The possibilities of improving fuel combustion efficiency have been studied deeply, for environmental as well as economic reasons. It is well known that better combustion is linked to consistent fuel droplet size that is as small as possible. In this paper ultrasonic fuel atomization is investigated as an alternative to traditional fuel systems which are highly coupled and complex. The proposed design is the Ultrasonic Gasoline Evaporation Transducer (UGET), devised using Axiomatic Design principles. The UGET replaces a standard carburetor's highly sensitive venturi mechanism by vaporizing the fuel with piezoelectric crystals that oscillate at a high frequency (1.7 MHz). The UGET produces much finer, more even fuel vapor compared to that of a standard carburetor, expect to result in a more complete combustion by an internal combustion engine. Due to the absence of small apertures, the UGET is less vulnerable to congestion risks than a fuel injection system or a carburetor. The currentprototype vaporizes up to 40 g min?1 of fuel to operate a 170 cc 4-stroke engine with performance comparable to a normal carburetor.
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机译:出于环境以及经济原因,已经对提高燃料燃烧效率的可能性进行了深入研究。众所周知,更好的燃烧与始终如一的尽可能小的燃料滴尺寸有关。本文研究了超声燃料雾化作为高度耦合和复杂的传统燃料系统的替代方法。拟议的设计是使用公理设计原理设计的超声波汽油蒸发传感器(UGET)。 UGET通过用高频(1.7 MHz)振荡的压电晶体汽化燃料来代替标准化油器的高灵敏度文丘里管机构。与标准化油器相比,UGET可产生更细,更均匀的燃料蒸气,并有望使内燃机实现更完全的燃烧。由于没有小孔,与燃料喷射系统或化油器相比,UGET较不易发生拥堵风险。当前的原型可以蒸发多达40 g min?1的燃料,以运行170 cc四冲程发动机,其性能可与普通化油器相媲美。
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