Device for compressing and expanding a gas and method for controlling the pressure in two grids of a different nominal pressure level

The invention claimed is: 1. A device for compressing and expanding gases, the device comprises: an apparatus that is configured to be driven in two directions, wherein in a first direction, the apparatus operates to compress a gas and in a second direction, the apparatus operates to expand a gas; a high pressure pipe that connects the apparatus to a high pressure supply network and a low pressure pipe that connects the apparatus to a low pressure supply network; and a control unit for controlling the device in order to control a supply of gas to control pressure in the high pressure supply network and/or the low pressure supply network, wherein the apparatus, when it is driven in the first direction, is configured to compress the gas from the low pressure supply network to the high pressure supply network, and when the apparatus is driven in the second direction, the apparatus is configured to expand the gas from the high pressure supply network to the low pressure supply network, wherein in the high pressure pipe or in the low pressure pipe an inlet valve is affixed for controlling the supply of the gas from the high pressure supply network to the low pressure supply network via the apparatus, wherein a non-return valve is provided in parallel to said inlet valve, wherein said non-return valve allows a gas flow from the low pressure pipe to the high pressure pipe, wherein the device is provided with means to determine the pressure in the high pressure supply network and low pressure supply network, and wherein the control unit contains an algorithm for driving the apparatus in the first or second directions on a basis of the pressure determined in the high pressure supply network and low pressure supply network based on at least one of the following: when the pressure in the high pressure supply network is lower than a set value for the high pressure network, controlling the apparatus as a compressor; when the pressure in the low pressure supply network is lower than a set value for the low pressure network, controlling the apparatus as an expander; when the pressure in both the low pressure supply network and the high pressure supply network is lower than the set values, switching off the apparatus; and when the pressure in both the low pressure supply network and the high pressure supply network is higher than the set values, controlling the apparatus as an expander or compressor according to choice. 2. The device according to claim 1 , wherein when the apparatus operates for expanding the gas, energy is able to be recovered from the gas by the device. 3. The device according to claim 2 , wherein the device is provided with a motor with a shaft that is connected to the apparatus, wherein the motor is configured to act as a motor to drive the apparatus when the apparatus operates to compress the gas and wherein the motor is configured to also act as a generator for the recovery of energy from the gas when the apparatus operates to expand the gas. 4. The device according to claim 3 , wherein the motor is an induction motor. 5. The device according to claim 3 , wherein the device is provided with a cooling fan for cooling the shaft of the motor in both directions in which the apparatus can be driven. 6. The device according to claim 2 , wherein the device is provided with a four quadrant converter that can supply the energy, recovered by the device, to an electricity network when the apparatus operates to expand the gas and which can draw energy from the electricity network to drive the apparatus when it operates to compress the gas. 7. The device according to claim 1 , wherein the apparatus is an adapted screw expander-compressor with two meshed screws that are mounted on bearings in a housing that is provided with two passages, of which the first passage can act as an inlet or an outlet depending on whether the apparatus is driven in the first direction for compressing gas or in the second direction for expanding gas, while the second passage can act as an outlet or inlet depending on whether the apparatus is driven in the first direction for compressing gas or in the second direction for expanding gas. 8. The device according to claim 1 , wherein the apparatus is provided with at least one bidirectional seal that ensures sealing in both directions in which the apparatus is driven. 9. The device according to claim 1 , wherein the apparatus is provided with bearings that enable a rotation in both directions in which the apparatus can be driven. 10. The device according to claim 1 , wherein the inlet valve and the non-return valve are affixed in one housing. 11. The device according to claim 1 , wherein a heat exchanger is placed in series with the non-return valve for cooling the gas compressed by the apparatus. 12. The device according to claim 1 , wherein the device is provided with a heat exchanger in the high pressure pipe next to the apparatus on the side of the high pressure supply network. 13. The method for controlling the pressure in multiple networks, wherein use is made of the device according to claim 1 . 14. The device according to claim 1 , wherein the choice is chosen from at least one of the following: demand or desired power or electrical energy for an electricity network; difference between the set value in the low pressure supply network and the pressure in the low pressure supply network is greater than a difference between the set value in the high pressure supply network and the pressure in the high pressure supply network; maintain a target value of the high pressure supply network; maintain a target value of the low pressure supply network; maximize energy production; and maximize energy consumption. 15. The device according to claim 1 , wherein the controlling is based in part on a set value for the high pressure supply network, and a set value for the low pressure supply network. 16. A method for controlling a pressure in two supply networks each having a different nominal pressure level, respectively a high pressure supply network and a low pressure supply network, wherein both pressure supply networks are connected together by an apparatus that is configured to act as both a compressor for compressing the gas from the low pressure supply network to the high pressure supply network, and is configured to act as an expander for expanding the gas from the high pressure supply network to the low pressure supply network, the method comprising the steps of: determining the pressure in the high pressure supply network and low pressure supply network, controlling the apparatus as a compressor or expander on the basis of the pressure in the high pressure supply network and/or low pressure supply network, wherein the apparatus is driven in a first or second direction on a basis of the pressure determined in the high pressure supply network and low pressure supply network based on at least one of the following: when the pressure in the high pressure supply network is lower than a set value for the high pressure network, controlling the apparatus as a compressor; when the pressure in the low pressure supply network is lower than a set value for the low pressure network, controlling the apparatus as an expander; when the pressure in both the low pressure supply network and the high pressure supply network is lower than the set values, switching off the apparatus; and when the pressure in both the low pressure supply network and the high pressure supply network is higher than the set values, controlling the apparatus as an expander or compressor according to choice.