Preview

Ecology and Industry of Russia

Advanced search
Open Access Open Access  Restricted Access Subscription or Fee Access

Lignocement Compositions Based on Lignin-Containing Waste of Pulp a Paper Industry

https://doi.org/10.18412/1816-0395-2022-9-32-36

Abstract

Studies were carried out to experimentally substantiate the production of cement composite building materials based on liquid lignosulfonates (LCL). The chemical composition, physicochemical and physico-mechanical properties of liquid lignosulfonates and high-alumina cement have been studied. The method of mathematical planning of the experiment and modeling established the optimal composition of the composition. It has been established and substantiated that when obtaining lignocement compositions, the interaction of lignosulfonate with the components of aluminous cement occurs, which is accompanied by an increase in the hydrophobicity of the obtained compositions and, accordingly, a decrease in the water absorption capacity of the samples. It is shown that the obtained lignocement compositions have a lower density in comparison with foam blocks, i.e. the developed method makes it possible to obtain a lighter building material with high strength characteristics and moisture resistance.

About the Authors

A.E. Zhulanova
Perm National Recearch Polytechnic University
Russian Federation

Post-graduate Student



I.S. Glushankova
Perm National Recearch Polytechnic University
Russian Federation

Dr. Sci. (Eng.), Professor



References

1. Евстигнеев Е.И., Шевченко С.М. Структура, химическая активность и растворимость лигнина: свежий взгляд. WoodSciTechnol. 2019. № 53. P. 7—47. https://doi.org/10.1007/s00226-018-1059-1.

2. Aro T., Dr. Fatehi P. Production and Application of Lignosulfonates and Sulfonated Lignin. Journal Chemistry — A European. 2017. P. 231. https://doi.org/10.1002/cssc.201700082.

3. Al-Saraireh F. Assessment of Casting Binding Materials Based on Modified Technical Lignosulfonates. International Journal of Mechanical and Production Engineering Research and Development (IJMPERD). 2020. P. 335—346. ISSN (P): 2249—6890; ISSN (E): 2249—8001.

4. Simon S., Saadat M., Ruwoldt J., Dudek M., Ellis R.J. Lignosulfonates in Crude Oil Processing: Interactions with Asphaltenes at the Oil. Water Interface and Screening of Potential Applications. ACS Omega. 2020. P. 30189—30200. https://doi.org/10.1021/acsomega.0c04654.

5. Сайдумов М., Муртазаев С., Аласханов А., Дагин И., Нахаев М. Техногенные отходы как сырьевая база для получения современных строительных композитов. Экология и промышленность России. 2019. № 23(7). С. 31—35. https://doi.org/10.18412/1816-0395-2019-7-31-35.

6. Барабанщикова Т.К., Пушкарская О.Ю. Отходы промышленности региона в составах строительных композиций. Международный журнал прикладных и фундаментальных исследований. 2017. № 5—1. С. 12—16.

7. Езерский В.А., Кузнецова Н.В., Баринова О.С. Модификация цементных смесей с использованием отходов производства цементно-стружечных плит. Строительные материалы. 2016. № 6. С. 47—49.

8. Ruwoldt J. A Critical Review of the Physicochemical Properties of Lignosulfonates: Chemical Structure and Behavior in Aqueous Solution, at Surfaces and Interfaces. Surfaces. 2020. №3(4). P. 622—648. https://doi.org/10.3390/surfaces3040042.

9. Пат. 2152420 РФ, МПК С 09 К 7/02. Вахрушев Л.П., Пеньков А.И., Растегаев Б.А, Кошелев В.Н., Дубакин А.С., Архипов А.И., Иванов В.Д. Способ получения смешанных хромметаллсодержащих лигносульфонатных реагентов для обработки буровых растворов. № 98116723/03; заявл. 07.09.98; опубл. 10.07.2000.

10. Жуланова А.Е., Глушанкова И.С. Использование лигнинсодержащих отходов в качестве цементного вяжущего. Химия. Экология. Урбанистика. 2021. № 1. С. 207—210.

11. Matsushita Y., Yasuda S. Preparation and evaluation of lignosulfonates as a dispersant for gypsum paste from acid hydrolysis lignin. Bioresour. Technol. 2005. № 96. Р. 465—470.

12. Ouyang X., Ke L., Qiu X., Guo Y., Pang Y. Sulfonation of alkali lignin and its potential use in dispersant for cement. Journal of Dispersion Science and Technology. 2009. № 30. Р. 1—6.

13. Bjцrnstrцm J., Chandra S. Effect of superplasticizers on the rheological properties of cements. Materials and Structures. 2003. № 36. Р. 685—692.

14. Ojo O., Edomwonyi-Otu. Initial assessment of reuse of sustainable wastes for fibreboard production: the case of waste paper and water hyacinth. Journal of Material Cycles and Waste Management. 2019. № 21. Р. 1177—1187.

15. Пат. 2578077 РФ, МПК С 04 В 18/26, С 04 В 40/00. Николаенко А.И. Способ получения цементно-стружечных блоков. № 2014148009/03; заявл. 27.11.14; опубл. 20.03.16.


Review

For citations:


Zhulanova A., Glushankova I. Lignocement Compositions Based on Lignin-Containing Waste of Pulp a Paper Industry. Ecology and Industry of Russia. 2022;26(9):32-36. (In Russ.) https://doi.org/10.18412/1816-0395-2022-9-32-36

Views: 212


ISSN 1816-0395 (Print)
ISSN 2413-6042 (Online)