DETOXICATION OF BY-PRODUCTS OF OIL AND GAS INDUSTRY ACCOMPANIIED BY OBTAINING IRON AND SULFUR-CONTAINING BINDERS FOR STRUCTURAL BUILDING MATERIALS
Ключевые слова:
Activation, mechanical and chemical treatment, detoxication of industrial wastes, neutralization of hazardous substances, thermodynamic calculations, iron and sulfur containing binders, ferric iron, oxidation, deoxidization, compression strength, pyrite cinder, sulfur.Аннотация
In this paper, the authors considered the issues related to reducing negative impact of large-tonnage
toxic industrial wastes on environment by means of their detoxication and application as effective binders for
building materials. For implementation of scientific researches, the standard methods of analysis of physical and
mechanical properties have been used for the stone based on iron and sulfur containing binders; the contemporary
methods of differential and thermal, X-ray diffraction analysis, microscopic analysis and testing apparatuses have
been used. While carrying out experimental research, the authors have realized a scientific hypothesis stating that for
increasing the effect of additional activation for eact particles of iron- and sulfur containing additives, their comilling has been applied. As the result, there took place mutual neutralization and detoxication of solid industrial byproducts with opposite chemical properties. In the course of experimental work aimed at preliminary determination
of composition and activation of sulfur-contating additives, wet grinding was done on the pebble mill by applying
abrasive and impact forces. In the course of combined action of mechano-chemical activation of industrial byproducts, in the presence of water, accompanied by sulfur-containing raw mixtures for manufacturing of building
materials, there was used the method of mutual neutralizion of chemically hazardous substances forming a part of
industrial wastes. These methods enable to reduce the consumption of a binder due to its partial replacement by toxic
by-products of oil and gas industry and metallurgy. The characteristics and properties of the specimens of iron and
sulfur-containing binder have been studied at the age of 7, 14 and 28 days of air hardening. The specimens were
exposed to thermal and steam curing. It was stated that air hardened iron and sulfur-containing binders at the age of
14 days have reached the ultimate compressive strength of 62.0 MPa, at the age of 28 days – 66.5 MPa,
correspondingly. The same composition exposed to steam curing at the age of 28 days has compression strength of
74.5 MPa that attests to the fact that steam curing has a positive impact on gain in strength of iron and sulfurcontaining binder. The obtained research results could be apllied as an effective substance for manufacturing mortars
and concrets in construction industry.