Optimal Energy-Saving Device for Controlling Liquid (Foam) Processing of Fibrous Materials

Polyakov, A. E.; Ivanov, M. S.; Ryzhkova, E. A.; Gorodkov, D. A.

doi:10.1007/s10692-020-10165-y

Optimal Energy-Saving Device for Controlling Liquid (Foam) Processing of Fibrous Materials

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Published: 19 October 2020

Volume 52, pages 122–124, (2020)
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Fibre Chemistry Aims and scope

A. E. Polyakov¹,
M. S. Ivanov¹,
E. A. Ryzhkova¹ &
…
D. A. Gorodkov¹

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The task was posed and solved to develop an optimal energy-saving device for controlling liquid (foam) processing of fibrous materials. The expected technical result is the processing of fibrous materials in a foam medium with specified physicochemical properties by intensifying foaming on the surface of the processed fibrous material. The effect of foam treatment on the deformation properties of the material is determined.

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Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 3. Investigation of the Processes of Heat and Mass Transfer in a Foam System under the Action of EHTFF

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Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 2. Regularities of Optimization of the Structure of a Lightweight Foam Material Under the Influence of EHTFF1

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Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 4. Stages and parameters of the activation of foam masses by the action of an internal parameter-dependent field on the formation of the structure of adobe1

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References

A. E. Polyakov and M. S. Ivanov, “Device for controlling liquid (foam) processing of fibrous materials” [in Russian], Pat. for utility model 183790 dated 10/02/2018. Bull. 28.
A. E. Polyakov, E. A. Ryzhkova, and M. S. Ivanov, Electrotechnical Complexes and Technological Equipment Systems as Objects for Controlling Energy-Saving Regimes [in Russian], Monograph, Part 1, Kosygin MSUDT, Moscow (2017) 237 p.

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Russian State University named after A. N. Kosygin (Technology. Design. Art), Moscow, Russia
A. E. Polyakov, M. S. Ivanov, E. A. Ryzhkova & D. A. Gorodkov

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A. E. Polyakov
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M. S. Ivanov
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E. A. Ryzhkova
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D. A. Gorodkov
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Correspondence to A. E. Polyakov.

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Translated from Khimicheskie Volokna, No. 2, pp. 54 – 56, March – April, 2020.

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Polyakov, A.E., Ivanov, M.S., Ryzhkova, E.A. et al. Optimal Energy-Saving Device for Controlling Liquid (Foam) Processing of Fibrous Materials. Fibre Chem 52, 122–124 (2020). https://doi.org/10.1007/s10692-020-10165-y

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Published: 19 October 2020
Issue Date: July 2020
DOI: https://doi.org/10.1007/s10692-020-10165-y

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Optimal Energy-Saving Device for Controlling Liquid (Foam) Processing of Fibrous Materials

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Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 3. Investigation of the Processes of Heat and Mass Transfer in a Foam System under the Action of EHTFF

Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 2. Regularities of Optimization of the Structure of a Lightweight Foam Material Under the Influence of EHTFF1

Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 4. Stages and parameters of the activation of foam masses by the action of an internal parameter-dependent field on the formation of the structure of adobe1

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Optimal Energy-Saving Device for Controlling Liquid (Foam) Processing of Fibrous Materials

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Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 3. Investigation of the Processes of Heat and Mass Transfer in a Foam System under the Action of EHTFF

Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 2. Regularities of Optimization of the Structure of a Lightweight Foam Material Under the Influence of EHTFF1

Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 4. Stages and parameters of the activation of foam masses by the action of an internal parameter-dependent field on the formation of the structure of adobe1

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