Apparatus for determining reactant purity

The invention claimed is: 1. A reactant distribution method comprising: a reactant distribution system configured to receive a reactant purity indicator from each of a plurality of sensors located at geographically disparate reactant use locations; a location associated with each indicator from each of the plurality of sensors with reference to a reactant distribution network configured to supply reactant to the reactant use locations; the reactant distribution system adapted to reconfigure the reactant distribution network and/or disable the use of reactant at one or more reactant use locations in response to a received indicator that is representative of poor reactant purity from a particular reactant use location based on the location of said particular reactant use location in the reactant distribution network; and a controller configured to determine an electrical output difference, OD t , between an electrical output of a first fuel cell and an electrical output of a second fuel cell, and determine a difference between a predicted output difference and the determined electrical output difference, OD t , the predicted output difference determined based on a historical output difference and a historical rate of change in the output difference determined at an earlier time, and the controller configured to provide the reactant purity indicator from each of the plurality of sensors based on the difference between the predicted and determined output difference. 2. The method according to claim 1 , wherein the reactant distribution system is configured to reconfigure the reactant distribution network by inhibiting the distribution of reactant to part of the reactant distribution network downstream of a dispensing location from which the reactant purity indicator of poor reactant purity is received. 3. The method according to claim 2 , wherein the reactant distribution system is configured to provide a valve close signal, in real time, for actuation of a valve in the reactant distribution network to prevent a flow of reactant along a distribution conduit downstream of the dispensing location from which the reactant purity indicator of poor reactant purity is received. 4. The method according to claim 2 , wherein the reactant distribution system is configured to provide a signal, in real time, to prevent distribution of reactant from a batch of reactant to a reactant dispensing location(s) downstream along a predetermined route from the dispensing location from which the reactant purity indicator of poor reactant purity is received and which also received reactant from said batch of reactant. 5. The method according to claim 1 , wherein the reactant distribution system is configured to disable the use of reactant at one or more reactant use locations by being configured to, using the reactant distribution network, identify one or more reactant use locations that received reactant from a common reactant source as the particular reactant use location and provide for the disablement of said identified reactant use locations. 6. The method according to claim 5 , wherein the reactant distribution system is configured to provide an inhibition signal to one or more of the identified reactant use locations to inhibit the use of reactant received from the common reactant source. 7. The method according to claim 2 , wherein the reactant distribution system is configured to provide an alternate supply signal to reconfigure the reactant distribution network such that the reactant dispensing locations located in the part of the reactant distribution network downstream of the dispensing location from which the reactant purity indicator of poor reactant purity is received and/or the identified reactant use locations, are supplied with reactant from a different part of the reactant distribution network. 8. The method according to claim 7 , the method wherein the controller is configured to provide a purity output indicative of a test reactant purity at least based on a difference between a predicted test reactant output and determined test reactant output difference.