Energy resource system

The invention claimed is: 1. An energy resource management server comprising: means for receiving energy availability messages from remote energy resources and geographic location indicators indicative of the geographical location of said remote energy resources; means for receiving energy request messages from remote energy resources and geographic location indicators indicative of the geographical location of said remote energy resources; a processor configured to determine counterparties in an energy resource transfer based on received energy availability messages and received energy request messages and the geographical location of the remote energy resources and one or more of: i. a transfer time comprising an amount of time at least one of the remote energy resource is willing to engage in said energy resource transfer, ii. energy availability time window comprising a temporal window of time at least one of the remote energy resources is available for sharing, and iii. a measure of the time required to transfer a particular amount of energy between remote energy resources, wherein the processor is configured to transmit, to one or both of the counterparties, geographical location information of the other counterparty of the determined counterparties. 2. The energy resource management server of claim 1 in which the processor is configured to, prior to the transmittal of location information of a first of the counterparties to a second of the counterparties, transmit an energy transfer connection notification message to inform the first counterparty of the identification of a counterparty requesting the energy resource. 3. The energy resource management server of claim 2 in which the processor is configured to await the receipt of a response from the counterparty sent the energy transfer connection notification message before transmitting the location information to the other counterparty. 4. The energy resource management server of claim 1 in which the processor is configured to transmit a list of candidate counterparties having energy availability to the counterparty requesting energy resource, each candidate in the list associated with an approximate location indicator and, after receipt of a selection message which indicates a selected candidate from the list of candidate counterparties, transmit a more precise location indicator for the selected candidate counterparty. 5. The energy resource management server of claim 1 including means to receive energy transfer messages indicative of the amount of energy transferred between the counterparties. 6. The energy resource management server of claim 1 in which the processor is configured to transmit at least one energy transfer control messages to one or both of the counterparties to control the transfer of energy between the counterparties. 7. The energy resource management server of claim 5 in which the processor is configured to associate a record of the amount of energy transferred with a counterparty identifier which identifies at least one of the counterparties. 8. An energy resource management server including means for receiving energy availability messages from remote energy resources and geographic location indicators indicative of the geographical location of said remote energy resources; means for receiving energy request messages from remote energy resources and geographic location indicators indicative of the geographical location of said remote energy resources; a processor configured to determine counterparties in an energy resource transfer based on received energy availability messages and received energy request messages and the geographical location of the remote energy resources, the processor further configured to transmit, to one or both of the counterparties, geographical location information of the other counterparty of the determined counterparties; means to receive geographical location indicator messages comprising the geographical location of a remote energy resource supplying energy in an energy resource transfer; and means to receive energy resource owner location messages comprising the geographical location of an owner of an energy resource that is supplying energy in the energy resource transfer, and a processor configured to provide for determination of the geographical distance, during the energy resource transfer, between the remote energy resource supplying energy to one of the counterparties and the other counterparty comprising the owner of said remote energy resource. 9. The energy resource management server of claim 1 in which the remote energy resources include portable fuel cell power sources having associated fuel reservoirs. 10. A mobile telecommunication device comprising: a first communication channel configured for coupling to an energy resource; a second communication channel configured for coupling to a remote server; a processor configured to receive a status message from the energy resource via the first communication channel and to transmit an energy availability message and a geographic location indicator to the remote server via the second communication channel, the processor further configured to receive an energy request message from the remote server, and to provide for display of said energy request and one or more of: i) send a message defining a transfer time comprising an amount of time a user of the device is willing to engage in said energy resource transfer, and ii) send a message defining an energy availability time window comprising a temporal window of time the user of the device is available for sharing. 11. The mobile telecommunication device of claim 10 in which the status message includes an indication of one or more of: an energy resource type; an energy resource level. 12. The mobile telecommunication device of claim 10 in which the energy availability message includes an indication of one or more of: an energy resource type; an energy resource level; an energy availability quantum; a transfer time; an energy availability time window. 13. A mobile telecommunication device comprising: a first communication channel configured for coupling to an energy resource; a second communication channel configured for coupling to a remote server; a processor configured to receive a status message from the energy resource via the first communication channel and to transmit an energy availability message and a geographic location indicator to the remote server via the second communication channel, the processor further configured to receive an energy request message from the remote server, and to provide for display of said energy request; and, a user interface configured to receive a user input defining an energy availability quantum and an energy availability time window. 14. The mobile telecommunication device of claim 10 further including an energy resource unit, the energy resource unit comprising: a fuel cell power source and a fuel canister; or a fuel reservoir. 15. The mobile telecommunication device of claim 10 wherein the processor is configured to display guidance to the geographical location of at least one of the energy resources willing to share energy. 16. The mobile telecommunication device of claim 10 , wherein the processor is configured to control the energy resource transfer based on at least one of the amount of energy specified in the energy request message, an amount of energy specified in a message received from the remote server, at least one control signal received from the remote server or at least one control signal received