At the nodes, there may be 'no displacement' but the force is high. (In a mechanical example- and there is always an equivalent for other waves). A standing wave is just the resultant of many waves traveling in different directions so energy will be traveling across the node for that reason.
IF you are looking for a 'deeper' reason how any energy can be passed from a zero displacement point (i.e. no Potential Energy) then I think you need to consider two cases.
1. The standing wave is starting up (the excitation has just been turned on) and the level of the standing wave is building up. In this case the nulls haven't formed yet as the left flowing energy is not the same as the right flowing energy.
2. The standing wave has established itself at its final level, at which point there is energy being lost at the same rate as energy is being supplied. I think that, as energy loss is involved, the phases of the reactive and 'resistive' parts, which are due to the loss mechanisms, will mean that you won't get perfect cancellation either so the nulls aren't perfect nulls, the depth of the null depending on the Q of the resonance. Energy is still flowing through the system.