Compression device and method

We claim: 1 . A fluid compression device having a compression chamber accommodating a mobile piston, the fluid compression device comprising: a first end accommodating a first end of the compression chamber; a second end accommodating a second end of the compression chamber, the compression chamber having a piston that is configured to move in translation between the first and second ends of the compression chamber; a regeneration circuit connecting the first and second ends of the compression chamber and having a regenerator; a supply pipe comprising an upstream end intended to be connected to a source of fluid to be compressed and a downstream end opening into the first end of the compression chamber, the supply pipe comprising a set of one or more valves; at least one compressed-fluid discharge pipe comprising an upstream end connected to the compression chamber and a downstream end intended to be connected to a receiver of the compressed fluid; and a bypass pipe comprising an upstream end connected to the regeneration circuit and a downstream end connected to a recovery member, the bypass pipe being configured to draw a fluid fraction during a regeneration phase during which the piston is moved from the second end towards the first end of the compression chamber. 2 . The fluid compression device according to claim 1 , wherein the upstream end of the bypass pipe is connected to the regeneration circuit at the second end of the compression chamber and/or at the first end of the compression chamber and/or at the regenerator. 3 . The fluid compression device according to claim 1 , wherein the bypass pipe comprises a set of one or more valves, for example at least one pressure and/or flow rate regulation valve. 4 . The fluid compression device according to claim 3 , wherein the set of one or more valves is selected from the group consisting of pressure regulation valve, flow rate regulation valve, and combinations thereof. 5 . The fluid compression device according to claim 3 , wherein the bypass pipe comprises a pressure and/or flow rate regulation valve controlled as a function of the pressure inside the fluid tank and/or the pressure inside the compression chamber. 6 . The fluid compression device according to claim 1 , further comprising a liquefied-fluid tank constituting a fluid source connected to the upstream end of the supply pipe, and in that the recovery member comprises said tank. 7 . The fluid compression device according to claim 6 , wherein the bypass pipe comprises a pressure and/or flow rate regulation valve controlled as a function of the pressure inside the fluid tank and/or the pressure inside the compression chamber. 8 . The fluid compression device according to claim 6 , wherein the pressure and/or flow rate regulation valve are controlled as a function of the pressure at the second end of the compression chamber. 9 . The fluid compression device according to claim 6 , wherein the pressure and/or flow rate regulation valve is configured to provide controlled regulation as a function of the pressure differential between the pressure inside the fluid tank and the pressure inside the compression chamber. 10 . The fluid compression device according to claim 1 , wherein the set of one or more valves of the supply pipe comprises a non-return member such as a non-return valve. 11 . The fluid compression device according to claim 1 , wherein the second end of the device comprises a heating system. 12 . The fluid compression device according to claim 1 , wherein the first end of the device comprises a cooling or heating system. 13 . The fluid compression device according to claim 1 , wherein the regenerator comprises a heat exchanger tube, in particular a cylindrical tube, filled with a material configured to store and release the heat and to allow the fluid in the liquid and/or gaseous state to pass. 14 . A method for compressing fluid by means of a device according to claim 1 , the method comprising the following successive steps: a) admitting a fluid in the liquid state at an initial pressure into the first end of the compression chamber via the supply pipe, b) compressing by movement of the piston towards the first end of the compression chamber and transfer of the fluid from the first end of the compression chamber towards the second end of the compression chamber via the regeneration pipe, the second end of the device being kept at a temperature higher than the temperature of the first end, c) regenerating by movement of the piston towards the second end of the compression chamber and transfer of the fluid from the second end of the compression chamber towards the first end of the compression chamber, wherein the method further includes, during the regeneration step c), a step of bypassing a fluid fraction outside the compression chamber from the second end of the compression chamber towards the first end of the compression chamber. 15 . The method according to claim 14 , wherein the fluid in the liquid state is admitted into the first end of the compression chamber at an initial pressure from a liquefied-fluid tank, and in that the fluid fraction is sent towards the liquefied-fluid tank during the bypass step.