Dear Sir. Concerning your issue about the interaction of hydrogen and oxygento generate water using induction coil interaction. Water, being dipolar, can be partially aligned by an electric field and this may be easily shown by the movement of a stream of water by an electrostatic source. Very high field strengths (>2.5 ˣ 109 V ˣ m-1) cause water dissociation in liquid water and hexagonal ice with slightly higher field strengths (>3.6 ˣ 109 V ˣ m-1) causing continued proton flow in ice. Similarly, high field strengths (5 ˣ 109 V ˣ m-1) are required to reorient water in ice such that freezing is inhibited, with lower fields (105 V ˣ m-1) encouraging ice formation in supercooled water by weakening the hydrogen bonding. Even partial alignment of the water molecules with the electric field will cause pre-existing hydrogen bonding to become bent or broken. The balance between hydrogen bonding and van der Waals dispersion attractions is thus biased towards van der Waals attractions giving rise to less cyclic hydrogen-bonded clustering. An electric field also changes the molecular O-H bond lengths (25 ˣ 109 V ˣ m-1 causing ~±6% change in a lone water molecule), H-O-H bond angle (25 ˣ 109 V ˣ m-1 causing ~+1%/-0.2% change in a lone water molecule), vibrational frequencies and dissociation energy, depending on the relative orientation of the molecule to the field. This will affect the hydrogen-bonded network in an anisotropic manner. I think the following below links may help you in your analysis:
I know that Hydrogen with Oxygen interaction to generate water requires a strong power "energy". I just thought this power can be generated from induction coil energy. I thought this idea may be applicable to implement