Ultrasonic Gasoline Evaporation Transducer - Reduction of Internal Combustion Engine Fuel Consumption using Axiomatic Design

Bergór Lár Jónsson; Garar Örn Gararsson; Óskar Pétursson; Sigurur Bjarki Hlynsson; Joseph Timothy Foley

doi:10.1016/j.procir.2015.07.061

Ultrasonic Gasoline Evaporation Transducer - Reduction of Internal Combustion Engine Fuel Consumption using Axiomatic Design

Bergór Lár Jónsson, Garar Örn Gararsson, Óskar Pétursson, Sigurur Bjarki Hlynsson, Joseph Timothy Foley^*

^*Corresponding author for this work

Department of Engineering

Research output: Contribution to journal › Conference article › peer-review

4 Citations (Scopus)

Abstract

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.

Original language	English
Pages (from-to)	168-173
Number of pages	6
Journal	Procedia CIRP
Volume	34
DOIs	https://doi.org/10.1016/j.procir.2015.07.061
Publication status	Published - 2015
Event	9th International Conference on Axiomatic Design, ICAD 2015 - Florence, Italy Duration: 16 Sept 2015 → 18 Sept 2015

Bibliographical note

Publisher Copyright:
© 2015 The Authors. Published by Elsevier B.V.

Other keywords

axiomatic design
carburetor
ultrasonic

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10.1016/j.procir.2015.07.061

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title = "Ultrasonic Gasoline Evaporation Transducer - Reduction of Internal Combustion Engine Fuel Consumption using Axiomatic Design",

abstract = "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.",

keywords = "axiomatic design, carburetor, ultrasonic",

author = "J{\'o}nsson, {Berg{\'o}r L{\'a}r} and Gararsson, {Garar {\"O}rn} and {\'O}skar P{\'e}tursson and Hlynsson, {Sigurur Bjarki} and Foley, {Joseph Timothy}",

note = "Publisher Copyright: {\textcopyright} 2015 The Authors. Published by Elsevier B.V.; 9th International Conference on Axiomatic Design, ICAD 2015 ; Conference date: 16-09-2015 Through 18-09-2015",

year = "2015",

doi = "10.1016/j.procir.2015.07.061",

language = "English",

volume = "34",

pages = "168--173",

journal = "Procedia CIRP",

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T1 - Ultrasonic Gasoline Evaporation Transducer - Reduction of Internal Combustion Engine Fuel Consumption using Axiomatic Design

AU - Jónsson, Bergór Lár

AU - Gararsson, Garar Örn

AU - Pétursson, Óskar

AU - Hlynsson, Sigurur Bjarki

AU - Foley, Joseph Timothy

PY - 2015

Y1 - 2015

N2 - 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.

AB - 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.

KW - axiomatic design

KW - carburetor

KW - ultrasonic

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U2 - 10.1016/j.procir.2015.07.061

DO - 10.1016/j.procir.2015.07.061

M3 - Conference article

AN - SCOPUS:84948460244

SN - 2212-8271

VL - 34

SP - 168

EP - 173

JO - Procedia CIRP

JF - Procedia CIRP

T2 - 9th International Conference on Axiomatic Design, ICAD 2015

Y2 - 16 September 2015 through 18 September 2015

ER -

Ultrasonic Gasoline Evaporation Transducer - Reduction of Internal Combustion Engine Fuel Consumption using Axiomatic Design

Abstract

Bibliographical note

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