We have classified these systems as: Alactic System: Stored ATP and creatine phosphate as
fuel Anaerobic System: Requires no oxygen; Glycogen as...
Not exact matches
GWE combine specialized know - how in generating biogas with our extensive range of
anaerobic reactors, and in supply and installation of biogas re-use and handling
systems for fossil
fuel replacement or power generation.
The
anaerobic system yields a bit of energy as ATP and requires adequate amounts of readily accessible
fuel, especially as glucose, a simple unit of carbohydrate.
3) When training anaerobically, your entire
system gets a boost, in order to repair damaged muscle and
fuel those
anaerobic muscle fibers.
To work it would be like this: one leg pedaling to be able to produce 170 watts (lets say) aerobically (so no
anaerobic muscle fibers involved) at 140 BPM... Here, in this context, simply the
fuel system matches the engine (either an engine of 300 watts performed by two legs, either an engine of 170 watts performed by one leg).
This is what my math thinking says about, what i think it would happen in this context of: two cylinder engine versus half of the same engine, along with the Same
Fuel System that did not change at all (Same
Fuel System that's composed by two metabolic engines — aerobic and
anaerobic).
It doesn't matter that the body is capable of having a good
fuel system, meaning a good fat burning at 140 BPM, as long as at 130 BPM the body is using the
anaerobic muscle fibers and producing
anaerobic waste it means we passed the MAF HR (of that context — performing one leg only).
Glycogen is a form of carbohydrate stored inside the muscle that is used to
fuel anaerobic activity (i.e. activity that is too intense to allow the cardiopulmonary
system to deliver adequate oxygen).
So when we say that sugar burns «faster» it's really that the
anaerobic system burns its
fuel (sugar) at a very high speed.
When you challenge your metabolism with exercise when you don't have a lot of carbs to use for
fuel, two things happen: your athletic output (which, in your case, depended on carbs) drops because you only have fats to burn, and your energy levels also drop because when your fat - burning metabolism gets exhausted, there's no other energy
system to pick up the slack: even though the
anaerobic (sugar - burning) metabolism isn't exhausted, it doesn't have any
fuel to burn.
What this means is that for a non-fat-adapted body, it's much easier to forget about trying to burn fats entirely and simply use sugar as a dual - purpose
fuel (for both the aerobic and
anaerobic systems).
When I was with the utility in the 1980's, we got our power from an integrated
system of hydro, wind, supercritical gas boilers, photovoltaic, solar thermal, geothermal, pumped storage,
fuel cells, nuclear units, landfill gas,
anaerobic digestion, and even the emergency generators of the customers dispatched directly by the utility.
By siphoning capital out of the area, and often out of the country where they are installed and, by hogging existing grid capacity they preclude the development of other more labour intensive renewable energy generation technologies such as bio-mass and
anaerobic digestion
fuelled systems.