I think that we are getting a little confused here. Allow me to clarify. At the cellular level, energy is stored in the form of ATP and ADP. Removing a phosphate from ATP turns it into ADP, releasing energy. (Energy is stored by creating chemical bonds, and released when those bonds are broken.) Glucose is not energy, but rather the fuel for mitochondria that is used to create ATP and ADP.
ATP, or adenosine triphosphate, is the byproduct of the mitochondria's processes, the Kreb cycle. By breaking down glucose, mitochondria create energy in the form of ATP, and create CO2 as a waste product. This is analogous to burning wood to create heat. Let's get the facts straight here -- mitochondria take O2 and C6-H12-O6 and create H2O, CO2, and ATP. Energy (in the form of adenosine {di|tri}phosphate) is needed to start the reaction, but we can assume it uses some ATP or ADP from the previous reaction that generated the energy.
Sorry, but I believe your equations are getting messed up here -- you write: "C6H12O6+6CO2+36ADP-> 6CO2 + 6H2O+36 ATP." However, if you add up the amount of carbon present in the left side of the equation, you have 6 + 6 = 12C, and in the right side, you have only 6C -- which means you lost another 6C, and that simply cannot be the case. I don't think you can really burn glucose and then inhale it (glucose). Burning implies a chemical change, which means the same thing you burn will not come out as the same thing in vaporous and powder (solid) form. I'm almost certain you meant to refer to the chemical equation that represents converting glucose into energy in cellular respiration, which is C6-H12-O6 + 6O2 ==> 6CO2 + 6H2O + 36 ATP. But again, I don't know why you'd be inhaling glucose, or burnt glucose for that matter. The glucose provided to cellular mitochondria is obtained in the bloodstream, which comes from nutrients broken down in the digestive system.
Now that I think of it, cellular division (mitosis) relies on energy... and thus glucose... Since cancer is mitosis gone wild, a cancerous cell requires and uses more glucose than a normal cell does. This makes me wonder if any significant links between diabetes and cancer have been found, since diabetes deals with abnormal glucose levels.
Edit:
Also, in your previous response, you seem to have (accidentally?) avoided all my introductory questions.