Results 281 to 290 of about 830,623 (326)

3.11.5 FURNACES AND COMBUSTION CHAMBERS: THE PLUG-FLOW FURNACE MODEL

Heat Exchanger Design Updates, 2006
Replace the existing Sections 3.11.1-3.11.7 in the folder for Part 3 with the new Sections.
J. S. Truelove, R. J. Tucker
openaire   +1 more source

Two-chamber Furnace for Flameless Atomic Absorption Spectrometry

Analytical Chemistry, 1974
The two-chamber furnace offers a useful and accurate means for reproducibly vaporizing, combusting, and dissociating samples in solid, liquid, or gaseous form containing volatile elements. An oxidizing carrier gas serves both as an aid to combustion of the sample and as a means for reproducibly carrying the vaporized sample from the combustion chamber ...
D. A. Church, T. Hadeishi, L. Leong, R. D. McLaughlin, B. D. Zak   +4 more
openaire   +1 more source

3.11.1 FURNACES AND COMBUSTION CHAMBERS: INTRODUCTION

Heat Exchanger Design Updates, 2006
Replace the existing Sections 3.11.1-3.11.7 in the folder for Part 3 with the new Sections.
J. S. Truelove, J. M. Rhine
openaire   +1 more source

A crystallization cooler in a chamber furnace

Journal of Crystal Growth, 1996
Abstract A model of an air cooler (“cold key”) installed in a laboratory chamber furnace for regulating different crystallization fronts and rates in crucible columns, with the purpose of obtaining crystals is presented.
B. Čabrić, N. Danilović, B. Žižić
openaire   +1 more source

Three-dimensional viscous flows in furnace chambers

Journal of Engineering Physics, 1988
A method is proposed for calculating isothermal flows in channels of complex configuration, for the example of a vortex furnace chamber.
V. B. Dovzhik, V. K. Migai
openaire   +1 more source

First-principles simplified modelling of glass furnaces combustion chambers

Control Engineering Practice, 2008
To control glass furnaces, advanced techniques like Model-Predictive Control are implemented in tools that allow a multi-objective optimisation of the system operation. In this model-based application, computation time is limited and rapid models are required.
Auchet, Olivier, Riedinger, Pierre, Malassé, Olaf, Iung, Claude   +3 more
openaire   +2 more sources

Structural Features of Protective Layers Based on Self-Fluxing Nickel Alloy, Niobium and Boron after Electron-Beam and Furnace-Chamber Treatments

Metal science and heat treatment, 2022
T. Zimoglyadova, K. Skorokhod, D. Safarova   +2 more
semanticscholar   +1 more source

Mathematical modeling of an aluminum casting furnace combustion chamber

Metallurgical Transactions B, 1989
A mathematical model has been developed for the combustion chambers of aluminum casting furnaces by combining the fluid flow code PHOENICS with a zone model for the radiative heat transfer analysis and a simplified flame model. It offers flexibility in specifying the size and the combustion and heat transfer characteristics of the furnace.
T. Bourgeois, R. T. Bui, A. Charette, Y. S. Kocaefe   +3 more
openaire   +1 more source

Technical, economic, and environmental analyses of the modernization of a chamber furnace operating on natural gas or hydrogen

International journal of hydrogen energy, 2022
A. Gołdasz, D. Matuszewska, P. Olczak
semanticscholar   +1 more source

A combination vacuum furnace-sample chamber for ion implantation

Review of Scientific Instruments, 1974
A vacuum furnace-sample chamber for ion implantation accelerators has been constructed in which bombardments can be performed at temperatures up to 800°C in a vacuum of <2×10−7 Torr. Construction details are given which permit accurate measurements of temperature and ion current.
N. J. Doyle, J. M. Bogdon, W. J. Choyke
openaire   +1 more source