator system for powering at least a part of the elevator system, wherein the generator is pneumatically actuated by the pressurized gas to generate electric energy, wherein the generated electric energy powers the at least a part of the elevator system including at least a part of an elevator control, a compressor for filling the gas reservoir with gas, and an electric motor for actuating the compressor. 2. An elevator system, comprising: an elevator car; and an elevator drive adapted to move the elevator car in an elevator shaft, the elevator system further comprising: a gas reservoir, wherein the gas reservoir is adapted for storing a pressurized gas, wherein the gas reservoir is connected to a generator of the elevator system for powering at least a part of the elevator system, wherein the generator is pneumatically actuated by the pressurized gas to generate electric energy, wherein the generated electric energy powers the at least a part of the elevator system including at least a part of an elevator control, a compressor for filling the gas reservoir with gas, and a first electric motor and a second electric motor for actuating the compressor, wherein the first electric motor is a single phase and/or low power motor, and wherein the second electric motor is a multi-phase and/or high power motor. 3. The elevator system according to claim 2 , wherein the elevator drive is arranged at the elevator car, and wherein the gas reservoir is arranged at the elevator car. 4. The elevator system according to claim 2 , wherein the elevator car is a self-supporting elevator car. 5. The elevator system according to claim 4 , wherein the elevator system comprises a plurality of self-supporting elevator cars adapted to be operable in parallel in the same elevator shaft. 6. The elevator system according to claim 2 , wherein the gas reservoir is fillable when the elevator car is at a floor landing and/or at a dedicated filling position within the elevator shaft. 7. The elevator system according to claim 2 , wherein the elevator system is arranged at an operation location, wherein the operation location comprises a multi-purpose source of compressed air, and wherein the multi-purpose source of compressed air is adapted to provide pressurized gas to the elevator drive for actuating the elevator drive and/or to provide pressurized gas to the elevator system for filling the gas reservoir of the elevator system. 8. The elevator system according to claim 2 , the elevator system further comprising at least one of: a processing element that controls the filling of the gas reservoir by operating at least one electric motor of a compressor, and a communication element adapted to receive instructions for operating the elevator system including the filling of the gas reservoir, and/or adapted to transmit operation data of the elevator system to a recipient device. 9. The elevator system according to claim 2 , wherein the elevator system is adapted to receive operating instructions from a communication entity for activating the filling of the gas reservoir via a communication element, wherein the instructions are indicative of or dependent on a current energy cost and/or a current energy availability. 10. The elevator system according to claim 2 , the elevator system further comprising: at least one elevator car door, and/or at least one floor landing door, wherein the at least one elevator car door and/or the at least one floor landing door is pneumatically operable. 11. The elevator system according to claim 10 , wherein the gas reservoir comprises a first gas reservoir, and wherein the elevator system comprises a second gas reservoir separate from the first gas reservoir and adapted for storing pressurized gas, wherein the second gas reservoir is arranged at the elevator car, and wherein the first gas reservoir is arranged to provide pressurized gas to at least one of the at least one elevator car door and/or the at least one floor landing door to allow pneumatically operating the least one elevator car door and/or the at least one floor landing door, wherein the second gas reservoir is connectable to a pressure feed from the first gas reservoir for filling of the second gas reservoir and/or wherein a compressor comprising an electric motor is arranged at the elevator car for filling of the second gas reservoir. 12. The elevator system according to claim 2 , wherein the elevator system is adapted to prohibit elevator operation in case a gas pressure of the gas reservoir is below a defined threshold value, wherein the defined threshold value is indicative of a sufficient gas pressure to allow an evacuation of the elevator car. 13. The elevator system according to claim 2 , the elevator system further comprising an emergency gas reservoir for providing pressurized gas to the pneumatic drive for evacuation of the elevator car; and/or an inlet adapted for connecting an external gas source for providing pressurized gas to the pneumatic drive for evacuation of the elevator car. 14. The elevator system according to claim 2 , wherein an external energy feed is exclusively connected to at least one electric motor of a compressor, and/or wherein the elevator system comprises a heating element for heating the gas reservoir.