Object

Title: Gas formation reactions in the raw mixture based on TPP ash

Opis:

The article discusses the physicochemical mechanisms of the effect of chemical reagents on the processes of swelling of the raw mixture based on the ash of thermal power plants. The process of structure formation in such mixtures occurs as a result of physicochemical transformations of its constituent components. To intensify gas evolution and obtain materials of a porous structure, the presence of a gas former is necessary. The author has analysed the possibility of creating a porous structure in a raw mixture based on ash with the introduction of various gas formers or their formation as a result of exchange reactions. The main chemical compounds contributing to pore formation have been determined. To form a given structure, it is proposed to control chemical transformations at the stage of swelling. To study the processes of intensification of gas evolution, the author proposes to investigate the mechanisms of the influence of mineral fillers and chemical reagents on swelling processes based on the analysis of the Gibbs equation. The parameters of the Gibbs equation are obtained, by which it is possible to determine the probability of the occurrence of chemical reactions with the proposed chemical agents for the formation of gas bubbles with (pores) in the raw material.

Miejsce wydania:

Koszalin

Wydawca:

Politechnika Koszalińska

Format:

application/pdf

Identyfikator:

oai:dlibra.tu.koszalin.pl:1648

Język:

eng

Jest częścią:

Rocznik Ochrona Środowiska. Vol. 23, s. 106-116

Prawa:

Biblioteka Politechniki Koszalińskiej

Prawa dostępu:

internet

Licencja:

Creative Commons BY-SA 4.0

Object collections:

Last modified:

Nov 6, 2023

In our library since:

Oct 11, 2022

Number of object content hits:

136

All available object's versions:

https://dlibra.tu.koszalin.pl/publication/1652

Show description in RDF format:

RDF

Show description in OAI-PMH format:

OAI-PMH

Objects Similar

×

Citation

Citation style:

This page uses 'cookies'. More information