ІНТЕГРАЦІЯ ФУНКЦІОНАЛУ КОМПЛАЄНС-УПРАВЛІННЯ В СИСТЕМУ ДЕКАРБОНІЗОВАНОГО РОЗВИТКУ МЕТАЛУРГІЙНОГО ВИРОБНИЦТВА
冶金生産の脱炭素化発展システムへのコンプライアンス管理機能の統合 (AI 翻訳)
А.П. Мішалкін, В.О. Петренко, Л.В. Камкіна, Т. А. Фонарьова, Андрій Селегей
🤖 gxceed AI 要約
日本語
本論文は、鉄鋼業の脱炭素化と持続可能な発展のためのコンプライアンス管理の統合メカニズムを概念的に提案する。二次資源の活用やCO-H₂混合物の利用など技術的・環境的側面を調和させる枠組みを示し、CBAMなどの炭素規制に対応するための管理手法を論じる。
English
This paper conceptually proposes an integrated compliance management framework for the decarbonized development of ferrous metallurgy. It examines mechanisms for improving environmental friendliness through secondary resource utilization and CO-H₂ mixtures, aligning technological innovation with environmental standards and CBAM regulation.
Unofficial AI-generated summary based on the public title and abstract. Not an official translation.
📝 gxceed 編集解説 — Why this matters
日本のGX文脈において
本稿は、日本の鉄鋼業界が直面するカーボンニュートラル目標とCBAM対応において、コンプライアンス管理の重要性を示唆する。特にSSBJや有報でのESG開示が進む中、技術的・管理的統合の視点は国内企業の参考となる。
In the global GX context
This paper contributes to global decarbonization literature by integrating compliance management into metallurgical production systems. It offers a conceptual model relevant for steel producers facing CBAM and ESG disclosure requirements, bridging technological and regulatory aspects.
👥 読者別の含意
🔬研究者:Provides a conceptual framework for integrating compliance into industrial decarbonization systems.
🏢実務担当者:Useful for metallurgical companies developing compliance-driven decarbonization strategies.
🏛政策担当者:Highlights how compliance management can be a tool for industrial policy in carbon-intensive sectors.
📄 Abstract(原文)
The article identifies the main directions for integrating compliance functionality components into the technological development system of ferrous metallurgy, in line with modern concepts of decarbonization, circular economy, and ESG-oriented management. It examines mechanisms and methods for improving the environmental friendliness of key metallurgical processes through the use of secondary resources (slag, dust, dispersed waste from lime production), the physical heat of production gases, and the chemical energy of CO–H₂ mixtures. Relevance of the study. Given the high energy intensity and significant share of the metallurgical industry in global greenhouse gas emissions, reducing the carbon intensity of production is becoming one of the key factors in ensuring the competitiveness of metallurgical products on the world market, especially in the context of the introduction of carbon emission regulation mechanisms, in particular CBAM. In these conditions, the formation of effective management mechanisms becomes particularly important. One such mechanism capable of ensuring the integration of technological, environmental, and economic aspects of metallurgical production development is compliance management. Its functionality should be viewed as an integrated system for managing the decarbonized development of metallurgy, ensuring the alignment of innovative technological solutions with modern environmental standards, regulatory requirements, and sustainable development principles. The purpose of the work is to substantiate the conceptual foundations for integrating compliance management functionality into the system of decarbonized development of metallurgical production and to determine its role in improving energy and resource efficiency, environmental safety, and technological sustainability of iron and steel smelting processes. To achieve this goal, the following research methods were used: systematic analysis of current trends in the development of metallurgical technologies; methods of structural and functional analysis of production management systems; comparative analysis of energy and resource efficiency indicators and carbon intensity of metallurgical processes; generalization of scientific and technological approaches to the decarbonization of metallurgical production. Research objectives. The following tasks were solved in the work: Analysis of current technological and environmental challenges for the development of metallurgical enterprises in the context of industry decarbonization. Justification of a conceptual model for integrating compliance management into the sustainable development system of metallurgical production. Identification of the main directions for the use of compliance tools to improve energy and resource efficiency and reduce the carbon intensity of metallurgical processes. Assessment of the role of compliance functionality as an integration mechanism for coordinating technological, environmental, and economic parameters of production. The scientific novelty of the results obtained lies in the following. It is proposed to consider the mechanism of a functionally integrated system of compliance control and coordination of production processes, the main component of compliance – assurance as: a system-forming factor based on an institutional and technological platform for management/regulation of the mechanism for ensuring decarbonized development of production, combining technological, environmental, and management tools for ensuring the sustainability of metallurgical processes. Conceptual approaches to the integration of compliance tools into the energy and resource efficiency management system of metallurgical production have been substantiated, which allows for increased transparency of material and energy flows and control of the carbon intensity of the main stages of the end-to-end technological scheme of steel production. The system of key indicators for assessing the effectiveness of decarbonization of metallurgical processes, which combine technological, energy, and climate indicators of production, has been refined. The role of compliance management as an integration mechanism for harmonizing innovative technological solutions with modern environmental and regulatory requirements is revealed, which ensures the formation of prerequisites for the sustainable development of metallurgical enterprises. It is shown that the integration of compliance tools into decarbonization processes allows for carbon footprint control, minimization of man-made environmental impact, and increased economic stability of enterprises. The role of improving existing technologies in the implementation of the concept of sustainable and environmentally safe production is substantiated.
🔗 Provenance — このレコードを発見したソース
- semanticscholar https://doi.org/10.34185/1991-7848.2026.01.03first seen 2026-07-16 06:33:01
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