INFLUENCES OF SWIRL AND TURBULENCE ON THE BURNING VELOCITY IN AN ENGINE CYLINDER - 1. ON THE HOT-WIRE MEASUREMENT OF THE INSTANTANEOUS GAS VELOCITY IN A CYLINDER.

Hiroyuki Kido; Yutaro Wakuri; Shinsuke Ono; Eiichi Murase

doi:10.1299/jsme1958.23.2088

INFLUENCES OF SWIRL AND TURBULENCE ON THE BURNING VELOCITY IN AN ENGINE CYLINDER - 1. ON THE HOT-WIRE MEASUREMENT OF THE INSTANTANEOUS GAS VELOCITY IN A CYLINDER.

Hiroyuki Kido, Yutaro Wakuri, Shinsuke Ono, Eiichi Murase

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Research output: Contribution to journal › Article › peer-review

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Abstract

A nondimensional equation about the average heat transfer coefficient is derived from a hot-wire calibration in which the wire and the air temperatures are varied independently of each other and a correction for the heat conduction to the wire supports is made. The procedures for calculating the gas velocities and temperatures in engine cylinders are also shown using the nondimensional equation obtained, and the heat-balance equations for a constant-temperature hot-wire and for a resistance-wire which is a fine wire operated by a very small electric current in order to follow mainly a change in the gas temperature.

Original language	English
Pages (from-to)	2088-2095
Number of pages	8
Journal	Bulletin of the JSME
Volume	23
Issue number	186
DOIs	https://doi.org/10.1299/jsme1958.23.2088
Publication status	Published - 1980

All Science Journal Classification (ASJC) codes

Engineering(all)

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@article{d00592de1fbe4d7e8637bd83032a8725,

title = "INFLUENCES OF SWIRL AND TURBULENCE ON THE BURNING VELOCITY IN AN ENGINE CYLINDER - 1. ON THE HOT-WIRE MEASUREMENT OF THE INSTANTANEOUS GAS VELOCITY IN A CYLINDER.",

abstract = "A nondimensional equation about the average heat transfer coefficient is derived from a hot-wire calibration in which the wire and the air temperatures are varied independently of each other and a correction for the heat conduction to the wire supports is made. The procedures for calculating the gas velocities and temperatures in engine cylinders are also shown using the nondimensional equation obtained, and the heat-balance equations for a constant-temperature hot-wire and for a resistance-wire which is a fine wire operated by a very small electric current in order to follow mainly a change in the gas temperature.",

author = "Hiroyuki Kido and Yutaro Wakuri and Shinsuke Ono and Eiichi Murase",

year = "1980",

doi = "10.1299/jsme1958.23.2088",

language = "English",

volume = "23",

pages = "2088--2095",

journal = "Bulletin of the JSME",

issn = "0021-3764",

publisher = "Society of Mechanical Engineers",

number = "186",

}

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T1 - INFLUENCES OF SWIRL AND TURBULENCE ON THE BURNING VELOCITY IN AN ENGINE CYLINDER - 1. ON THE HOT-WIRE MEASUREMENT OF THE INSTANTANEOUS GAS VELOCITY IN A CYLINDER.

AU - Kido, Hiroyuki

AU - Wakuri, Yutaro

AU - Ono, Shinsuke

AU - Murase, Eiichi

PY - 1980

Y1 - 1980

N2 - A nondimensional equation about the average heat transfer coefficient is derived from a hot-wire calibration in which the wire and the air temperatures are varied independently of each other and a correction for the heat conduction to the wire supports is made. The procedures for calculating the gas velocities and temperatures in engine cylinders are also shown using the nondimensional equation obtained, and the heat-balance equations for a constant-temperature hot-wire and for a resistance-wire which is a fine wire operated by a very small electric current in order to follow mainly a change in the gas temperature.

AB - A nondimensional equation about the average heat transfer coefficient is derived from a hot-wire calibration in which the wire and the air temperatures are varied independently of each other and a correction for the heat conduction to the wire supports is made. The procedures for calculating the gas velocities and temperatures in engine cylinders are also shown using the nondimensional equation obtained, and the heat-balance equations for a constant-temperature hot-wire and for a resistance-wire which is a fine wire operated by a very small electric current in order to follow mainly a change in the gas temperature.

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DO - 10.1299/jsme1958.23.2088

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JO - Bulletin of the JSME

JF - Bulletin of the JSME

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