High Performance Blenders: What is the Deal?

If I had a nickel for each time I had been questioned at one of my roadshows, “What Is so amazing about the Blendtec?” or “Why is this so superior to the best blender I ‘ve?,” I wouldn’t really have to sell the darn things. These and others like them are definitely valid questions – after seeing a price tag of almost $400 on something which looks not a lot unlike any standard home blender you see in shops everywhere, typically inquired of me. Usually, my response is that with any well made high performance blender, your cash is mostly being spent on first-class hp, which will be directly responsible for its versatility as well as the more healthy results it generates.


Yet, I want to create this disclaimer before I delve into more detail relating to this: I ‘m not an engineer, physician, scientist that is nutritional, or dietician. What I ‘m a man who’s extremely experienced in using top of the line blenders. Realize my expertise is in the way to make use of them, not in the engineering that goes into making them, nor the science behind the effects they generate, although surely I know enough to discuss them.

A Speedy Note on Hp
While I speak of high performance blenders, I will be referring to those that include at least a 2 peak hp-rated motor that will provide the very least of at least 1 accurate hp of energy that is mechanical. Hp is just a term used as a regular measurement of electricity – the power of an electric appliance, in this instance. A blender’s hp evaluation (what’s marked on the machine or advertised by the producer) is frequently used to spell out its electricity output capacity. Nevertheless, its accurate operation electricity is ultimately determined by computing the strength (amperage) of the electric current coming to the machine plus factoring in efficiency loss in converting the electrical energy into working energy (as an example, how well the machine cools itself during regular use).