Method and apparatus for controllable storage of hydrogen

1 . A method for releasably storing hydrogen gas, the method comprising: forming a clathrate hydrate structure within a storage, volume, the clathrate hydrate structure comprising a lattice having a plurality of gas molecule retaining cavities in which molecules of hydrogen gas to be stored are trapped; and applying an electromagnetic field to the storage volume to controllably transfer the hydrogen gas from or to the clathrate hydrate structure, wherein a field strength of the electromagnetic field is selected to avoid dissociation of the clathrate hydrate structure. 2 . A method according to claim 1 , wherein the electromagnetic field is a microwave electromagnetic field. 3 . A method according to claim 1 including adjusting a field strength of the electromagnetic field to control a transfer rate of the hydrogen gas from or to the clathrate hydrate structure. 4 . A method according to claim 3 , wherein the field strength of the electromagnetic field is non-zero and adjustable in a range up to 1% of an intrinsic field of the clathrate hydrate structure lattice. 5 . A method according to claim 3 , wherein a root mean square amplitude of the field strength of the electromagnetic field is adjustable within the range 0.000001 to 0.01 V/Å. 6 . A method according to claim 1 , wherein a field strength of the electromagnetic field is three or more magnitudes less than an intrinsic field of the clathrate hydrate structure lattice. 7 . A method according to claim 1 , wherein the electromagnetic field is applied in a pulsed manner. 8 . A method according to claim 1 including monitoring temperature and pressure conditions in the storage volume. 9 . A method according to claim 8 including determining a release rate of the hydrogen gas based on the temperature and pressure conditions, and providing a feedback signal for controlling the electromagnetic field based on the determined release rate. 10 . A method according to claim 8 including detecting a temperature in the storage volume, and operating a coolant system based on the detected temperature to control the temperature condition in the storage volume. 11 . A method according to claim 1 , wherein the clathrate hydrate comprises an sII polymorph lattice structure having a plurality of larger gas molecule retaining cavities, and a plurality of smaller gas molecule retaining cavities occupied by the hydrogen gas. 12 . A method according to claim 11 , wherein the plurality of larger gas molecule retaining cavities are occupied by propane, methane or carbon dioxide. 13 . An apparatus for releasably storing hydrogen gas, the apparatus comprising: a vessel defining a storage volume for containing a clathrate hydrate structure, the clathrate hydrate structure comprising a lattice having a plurality of gas molecule-retaining cavities in which molecules of hydrogen gas to be stored are trapped; an electromagnetic field generator arranged to emit an electromagnetic field across the storage volume to controllably release the hydrogen gas from the clathrate hydrate structure; and an outlet communicably connectable with the storage volume to permit the released hydrogen gas to exit the vessel, wherein a field strength of the electromagnetic field is selected to avoid dissociation of the clathrate hydrate structure. 14 . An apparatus according to claim 13 including a controller arranged to selectively adjust a field strength of the electromagnetic field to control a release rate of the hydrogen, gas from the clathrate hydrate structure. 15 . An apparatus according to claim 14 including: a temperature sensor arranged to monitor a temperature of the storage volume; and a pressure sensor arranged to monitor a pressure of the storage volume, wherein the temperature sensor and pressure sensor are communicably connected to the controller, whereby the controller is arranged to adjust the field strength of the electromagnetic field based on detected temperature and pressure conditions in the storage volume. 16 . An apparatus according to claim 13 comprising an inlet communicably connectable with the storage volume to introduce a source gas. 17 . An apparatus according to claim 13 , wherein the outlet is connectable to a mains gas transmission network or to one or more fuel cells. 18 . An apparatus according to claim 13 including a coolant system arranged to deliver a coolant to the vessel to maintain a temperature in the storage volume. 19 . An apparatus according to claim 13 including a rocker mechanism arranged to agitate the vessel to promote clathrate hydrate formation.