| Issue |
Section |
Title |
File |
| Vol 56, No 5 (2016) |
Article |
Electric Modular-Trigger Kiln with an Energy Recuperation System for Firing Vermiculte Concentrates |
|
| Vol 57, No 1 (2016) |
Heat Engineering |
Production of Foamed Vermiculite from Conglomerates in Modular-Pouring Electric Furnaces |
|
| Vol 57, No 3 (2016) |
Heat Engineering |
Transformation of Vermiculite Energy Into Mechanical Transformation Energy During Firing in Electric Furnaces With a “Zero” Module |
|
| Vol 57, No 3 (2016) |
Article |
Study of an Electric Furnace Physical Model for Firing Vermiculite with a “Zero” Module |
|
| Vol 57, No 6 (2017) |
Article |
Methods and Limits for Improving the Energy Efficiency of Modular-Pouring Electric Furnaces for Firing Vermiculite. Transitioning to a New Concept |
|
| Vol 58, No 1 (2017) |
Heat Engineering |
Analytical Model of Absorption-Reflection Properties of Vermiculite Under Thermal Radiation Conditions |
|
| Vol 58, No 1 (2017) |
Article |
Energy Efficient Electric Furnace with Moving Hearth Platform for Firing Vermiculite |
|
| Vol 58, No 3 (2017) |
Heat Engineering |
Improvement of Electric Furnace Energy Efficiency for Firing Vermiculite Due to “Zero Modules” Not Requiring Electrical Energy |
|
| Vol 60, No 1 (2019) |
Heat Engineering |
Modeling of the Optical Properties of Vermiculite-Sungulite Conglomerates Subject to Thermal Activation in Electric Furnaces |
|
| Vol 60, No 1 (2019) |
Article |
Energy Analysis of an Electric Furnace with Vibrating Hearth Aimed at Roasting Vermiculite Concentrates |
|
| Vol 60, No 3 (2019) |
Heat Engineering |
Simulation of Radiant Heat Transfer to a Flow of Vermiculite in An Electric Vibrating-Hearth Furnace |
|
