Applied sciences

Archives of Mining Sciences

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Archives of Mining Sciences (AMS) publish research results of wide interest in all fields of mining sciences which include: rock mechanics, mining engineering, mineral processing, geotechnical engineering and tunnelling, mining and engineering geology, minig geodesy and geophysics, ventilation systems, environmental protection in mining and economical aspects in mining.

The journal established by the Polish Academy of Sciences, has been regularly issued since 1956. It enable collaboration and exchange of ideas between researchers from different countries as well as provides forum for the publication of high quality papers.

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CiteScore 2022 - 2,40

SNIP 2022 - 0,553

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Score of the Ministry of Science and Higher Education = 100

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ISSN

ISSN 0860-7001

Publishers

Committee of Mining PAS

Editor-in-Chief

Prof. Antoni Tajduś, AGH University of Science and Technology, Krakow

Associate Editor

Prof. Jakub Siemek, AGH University of Science and Technology, Krakow, Poland

Section Editors

Dr Katarzyna Cyran, AGH University of Science and Technology, Poland

Prof. Wacław Dziurzyński, Strata Mechanics Research Institute, Polish Academy of Sciences, Krakow, Poland

Assoc. Prof. Piotr Małkowski, AGH University of Science and Technology, Krakow, Poland

Assoc. Prof. Przemysław Skotniczny, Strata Mechanics Research Institute, Polish Academy of Sciences

Assoc. Prof. Krzysztof Tajduś, Strata Mechanics Research Institute, Polish Academy of Sciences, Poland

Editorial board

Prof. Piotr Czaja, AGH University of Science and Technology, Krakow, Poland

Prof. Józef Dubiński, Central Mining Institute, Katowice, Poland

Prof. Stanisław Nagy, Akademia Górniczo-Hutnicza im. Stanisława Staszica w Krakowie

Prof. Stanisław Prusek, Central Mining Institute, Katowice

Prof. Tadeusz Słomka, AGH University of Science and Technology, Krakow

Prof. Ryszard Tadeusiewicz, AGH University of Science and Technology, Krakow

Prof. Wacław Trutwin, Strata Mechanics Research Institute, Polish Academy of Sciences, Krakow

Prof. Andrew K. Wojtanowicz, Louisiana State University, Baton Rouge, USA

Chairman of International Advisory Board

Prof. Marek Cała, AGH University of Science and Technology, Krakow, Poland

Members of International Advisory Board

Prof. Leandro R. Alejano, Universidad de Vigo, Spain

Prof. Kashy Aminian, West Virginia University, USA

Prof. Timothy Carr, West Virginia University, USA

Prof. Eleonora Widzyk-Capehart, University of Chile, Chile

Prof. Pedro Riesgo Fernández, University of Oviedo, Spain

Prof. Mihaly Dobróka, University of Miskolc, Hungary

Prof. Sevket Durucan, Imperial College London, United Kingdom

Prof. Aidarkhan Kaltayev, al-Frabi Kazakh State University, Almaty Kazachstan

Prof. Evgeny I. Križanivskij, National Oil and Gas University of Ukraine, Ivanofrankovsk, Ukraine

Prof. Ian Lowndes, University of Nottingham, Nottingham, United Kingdom

Prof. Henryk Marcak, AGH University of Science and Technology, Krakow

Prof. Marian Marschalko, VŠB-Technical University of Ostrava,Czech Republic

Prof. Stefan Miska, University of Tulsa, Tulsa, USA

Prof. Pierpaolo Oreste, Politecnico di Torino, Italy

Prof. Durga Charan Panigrahi, Indian School of Mines, Dhanbad, India

Prof. Tadeusz Patzek, The University of Texas at Austin, USA

Prof. Lucjan Pawłowski, University of Technology, Lublin

Prof. Genadyi G. Pivnyak, National Mining University of Ukraine, Dniepropetrovsk, Ukraine

Prof. Pekka Särkkä, Helsinki University of Technology Helsinki, Finland

Prof. Anton Sroka, Strata Mechanics Research Institute of the Polish Academy of Sciences, Krakow

Prof. Stanisław Stryczek, AGH University of Science and Technology, Krakow

Prof. Vlad Ulmanu, University Petroleum-Gas of Ploiesti, Romania

Prof. Jann Rune Ursin, University of Stavanger, Norway

Prof. Jan Wachowicz, Central Mining Institute, Katowice

Prof. Yaroslavl Vasyuchkov, Russian Academy of Natural Sciences, Moscow, Russia

Prof. Isik Yilmaz, Cumhuriyet University Sivas, Turkey

Mrs. Marta Bitner

Instytut Mechaniki Górotworu PAN

ul. Reymonta 27, 30-059 Kraków

Phone: +48 12 637 62 00 w. 58

Email: ams@img-pan.krakow.pl

Archive of Mining Sciences is an open access journal with all content available with no charge in full text version.
Articles are printed in an open access and distributed under the terms of the Creative Commons Attribution-NonCommercial (CC BY-NC 4.0, https://creativecommons.org/licenses/by-nc/4.0/.).

This license allows authors to copy and redistribute the material in any medium or format, remix, transform, and build upon the material.
Authors may not use the material for commercial purposes. However, this condition does not include dependent works (they may be covered by another license).

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Archives of Mining Sciences | 2024 | vol. 69 | No 2

1 Injection Micropile Bar Fatigue Resistance at Loads Lower and Greater than the Yield Strength of Steel

Andrzej Pytlik , Witold Frąc

Archives of Mining Sciences | 2024 | vol. 69 | No 2 | 159-174 | DOI: 10.24425/ams.2024.150339

Keywords: self-drilling injection micropiles bar fatigue resistance strength and ductility of 28Mn6steel bar strain model

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Abstract

One of the techniques commonly applied today for deep foundation construction is based on self-drilling injection micropiles. Micropiles are structural elements intended primarily for reinforcing foundations and buildings, particularly under difficult terrain conditions. The goal of the tests presented herein is to inspect the fatigue resistance, strength and ductility of injection micropiles formed from 28Mn6 steel at loads significantly exceeding the values defined for the fatigue test in the requirements of the relevant European Assessment Document (EAD). The test results and the micropile bar strain model εM presented in this paper are primarily of interest to designers for the purposes of determining the fatigue resistance of steel micropiles, which find particular application in land degraded by mining activity that is characterised by frequent terrain vibration and mining-induced tremors. None of the R25N injection micropile bars failed during the fatigue resistance testing at 2·10⁶ cycles at a load F_u = 0.7·F_Re0.2 (under the yield strength of the 28Mn6 steel) as well as at F_u = 1.0·F_Re0.2 and F_u = 1.2·F_Re0.2, where the bars operated at the limit of and significantly above the load F_Re0.2 which results in stress at the yield point of the 28Mn6 steel. Furthermore, the bar tests conducted at static and cyclic loading demonstrated the high strength and good ductility of the 28Mn6 steel.

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Authors and Affiliations

Andrzej Pytlik

Witold Frąc

e-mail:

ORCID:

Central Mining Institute GIG , Department of Mechanical Devices Testing and Rocks, Plac Gwarków 1, 40-166, Katowice, Poland

2 Strength and Crack Propagation Analysis of Layered Backfill Based on Energy Theory

Faxiong Cai , Wei Sun , Shengyou Zhang , Ailun Zhu , Fanyu Ding , Panke Zhang , Yao Wen , Shaoyong Wang , Yingkui Xiao

Archives of Mining Sciences | 2024 | vol. 69 | No 2 | 175-190 | DOI: 10.24425/ams.2024.150340

Keywords: cemented tailings backfill conservation of energy J-integral uniaxial compressive strength contact angle

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Abstract

The strength of backfill is greatly influenced by its inclination angle and interlayer concentration. In order to study the influence of inclination angle and interlayer mass concentration on the strength of backfill, a group of layered cemented backfill with cement-sand ratio of 1:4, interlayer mass concentration of 66%, 67% and 68% and inclination angles of 0°, 10°, 20° and 30° were prepared by using tailings as aggregate. The uniaxial compression test was carried out to analyse the effect of interlayer mass concentration and inclination angle on layered cemented backfill. The crack propagation and energy change law of the specimen during compression were analysed by J-integral and energy conservation law. The relationship between the crack initiation and propagation and strain energy of two representative three-layer backfill specimens was analysed by numerical modelling. The results show that the increase in the layer number and the inclination angle of the backfill can weaken the strength of the backfill. In a certain range of inclination angles, the weakening coefficient of the backfill caused by the inclination angle is very consistent with the cosine value of the corresponding angle. Due to the release of crack energy and the existence of interface J integral, the uniaxial compressive strength of different mass concentration backfill is different at various positions. When the displacement reaches a certain value, the crack and strain energy no longer increase.

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Authors and Affiliations

Faxiong Cai

e-mail:

ORCID:

Wei Sun

e-mail:

ORCID:

Shengyou Zhang

e-mail:

ORCID:

Ailun Zhu

e-mail:

ORCID:

Fanyu Ding

e-mail:

ORCID:

Panke Zhang

e-mail:

ORCID:

Yao Wen

e-mail:

ORCID:

Shaoyong Wang

e-mail:

ORCID:

Yingkui Xiao

e-mail:

ORCID:

Kunming University of Science and Technology, Faculty of Land and Resources Engineering Kunming 650093, China
Kunming University of Science and Technology, Faculty of Land and Resources Engineering Kunming 650093, China; Yunnan Key Laboratory of Sino-German Blue Mining and Utilizat ion of Special Underground Space , Kunming 650093, China
University of Science and Technology Beijing, Beijing 100083; China
Yunnan Technology and Business University, Yanglin, Yunnan 651701, China

3 Simulation on the Dispersion of Natural Gas and its Volume Cloud Distribution on an Offshore Fixed Platform

Yang Cao , Honghong Wang , Haodong Wang , Yang Gao , Siheng Sun

Archives of Mining Sciences | 2024 | vol. 69 | No 2 | 191-209 | DOI: 10.24425/ams.2024.150341

Keywords: Offshore platform safety Gas explosion prevention Gas leakage dispersion Gas cloud distribution Gas leakage simulation

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Abstract

The formation, migration and volume distribution of gas clouds, which are dominated by natural gas after oil and gas leakage, are the material basis of fire and explosion accidents on offshore platforms. Based on an offshore platform as the background, this paper conducts research on the gas cloud using numerical simulation method, the selection of different wind speeds, leak leakage rate of quality, wind direction and the direction angle, the leakage of gas diffusion behaviour simulation studies and its size distribution. There is a “coupling” effect on the volume value of 5% CH4 cloud between different wind speeds, leakage mass rates, and wind direction and leakage direction. When the wind speed is 13 m/s, the leakage mass velocity is 8 kg/s, and the included angle between wind direction and leakage direction is 180°, the “coupling” effect on the volume value of 5% CH₄ cloud increases significantly. The above research results can provide a reference for the reasonable division of process risk area, firewall design and quantitative risk assessment of fire and explosion of an offshore platform.

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Authors and Affiliations

Yang Cao

e-mail:

ORCID:

Honghong Wang

Haodong Wang

Yang Gao

Siheng Sun

CNOOC Research Institute Co., Ltd, Departme nt of Engineering Research and Design, Beijing, 100028, China
China University of Petroleum (Beijing), College of Safety and Ocean Engineering, Beijing 102249, China; Key Laboratory of Oil and Gas Safety and Emergency Technology, Ministry of Emergency Management, Beijing 102249, China
CNOOC(China) Co., Ltd., Beijing, 100010, China
University of Science and Technology, School of Civil and Resource Engineering, Beijing, 100083, China

4 Stability Analysis of Open-Pit Bench Slope under Repeated Heavy Vehicle Loading Based on Stress-Corrosion Model

Lichun Zhao , Zhiguo Li , Yongjie Liu , Yongchao Xu , P.L.P. Wasantha , Xiaobin Zheng , Tao Xu

Archives of Mining Sciences | 2024 | vol. 69 | No 2 | 211-230 | DOI: 10.24425/ams.2024.150342

Keywords: open-pit slope stress-corrosion model cyclic loading particle flow code bench slope stability

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Abstract

In the present study, we address an important and increasingly relevant topic in mining safety and efficiency, namely the stability of open-pit bench slopes subjected to daily heavy truck cyclic loading. Specifically, we focus on the stability of Zhahanur open-pit slope (Inner Mongolia region, China) and investigate the potential role of daily heavy truck cyclic loading in bench slope instability. To this end, we incorporate a stress corrosion model into the particle flow code to develop a time-dependent deformation model of the rock. With the established model, we quantitatively analyse the effect of heavy truck cyclic loading on the bench slope stability. Our results support the hypothesis that daily heavy truck loading can cause gradual downward deformation of a rock mass, leading to slope instability. To validate our numerical modelling results, we compare and analyse them with in situ monitoring data. Our study demonstrates the significant impact of daily heavy vehicles on bench slope stability in open-pit mines and provides a practical tool for assessing the long-term stability of open-pit bench slopes and optimising mining operations.

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Authors and Affiliations

Lichun Zhao

Zhiguo Li

Yongjie Liu

Yongchao Xu

P.L.P. Wasantha

Xiaobin Zheng

Tao Xu

Faculty of Engineering, China University of Geosciences, Wuhan, Hubei 430074, China & Jarud Banner Zhahanur Coal Industry Co. Ltd, Jarud Banner 029100, China
School of Resources and Civil Engineering, Northeastern University, Shenya ng 110819, China
Coal Mine Center, SPIC Inner Mongolia Energy Co. Ltd., Inner Mongolia, China
Jarud Banner Zhahanur Coal Industry Co. Ltd, Jarud Banner 029100, China
College of Sport, Health and Engineering, Victoria University Melbourne, VIC 3011, Australia

5 The Influence of Geotechnical, Geological and Mining Factors on the Formation of Sinkholes at Lubambe Mine, Zambia

Victor Patson Mutambo , Serhii Chukharev , Pardon Sinkala , Draida Mikoloni

Archives of Mining Sciences | 2024 | vol. 69 | No 2 | 231-251 | DOI: 10.24425/ams.2024.150343

Keywords: Surface-induced sinkholes core logging borehole analysis rock mass quality

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Abstract

Mining-induced sinkholes are a common feature in underground mines. Sinkholes usually disrupt mining operations and associated infrastructure when they occur. This paper presents a case study of the Lubambe copper mine, where nine (9) sinkholes have been reported on the eastern and southern limbs. The development of sinkholes has resulted in increased mining costs due to the closure of the 182 mL decline on the eastern limb and the 175 mL truck route on the southern limb. This study establishes the influence that poor ground formation, rock stability, geological structures, and inappropriate mining practices have on the formation of surface sinkholes. Assessment of ground condition was done by core logging, and borehole analysis was conducted using GEM4D-BasRock software to classify the rock mass quality based on RQD, RMR, Q-System and GIS. Assessment of the mining operational environment was focused on the effects of varying stope designs and sequencing on ground stability. Results of the study indicate that the formation of surface-induced sinkholes is attributed to historical mining in weak rock formation and weathered rock coupled with subsequent failure of unsupported stopes with stope height between 8 and 25 metres and less stand-up time of 7 days.

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Authors and Affiliations

Victor Patson Mutambo

Serhii Chukharev

Pardon Sinkala

Draida Mikoloni

University of Zambia
National University of Water and Nature, Ukraine

6 Model of the Formation of Work Safety Culture in Polish Mining Enterprises

Mariusz Kapusta , Patrycja Bąk , Marta Sukiennik

Archives of Mining Sciences | 2024 | vol. 69 | No 2 | 253-270 | DOI: 10.24425/ams.2024.150344

Keywords: organisational culture mining enterprise occupational health and safety safety grid hard coal mine

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Abstract

The article presents the results of research on the level of work safety culture, which is an important element influencing the organisational culture in mining enterprises. The article aims to measure the safety culture among managers in Polish hard coal mines. The assumed goal was achieved in the area of literature and empirical research. Research shows that the precise identification of hazards defined the thematic areas shaping safe working conditions in underground mines. The main part of the work was to survey 135 employees in 3 hard coal companies in Poland. The questionnaires were developed in cooperation with mining experts, and the 5-point Likert scale was used to evaluate individual questions. This methodological approach identified the subjective feelings and experiences of employees for building appropriate attitudes and behaviours that shape the organisational culture. The use of a culture grid enabled the creation of seven thematic groups of safety areas related to the so-called referents of organisational culture. The result of the empirical research is to propose an approach for the transformation of safety culture in the selected area for mining companies. The approach uses the organisational culture grid to shape the attitudes and behaviours of employees, which identifies and designates weak areas, defining them as unsatisfactory and unacceptable, and being the key conclusion of the research.

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Authors and Affiliations

Mariusz Kapusta

Patrycja Bąk

e-mail:

ORCID:

Marta Sukiennik

AGH University of Krakow, al. Mickiewicza 30, 30-059 Krakow, Poland

7 Pressure Relief Gas Drainage in a Fully Mechanised Mining Face Based on the Comprehensive Determination of ‘Three Zones’ Development Height

Chenye Duan , Chao Zhang , Renhui Cheng , Xin Li , Xinglong Wang

Archives of Mining Sciences | 2024 | vol. 69 | No 2 | 271-288 | DOI: 10.24425/ams.2024.150345

Keywords: Gas emission in goaf mining overburden fracture microseismic monitoring high-long drilling pressure relief gas extraction

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Abstract

The gas emission from the goaf generates gas in the upper corner of the working face, and the return airflow exceeds safe limits. The identification of the reasonable level of the high-long borehole is the key factor to ensure the effectiveness of its extraction. On-site test at the 2308 working face of Licun Coal Industry of Lu’an Chemical Industry Group, the development of coal overlying strata fracture was studied through derivation of theoretical and empirical formulae, physical similarity experiment, and UDEC numerical simulation: this was then combined with in-situ microseismic monitoring to obtain the distribution characteristics of mining overburden “falling zone” and “overbreak zone” under the actual working conditions, and accurately design the high-level long borehole end hole layer. The results show that the height of the falling zone is 17.5 m to 20.5 m, and the overbreak zone is 43.5 m to 49.5 m. When the hole position is between 25 m and 30 m in the middle and lower part of the overbreak zone, the flow and concentration of gas extracted by drilling are high, and the pure amount of gas extracted by a single hole is increased by 53% (on average). The investigation of pressure relief gas extraction shows that throughout the mining period, the average gas concentration in the return airway is maintained below 0.36%, and the average gas concentration in the upper corner is kept within 0.48% (effective gas control). The research proves the rationality of the arrangement of the high-level long borehole horizon in the working face and provides a reference for the design of the borehole horizon in the future gas drainage and control in the goaf.

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Authors and Affiliations

Chenye Duan

e-mail:

ORCID:

Chao Zhang

e-mail:

ORCID:

Renhui Cheng

e-mail:

ORCID:

Xin Li

e-mail:

ORCID:

Xinglong Wang

Xi’an University of Science and Technology, China
Sichuan University, China

8 The Influence of Rope Guide Sleeve Clearance on the Lateral Oscillation of Rope Guided Conveyance in Mine Hoist System caused by the Aerodynamic Force

Renyuan Wu , Shuangli Wang , Chengjun Wang

Archives of Mining Sciences | 2024 | vol. 69 | No 2 | 289-302 | DOI: 10.24425/ams.2024.150346

Keywords: rope guided hoisting system aerodynamic buffeting force rope guided conveyance lateral oscillation rope guide sleeve clearance

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Abstract

The lateral oscillation behaviour of rope guided conveyances was so complicated that the rope guided hoisting system hasn’t been understood thoroughly so far. In this study, the CFD tool was used to obtain the aerodynamic force acting on the conveyance by writing a user-defined function (UDF), and then the oscillation behaviour of rope guided conveyances was investigated numerically by Matlab with the variation clearance between the guide sleeve and the guide rope. A non-smooth oscillation model of the rope guided conveyance was established by considering the clearance between the guide sleeve and the guide rope. Results show that the aerodynamic buffeting forces had a notable influence on the oscillation behaviour of rope guided conveyances during the conveyances passing each other. The lateral acceleration of the rope guided conveyances showed a minor change with the increase of the clearance. However, the oscillation amplitude of the conveyances manifested a positive correlation with the rope guide sleeve clearance.

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Authors and Affiliations

Renyuan Wu

Shuangli Wang

Chengjun Wang

Anhui University of Science and Technology, Mechanical Industry Key Laborat ory of Intelligent Mining and Beneficiat ion Equipment, China; Anhui University of Science and Technology, School of Artificial Intelligence, China
Anhui University of Science and Technology, Joint National-Local Engineering Research Centre for Safe and Precise Coal Mining, China

9 Bolting control of a coal roadway under multi-seam mining – a case study

Kunyou Zhou , Jiaxuan Wu , Jiliang Kann , Ke Yang , Xiangzhuo Zhao , Yunpeng Li

Archives of Mining Sciences | 2024 | vol. 69 | No 2 | 303-325 | DOI: 10.24425/ams.2024.150347

Keywords: multi-seam mining coal roadway bolting support mining-induced stress FRP bolt full-length anchorage

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Abstract

The stress field of the roadway under multi-seam mining is complex due to multiple mining disturbances. The bolting control of the roadway under multi-seam mining has attracted wide concern. Moreover, conventional metal supporting materials in the coal rib are prone to sparks when shearer works, and new bolting materials are urgently needed. Taking a track roadway under multi-seam mining in China as the engineering case, the mining-induced stress field of the track roadway under multi-seam mining was investigated through numerical simulation and lab and field tests. The test evaluated the mechanical behaviour of FRP bolts and rebar bolts, as well as their anchorage performance under different conditions. Comparative analysis was conducted on the deformation and failure characteristics of the roadway under different bolting parameters to determine an optimised bolting scheme for the track roadway in the I011501 working face. The results show that the goafs and the remaining coal pillars in the overlying coal seams increase the stress in the track roadway in the I011501 working face, especially for the lower rib and roof. The tensile force of the 27 mm-diameter FRP bolt is 1.2 times that of the 22 mm-diameter rebar bolt. The shear strength of the full-length anchored FRP bolt is 70.8% higher than that of the end-anchored bolt. The peak stress of the full-length-anchored bolt is in the shallow coal and rock mass. The optimised bolting scheme of the track roadway subject to multi-seam mining is determined, and the cost of the optimised bolting scheme is lower by about 25.2%, as compared with the primary bolting scheme. Numerical simulation and field application results indicate that the optimised bolting scheme can significantly reduce the deformation and plastic failure of the track roadway in the I011501 working face, which is under multi-seam mining conditions.

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Authors and Affiliations

Kunyou Zhou

e-mail:

ORCID:

Jiaxuan Wu

Jiliang Kann

Ke Yang

e-mail:

ORCID:

Xiangzhuo Zhao

Yunpeng Li

Anhui Univers ity of Science and Tec hnology, Key La borat ory of Safet y and High-efficiency Coal Mining, Ministry of Education, China
Shaanxi Yanchang Petroleum Balasu Coal Industry Limited Company, China
China Coal Research Institute, China

10 Analysis of Factors Influencing Carbon Footprint Reduction in Construction Projects

Katarzyna Kryzia , Aleksandra Radziejowska , Anna Sobotka

Archives of Mining Sciences | 2024 | vol. 69 | No 2 | 327-347 | DOI: 10.24425/ams.2024.150348

Keywords: carbon footprint construction project DEMATEL method causal-effect analysis

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Abstract

This article addresses the issue of reducing carbon footprint in construction production. It focuses on the sources and factors of greenhouse gas emissions responsible for climate change. The construction sector plays a significant role in generating carbon footprint, both in the manufacturing of construction products within supply chains and during the execution of construction work on-site. The identified factors that influence carbon footprint throughout the lifecycle of a construction project and the life of a building are examined and analysed using the DEMATEL method. The research aims to identify causal relationships among factors that contribute to minimising carbon footprint in construction projects. The factors with the highest causal impact are identified in each phase of the building’s lifecycle, including Building Information Modelling (BIM), appropriate selection of construction products, and regulatory and financial incentives. The results of the analysis can be utilised to support decision-making processes aimed at reducing harmful emissions during project realisation and building operation.

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Authors and Affiliations

Katarzyna Kryzia

e-mail:

ORCID:

Aleksandra Radziejowska

e-mail:

ORCID:

Anna Sobotka

e-mail:

ORCID:

AGH University Of Krakow, Faculty of Civil Engineering and Resource Management, al. Mickiewicza 30, 30-059 Krakow, Poland

Instructions for authors

General information

It is essential for us that authors write and prepare their manuscripts according to the instructions and specifications listed below. Therefore, authors are strongly encouraged to read these instructions carefully before preparing a manuscript for submission.

Archives of Mining Sciences (AMS) is concerned with original research, new developments and case studies in all fields of mining sciences which include:

- mining technologies,

- stability of mine workings,

- rock mechanics,

- geotechnical engineering and tunnelling,

- mineral processing,

- mining and engineering geology,

- mining geophysics,

- mining geodesy

- ventilation systems,

- environmental protection in mining,

- economical aspects in mining,

- mining machine science.

Papers are welcomed on all relevant topics and especially on theoretical developments, analytical methods, numerical methods, rock testing, site investigation, and case studies.

AMS publishes research and review articles, technical notes.

Papers suitable for publication in AMS are those which:

- contain original work - the main result is not published elsewhere neither by the authors nor somebody else, and is not currently under consideration for publication in any other journal,

- are focused on the core aims and scope of the journal,

- are clearly and correctly written in English.

Authors are required to contribute to the cost of publication – publication charge 1000 PLN or 250 Euro. There is no submission charge.

Electronic submission:

All submissions must be made electronically via Editorial System https://www.editorialsystem.com/editor/amsc/articles/list/?qt=NEW

Language

The papers should be written in English.

Length of paper

The research and review articles may not exceed 16 typewritten pages, technical notes -10 pages, format A4 including figures and tables.

Format

The initial submission should be sent as Microsoft World (Arial, 12 points, line spacing - 1,5) or pdf file with all drawings, pictures and tables placed in the text.

After acceptance the text (in Microsoft Word), figures and tables should be sent as separate files.

Layout of the manuscript

First and last name(s) of the author(s), title of the article, abstract, keywords, methodology and introduction to the topics, results, conclusions, acknowledgements and references. The subtitles should conform to the decimal system of numbering.

Abstracts

The abstract should briefly summarize the most important results reported in the paper (up to 200 words).

Keywords: 4-6 keywords

Formulae

Formulae should be prepared with Microsoft Equation, written clearly with distinct notation of upper and lower indices and parentheses, maintaining an uniform numbering.

Tables

Tables should be prepared as separate file in Microsoft World format.

Figures

If possible, the figures should be prepared with a vector graphics software (.cdr, .wmf, .al or .dxf formats) or as .eps, .jpg, .bmp (figures width no greater than 13.5 cm). Use Arial font for the comments on drawings in size 6-10 points. The photographs should be converted to high resolution scans in *.jpg or *.tiff format. Figures should be submitted as separate files.

References

A new type of literature provision has been in force since 2020 – modified vancouver style.

Please follow the instructions below.

References should be typed on separate pages and numbered consecutively applying the system accepted by the Quarterly (initials and names all authors, title of the article (obligatory), journal title [abbreviated according to the Journal Title Abbreviations of Web of Science: http://library.caltech.edu/reference/abbreviations/ everyone abbreviation should be end with a dot - example. Arch. Metall. Mater.] or book title; journal volume or book publisher; page spread; publication year in bracket, full DOI number).

Please note the correct layout punctation (commas and periods), and spaces.

Please note the arrangement of dots, commas and spaces.

First we write the initial of the name, dot, space, surname, volume must be written BOLD, at the name of the authors, do not write a word “and” write only a comma. We give the year of publication at the end of the sentence in brackets and DOI number (full notation and linked).

The use of DOI numbers (full notation and linked) is mandatory for each paper and should be formatted as shown in the examples below:

Samples

Journals:

[1] L.B. Magalas, Development of High-Resolution Mechanical Spectroscopy, HRMS: Status and Perspectives. HRMS Coupled with a Laser Dilatometer . Arch. Metall. Mater. 60 (3), 2069-2076 (2015). DOI: https://doi.org/10.1515/AMM-2015-0350

[2] E. Pagounis, M.J. Szczerba, R. Chulist, M. Laufenberg, Large Magnetic Field-Induced Work output in a NiMgGa Seven-Lavered Modulated Martensite. Appl. Phys. Lett. 107, 152407 (2015). DOI: https://doi.org/10.1063/1.4933303

[3] H. Etschmaier, H. Torwesten, H. Eder, P. Hadley, Suppression of Interdiffusion in Copper/Tin thin Films. J. Mater. Eng. Perform. (2012). DOI: https://doi.org/10.1007/s11665-011-0090-2.

Books:

[4] K.U. Kainer (Ed.), Metal Matrix Composites, Wiley-VCH, Weinheim (2006).

[5] K. Szacilowski, Infochemistry: Information Processing at the Nanoscale, Wiley (2012).

[6] L. Reimer, H. Kohl, Transmission Electron Microscopy: Physics of Image Formation, Springer, New York (2008).

Proceedings or chapter in books with editor(s):

[7] R. Major, P. Lacki, R. Kustosz, J. M. Lackner, Modelling of nanoindentation to simulate thin layer behavior, in: K. J. Kurzydłowski, B. Major, P. Zięba (Eds.), Foundation of Materials Design 2006, Research Signpost (2006).

Internet resource:

[8] https://www.nist.gov/programs-projects/crystallographic-databases, accessed: 17.04.2017

Academic thesis (PhD, MSc):

[9] T. Mitra, PhD thesis, Modeling of Burden Distribution in the Blast Furnace, Abo Akademi University, Turku/Abo, Finland (2016).

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