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Dr. Ben Hindley
HINBEN
Saskatchewan Canada
CUSTOM DESIGNED ALGAE SYSTEMS
SMALL- MEDIUM-LARGE-&-TURNKEY SYSTEMS
WE ARE PROUD TO INTRODUCE OUR NEW AND POWERFUL, FULLY AUTOMATED CONTINUOUS FLOW BIODIESEL CAVITATION REACTOR SYSTEM.
Any feedstock up to 4.5% FFA Modular systems available from 14,000 gal./day up to 57,600 gal./day. Higher FFA can be used if diluted with lower FFA feedstock
The BioForce9000 is a revolutionary breakthrough
10 MGY (38 million liter/year) Biodiesel Processor
The BioForce9000 is a revolutionary breakthrough in the multi-feedstock industrial scale biodiesel industry. Extremely powerful, cost efficient system capable of producing ASTM and EN quality biodiesel on a continuous basis. Delivered using Best of Breed technology, backed by Engineering Expertise, Quality and outstanding Customer Service not only in technology but also customer business expansion and development.
NANO-CAVITATION FLOW THROUGH TWO STAGE BIODIESEL TECHNOLOGY
PLASMA 9000 NANO REACTORS
Any feedstock up to 4.5 % F.F.A.
Ambient temperature process
Instant reaction
Extremely powerful NANO- Cavitation
High yield
Flow-Through NANO Cavitator (the formation, growth, and implosive collapse of gas or vapor-filled bubbles in liquids) can have substantial chemical and physical effects. While the chemical effects of acoustic cavitation (i.e., sonochemistry and sonoluminescence) have been extensively investigated during recent years, little is known about the chemical consequences of hydrodynamic cavitation created during turbulent flow of liquids. HydroDynamic Technology Inc., developed new innovative patent pending single stage plazma cavitation process to make biodiesel.
NANO reactor is a two stage flow-trough cavitation process is a component mix in the NANO reactor on the molecular level. All components inside of reactor are influenced with high pressure impulses and advanced controlled by NANO flow-trough cavitation. While processing vegetable oils under 4.5% percent F.F.A. with necessary components in plasma 9000 reactor the molecules of fatty acids are broken apart with microexplosions; it results in viscosity decrease cetane number increase, as well as power parameters of produced fuel improve. The velocity and quality of going of the esterification reaction also increase significally. Thus not only quality and quantity data of pure biodiesel output but also its production rate increase.
In heterogeneous liquid–liquid reactions, cavitational collapse at or near the interface will cause disruption and mixing, resulting in the formation of very fine emulsions. When such emulsions are formed, the surface area available for the reaction between the two phases is significantly increased, thus increasing the rates of reaction. This is beneficial, particularly in the case of phase transfer-catalysed reactions or biphasic systems.
The different ways in which cavitation can be used beneficially in the biodiesel processing applications are;
(a) Reaction time reduction (instant).
(b) Increase in the reaction yield.
(c) Use of less forcing conditions (temperature and pressure) compared to the conventional routes.
(d) Reduction in the induction period of the desired reaction.
(e) Possible switching of the reaction pathways resulting in increased selectivity.
(f) Increasing the effectiveness of the catalyst used in the reaction.
(g) Initiation of the chemical reaction due to generation of highly reactive free radicals.