THE DISCRETENESS PROPERTY OF CONTINUOUS INERTIAL-ELASTIC MEDIA FOR SOLVING ENVIRONMENTAL PROBLEMS

Arkadiy Zakharov

doi:10.18623/rvd.v23.6341

Authors

Arkadiy Zakharov https://orcid.org/0009-0000-7799-3491

DOI:

https://doi.org/10.18623/rvd.v23.6341

Keywords:

Environmental Security, Ecological Governance, Sustainable Resource Management, Climate Change Adaptation, Energy Transition, Environmental Policy, Societal Resilience

Abstract

This article investigates the legal and policy instruments required to address core environmental threats—including climate change, biodiversity loss, pollution, and illegal resource extraction—as fundamental determinants of societal safety and sustainable development. To identify strategic priorities, a sociological survey (n=1,727) was conducted, revealing a significant public prioritization of environmental concerns within the security discourse, with foremost attention to water resource quality, emissions control, and waste management. The scientific and practical significance of the findings lies in formulating concrete proposals for modernizing legal and governance frameworks. The proposed recommendations aim to enhance environmental governance, strengthen ecosystem protection, and advance sustainable resource management as prerequisites for long-term societal stability. By integrating empirical public perception data, this research provides a practice-oriented foundation for updating policies and improving the regulatory framework for ecological security.

References

Atyaksheva, A.; Rozhkova, O.; Sarsikeyev, Y.; Atyaksheva, A.; Yermekov, M.; Smagulov, A.; Ryvkina, N. Determination of rational parameters for heat treatment of concrete mixture based on a hollow aluminosilicate microsphere. Eastern European Journal of Enterprise Technologies, 1(6-1150), 64–72, 2022

Brekhovskikh, L. M.; Godin, O. A. Acoustics of Layered Media. Nauka, Main Editorial Board for Physical and Mathematical Literature, 1989

Drozdov, M. M. Transmission of Noise and Vibrations from Shallow Subway Lines into Residential Buildings and Construction Methods for Their Insulation [Candidate's dissertation, Moscow], 1975

Fazylov, A. R. Investigation of Vibration Isolation of Mechanisms Installed on Building Structures [Candidate's dissertation, Moscow], 1975

Gulov, U. T. Sound Insulation by Double Partitions with Rigid or Flexible Connections in Buildings [Candidate's dissertation, Moscow], 1991

Guski, R.; Schreckenberg, D.; Schuemer, R. WHO environmental noise guidelines for the European region: a systematic review on environmental noise and annoyance. International Journal of Environmental Research and Public Health, 14(12), 1539, 2017

International Organization for Standardization. Acoustics: Description, Measurement and Assessment of Environmental Noise. Part 1: Basic Quantities and Assessment Procedures (ISO 1996-1:2003), 2003

Isakovich, M. A. General Acoustics. Nauka, Main Editorial Board for Physical and Mathematical Literature, 1973

Khaykin, S. E. Mechanics. OGIZ, State Publishing House of Technical and Theoretical Literature, 1947

Klyukin, I. N. Control of Noise and Sound Vibration on Ships. Sudostroenie, 1971

Krasnikova, I.; Dyakonova, I.; Grigoreva, S. Use of simulation modeling in the modernization of the Moscow district transport network for the operation of electric buses. E3S Web of Conferences, 535, 04002, 2024. https://doi.org/10.1051/e3sconf/202453504002

Kurtce, G.; Tomm, R.; Vogel, S. Modellvtrsuch zur Biegeweendämmung an Ecken. Acustica, 5(4), 223–233, 1955

Levin, Yu. P. Sound Vibrations of Building Floor Slabs under Impact Action [Candidate's dissertation, Moscow], 1980

Martynov, V. T. Investigation of Sound Transmission through Elements of Building Structures [Candidate's dissertation, Moscow], 1970

Münzel, T.; Schmidt, F. P.; Steven, S.; Herzog, J.; Daiber, A.; Sørensen, M. Environmental noise and the cardiovascular system. Journal of the American College of Cardiology, 71(6), 688–697, 2018

Pirmatov, R. Kh. Noise Reduction of Built-in Power Equipment in Civil Buildings [Candidate's dissertation, Moscow], 1991

Razzhivin, V. M. Airborne Noise Insulation by Lightweight Building Enclosures Considering Their Fixing [Candidate's dissertation, Moscow], 1989

Ruziev, D. Propagation of Sound Vibration in Civil Buildings [Candidate's dissertation, Moscow], 1978

Skudrzyk, E. The Foundations of Acoustics. Springer-Verlag, 1971

SP 23-103-2003. Design of Sound Insulation of Enclosing Structures in Residential and Public Buildings. Gosstroy of Russia, 2004

Turlybaev, N. O. Sound Insulation and Deformability of Lightweight Floating Floors in Civil Buildings [Candidate's dissertation, Moscow], 1984

World Health Organization. Burden of disease from environmental noise: Quantification of healthy life years lost in Europe. World Health Organization Regional Office for Europe, 2011

Yavorsky, B. M.; Detlaf, A. A.; Lebedev. Handbook of Physics. ONIKS Publishing House, 2006

Zaborov, V. I. Theory of Sound Insulation of Building Envelopes. Publishing House of Literature on Construction, 1969

Zakharov, A. About some misunderstandings in the modern theory of the sound isolation and discrete models of sound transmission. Applied Mechanics and Materials, 467, 361–366, 2014. https://doi.org/10.4028/www.scientific.net/AMM.467.361

Zakharov, A. V. Calculation of Sound Insulation by Homogeneous Building Enclosures. In: Third National Conference on Noise Control. Reports (Varna, 27–29.10.1973). Sofia, 1973

Zakharov, A. V. Discrete Models of Wave Transmission in Calculations of Sound Insulation in Buildings. Industrial and Civil Engineering, (11), 50–54, 2012

Zakharov, A. V. Continuity Conditions and Conservation Laws of Mechanics in Problems of Sound Transmission. Scientific Review, (1), 2016

THE DISCRETENESS PROPERTY OF CONTINUOUS INERTIAL-ELASTIC MEDIA FOR SOLVING ENVIRONMENTAL PROBLEMS

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

How to Cite

Issue

Section

License

Make a Submission

Scopus

Scimago

CiteScore

Visitors

Language