1. Assessing Policy Consistency and Synergy in China’s Water–Energy–Land–Food Nexus for Low-Carbon Transition. (2025). Richardson-Barlow, Clare ; Zhou, Cheng ; Zhu, Xiaonan.
   In: Land.
   RePEc:gam:jlands:v:14:y:2025:i:7:p:1431-:d:1696907.

   Full description at Econpapers || Download paper

2. Gravity Energy Storage and Its Feasibility in the Context of Sustainable Energy Management with an Example of the Possibilities of Mine Shafts in Poland. (2025). Tobr-Osadnik, Katarzyna ; Korski, Jacek ; Gajdzik, Boena ; Wolniak, Radosaw ; Grebski, Wieslaw.
   In: Energies.
   RePEc:gam:jeners:v:18:y:2025:i:13:p:3374-:d:1688764.

   Full description at Econpapers || Download paper

1. Allen, R.J.; Horowitz, L.W.; Naik, V.; Oshima, N.; O’Connor, F.M.; Turnock, S.; Shim, S.; Le Sager, P.; van Noije, T.; Tsigaridis, K.; et al. Significant climate benefits from near-term climate forcer mitigation in spite of aerosol reductions. Environ. Res. Lett. 2021, 16, 034010.
   Paper not yet in RePEc: Add citation now
   
2. Anyanwu, U.O.; Okafor, O.C.; Nkwor, C.A. A Scheduling Model in Capturing Methane Gas from Methane Clathrates Deposits. J. Eng. Sci. 2023, 10, G1–G13.
   Paper not yet in RePEc: Add citation now
   
3. Available online: https://informacje.pan.pl/71-media/materialy-prasowe/3136-innowacyjna-metoda-utylizacji-metanu-doceniona -na-swiecie (accessed on 2 February 2024).
   Paper not yet in RePEc: Add citation now
   
4. Badyda, K. Możliwości zagospodarowania gazu kopalnianego w Polsce dla celów energetycznych. Energetyka 2008, 6, 416–423.
   Paper not yet in RePEc: Add citation now
   
5. Balcerowski, J.; Charkowska, Z. W poszukiwaniu źródeł Emisje metanu w polskim górnictwie węgla kamiennego i systemy raportowania. Instrat Policy Paper 01/2023, Warsow, Feb. 2023. Available online: https://instrat.pl/wp-content/uploads /2023/02/Instrat-Policy-Paper-01-2023-W-poszukiwaniu-zrodel.-Emisje-metanu-....pdf (accessed on 4 February 2024).
   Paper not yet in RePEc: Add citation now
   
6. Banerjee, S.; Roy, S.; Khatua, S. Game Theory Based Energy-aware Virtual Machine Placement towards Improving Resource Efficiency in Homogeneous Cloud Data Center. In Proceedings of the 2022 IEEE Calcutta Conference, CALCON 2022-Proceedings, Kolkata, India, 10–11 December 2022; pp. 293–298.
   Paper not yet in RePEc: Add citation now
   
7. Blinova, E.S.; Nevskaya, M.A. Methane utilization as a resource-saving method inthe coal industry. E3S Web Conf. 2021, 266,
   Paper not yet in RePEc: Add citation now
   
8. Bluszcz, A.; Manowska, A. Differentiation of the Level of Sustainable Development of Energy Markets in the European Union Countries. Energies 2020, 13, 4882. https://doi.org/10.3390/en13184882.
   Paper not yet in RePEc: Add citation now
   
9. Bogner, K.; Kump, B.; Beekman, M.; Wittmayer, J. Coping with transition pain: An emotions perspective on phase-outs in sustainability transitions. Environ. Innov. Soc. Transit. 2024, 50, 100806.
   Paper not yet in RePEc: Add citation now
   
10. Bohumil, H.; Joanna, P.; Łukasz, W.; Jakub, S.; Petra, M.; Patrycja, P.; Iveta, S.; Katarzyna, T.-O.; Jiri, K.; Barbora, H.; et al. Low Carbon Economy in the Context of Developing the Automotive, Construction, and Tourism Sector; Akademia WSB Publisher: Dąbrowa Górnicza, Poland, 2022.
    Paper not yet in RePEc: Add citation now
    
11. Bolt, A.; Dincer, I.; Agelin-Chaab, M. Investigation of a renewable energy based integrated system with carbon capturing for hydrogen, methane and other useful outputs. J. Clean. Prod. 2023, 422, 138572.
    Paper not yet in RePEc: Add citation now
    
12. Brad, A.; Schneider, E. Carbon dioxide removal and mitigation deterrence in EU climate policy: Towards a research approach. Environ. Sci. Policy 2023, 150, 103591.
    Paper not yet in RePEc: Add citation now
    
13. Brodny, J.; Tutak, M. Analysis of methane emission into the atmosphere as a result of mining activity. Int. Multidiscip. Sci. GeoConference: SGEM 2016, 3, 83–90.
    Paper not yet in RePEc: Add citation now
    
14. CIRE.PL: Centrum Informacji o Rynku Energii, Metan Jest Większym Problemem Niż CO2, Jest Plan Redukcji Emisji Metanu o 30 Proc. 3.11.2021, 13.00. Available online: https://www.cire.pl/artykuly/o-tym-sie-mowi/metan-jest-wiekszym-problemem-nizco2 -jest-plan-redukcji-emisji-metanu-o-30-proc (accessed on 4 February 2024).
    Paper not yet in RePEc: Add citation now
    
15. CIREPL Paper: Świat OZE (Global RES). Available online: https://swiatoze.pl/metan-odpowiada-za-30-globalnego-ociepleniaskad -wzial-sie-w-atmosferze-i-czy-jest-niebezpieczny/ (accessed on 4 February 2024).
    Paper not yet in RePEc: Add citation now
    
16. Cluff, D.L.; Kennedy, G.A.; Bennett, J.G.; Foster, P.J. Capturing energy from ventilation air methane a preliminary design for a new approach. Appl. Therm. Eng. 2015, 90, 1151–1163.
    Paper not yet in RePEc: Add citation now
    
17. COM202. IPCC. Summary for policymakers. In Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change; Cambridge University Press: Cambridge, UK, 2021; pp. 3–32.
    Paper not yet in RePEc: Add citation now
    
18. Dlugokencky, E.J.; Steele, L.P.; Lang, P.M.; Masarie, K.A. The growth rate and distribution of atmospheric methane. J. Geophys. Res. 1994, 99, 17021–17043. https://doi.org/10.1029/94JD01245.
    Paper not yet in RePEc: Add citation now
    
19. Duda, A. The Impact of Atmospheric Pressure Changes on Methane Emission from Goafs to Coal Mine Workings. Energies 2024, 17, 173.
    Paper not yet in RePEc: Add citation now
    
20. Dupont, C.; Moore, B.; Boasson, E.L.; Gravey, V.; Jordan, A.; Kivimaa, P.; Kulovesi, K.; Kuzemko, C.; Oberthür, S.; Panchuk, D.; et al. Three decades of EU climate policy: Racing toward climate neutrality? Wiley Interdiscip. Rev. Clim. Chang. 2024, 15, e863.
    Paper not yet in RePEc: Add citation now
    
21. Ember, 2020. Drugi Bełchatów. Metan Kopalniany w Polsce. Ember Climate. Available online: https://ember-climate. org/app/uploads/2022/01/Polish-Polands-Second-Belchatow.pdf (accessed on 4 February 2024).
    Paper not yet in RePEc: Add citation now
    
22. Forum Energii, PEP 2040–Rekomendacje Eksperckiej Rady ds. Bezpieczeństwa Energetycznego. Available online: https://forum -energii.eu/pl/blog/pep-2040-rekomendacje-rady (accessed on 3 February 2024).
    Paper not yet in RePEc: Add citation now
    
23. Fukuhara, C.; Matsui, Y.; Tanebayashi, M.; Watanabe, R. A novel catalytic reaction system capturing solid carbon from greenhouse gas, combined with dry reforming of methane. Chem. Eng. J. Adv. 2021, 5, 100057.
    Paper not yet in RePEc: Add citation now
    
24. Gajdzik, B. Comprehensive classification of environmental aspects in a manufacturing enterprise. Metalurgija 2012, 51, 541–544.
    Paper not yet in RePEc: Add citation now
    
25. Gajdzik, B. Environmental aspects, strategies and waste logistic system based on the example of metallurgical company. Metalurgija 2009, 48, 63–67.
    Paper not yet in RePEc: Add citation now
    

26. Gajdzik, B.; Sroka, W.; Vveinhardt, J. Energy intensity of steel manufactured utilising EAF technology as a function of investments made: The case of the steel industry in Poland. Energies 2021, 14, 5152.

27. Gajdzik, B.; Wolniak, R.; Grebski, W. Process of Transformation to Net Zero Steelmaking: Decarbonisation Scenarios Based on the Analysis of the Polish Steel Industry. Energies 2023, 16, 3384. https://doi.org/10.3390/en16083384.

28. Gajdzik, B.; Wolniak, R.; Grebski, W.W. An Econometric Model of the Operation of the Steel Industry in Poland in the Context of Process Heat and Energy Consumption. Energies 2022, 15, 7909.
    Paper not yet in RePEc: Add citation now
    
29. Ghannadi, M.; Dincer, I. A new system for hydrogen and methane production with post-combustion amine-based carbon capturing option for better sustainability. Energy Convers. Manag. 2024, 301, 118026.
    Paper not yet in RePEc: Add citation now
    
30. Gierszewska, G.; Romanowska, M. Analiza Strategiczna Przedsiębiorstwa; Polskie Wydawnictwo Ekonomiczne: Warszawa, Poland, 2017. Energies 2024, 17, 2396 28 of 28
    Paper not yet in RePEc: Add citation now
    
31. Gosiewski, K.; Pawlaczyk-Kurek, A.; Manfred, J.; Wojdyła, A.; Kleszcz, T.; Machej, T.; Michalski, L. Realne możliwości utylizacji metanu z powietrza wentylacyjnego kopalń węgla kamiennego z odzyskiem energii. Pr. Nauk. Inst. Inżynierii Chem. Pol. Akad. Nauk 2021, 75–119. Available online: https://integro.biblioteka.sosnowiec.pl/ici/recorddetail?id=oai%3Abibliotekanauki. pl%3A2175685 (accessed on 4 February 2024).
    Paper not yet in RePEc: Add citation now
    
32. Greenhouse Effect. Wikipedia. Available online: http://en.wikipedia.org/wiki/Greenhouse_effect (accessed on 4 February 2024).
    Paper not yet in RePEc: Add citation now
    

33. Harmsen, M.; van Vuuren, D.P.; Bodirsky, B.L.; Chateau, J.; Durand-Lasserve, O.; Drouet, L.; Fricko, O.; Fujimori, S.; Gernaat, D.E.H.J.; Hanaoka, T.; et al. The role of methane in future climate strategies: Mitigation potentials and climate impacts. Clim. Chang. 2020, 163, 1409–1425.

34. IEA Report: Global Methane Tracker. 2022. Available online: https://www.iea.org/reports/global-methane-tracker-2022/methane -and-climate-change (accessed on 4 February 2024). Energies 2024, 17, 2396 25 of 28
    Paper not yet in RePEc: Add citation now
    
35. IPCC. „Sumary for Policymakers” [„Podsumowanie dla Decydentów”] w: „Climate Change 2021: The Physical Science Basis”; IPCC: Geneva, Switzerland, 2021.
    Paper not yet in RePEc: Add citation now
    
36. IPCC. Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change; Cambridge University Press: Cambridge, UK, 2021.
    Paper not yet in RePEc: Add citation now
    
37. Jensen, A.; Nielsen, H.Ø.; Russel, D. Diffusion of climate policy integration in adaptation strategies: Translating the EU mandate into UK and Danish national contexts. Reg. Environ. Chang. 2023, 23, 130.
    Paper not yet in RePEc: Add citation now
    
38. Kaczmarek, J. The Balance of Outlays and Effects of Restructuring Hard Coal Mining Companies in Terms of Energy Policy of Poland PEP 2040. Energies 2022, 15, 1853. https://doi.org/10.3390/en15051853.
    Paper not yet in RePEc: Add citation now
    
39. KOBiZE. KOBiZE 2023, Krajowy Raport Inwentaryzacyjny 2023. Warsow, 2023, Marc., Report Prepared by: Krajowy Ośrodek Bilansowania i Zarządzania Emisjami; Ministry of Climate: Warsaw, Poland, 2023.
    Paper not yet in RePEc: Add citation now
    
40. Kong, X.; Tang, Y.; Li, P.; Chen, B.; Ye, M. Thingking and utilization technology of coalbed methane in soft and low permeability coal seams in Huainan Mining Area. Meitan Kexue Jishu/Coal Sci. Technol. 2022, 50, 26–35.
    Paper not yet in RePEc: Add citation now
    
41. Konkol, I.; Cebula, J.; Świerczek, L.; Sopa, J.; Sopa, J.; Cenian, A. Characterization of Deposits Formed in Gas Engines Fuelled by Coal Mine Methane. Materials 2023, 16, 2517. Energies 2024, 17, 2396 27 of 28
    Paper not yet in RePEc: Add citation now
    
42. Korosuo, A.; Pilli, R.; Abad Viñas, R.; Blujdea, V.N.; Colditz, R.R.; Fiorese, G.; Rossi, S.; Vizzarri, M.; Grassi, G. The role of forests in the EU climate policy: Are we on the right track? Carbon Balance Manag. 2023, 18, 15.
    Paper not yet in RePEc: Add citation now
    
43. Korski, J.; Tobór–Osadnik, K.; Wyganowska, M. Reasons of problems of the Polish hard coal mining in connection with restructuring changes in the period 1988–2014. Resour. Policy 2016, 48, 25–31. https://doi.org/10.1016/j.resourpol.2016.02.005.
    Paper not yet in RePEc: Add citation now
    
44. Krajowy Program Energetyki i Kopalń KPEiK/Energy Policy of Poland (EPP2040) until 2040, (Title in Polish) Polityka Energetyczna Polski do 2040 r. (PEP2040). Available online: https://www.gov.pl/web/klimat/polityka-energetyczna-polski (accessed on 4 February 2024).
    Paper not yet in RePEc: Add citation now
    
45. Kumar, V.; Tiwari, A.K. Performance assessment of green hydrogen generation via distinct electrolytes dedicated to renewable energy. Desalination 2024, 582, 117651.
    Paper not yet in RePEc: Add citation now
    
46. Kuśmierczyk-Michulec, J.; Baré; . Global atmospheric monitoring of radionuclides and noble gases: Insights into the interhemispheric transport of anthropogenic emissions. Atmos. Environ. 2024, 319, 120304.
    Paper not yet in RePEc: Add citation now
    
47. Li, Q.; Ruan, M.; Lin, B.; Zhao, M.; Zheng, Y.; Wang, K. Molecular simulation study of metal organic frameworks for methane capture from low-concentration coal mine methane gas. J. Porous Mater. 2016, 23, 107–122.
    Paper not yet in RePEc: Add citation now
    
48. Li, S.; Gong, Y.; Fu, S.; Wang, L.; Cheng, Y. Research progress of methane purification from coal mine gas by variable pressure adsorption. Sci. Sin. Chim. 2023, 53, 992–1007.
    Paper not yet in RePEc: Add citation now
    
49. Liu, B.; Yu, X.; Shi, W.; Shen, Y.; Zhang, D.; Tang, Z. Two-stage VSA/PSA for capturing carbon dioxide (CO2) and producing hydrogen (H2) from steam-methane reforming gas. Int. J. Hydrogen Energy 2020, 45, 24870–24882.
    Paper not yet in RePEc: Add citation now
    
50. Liu, H.; Zhao, M.; Zhao, K.; Zhang, Q.; Zhang, X. Fine calculation of methane emissions and utilization amount from coal mines in Shanxi Province. Nat. Gas Ind. 2022, 42, 179–185.
    Paper not yet in RePEc: Add citation now
    
51. Liu, J.; Sun, H.; Lei, Y.; Cao, J. Current situation and development trend of coalbed methane development and utilization technology in coal mine area. Meitan Xuebao/J. China Coal Soc. 2020, 45, 258–267.
    Paper not yet in RePEc: Add citation now
    
52. Liu, Q.; Teng, F.; Zhang, L.-Y. The improvement and recalculation of China’s coal methane emission inventory based on a dynamic mine-level database. Clim. Chang. Res. 2023, 19, 704–713.
    Paper not yet in RePEc: Add citation now
    
53. Liu, Y.; Gao, H.; Yu, Z.; Li, C.; Ren, H.; Zhao, Y.; Huang, F.; Guo, Y.; Wan, M.; Tian, J. Managing Methane Emissions in Abandoned Coal Mines: Comparison of Different Recovery Technologies by Integrating Techno-Economic Analysis and Life-Cycle Assessment. Environ. Sci. Technol. 2023, 56, 13900–13908.
    Paper not yet in RePEc: Add citation now
    
54. Lv, D.; Wu, Y.; Chen, J.; Li, Z.; Xia, Q. Improving CH4/N2 selectivity within isomeric Al-based MOFs for the highly selective capture of coal-mine methane. AIChE J. 2020, 66, e16287.
    Paper not yet in RePEc: Add citation now
    
55. Mahdevari, S. Coal mine methane: Control, utilization, and abatement. In Advances in Productive, Safe, and Responsible Coal Mining; Woodhead Publishing: Sawston, UK, 2018; pp. 179–198.
    Paper not yet in RePEc: Add citation now
    

56. Mahmood, H.; Irshad, A.R.; Tanveer, M. Do innovation and renewable energy transition play their role in environmental sustainability in Western Europe? Humanit. Soc. Sci. Commun. 2024, 11, 22.

57. Markowska, K.; Sękala, A.; Stecuła, K.; Kawka, T.; Sirovitskiy, K.; Pankova, O.; Vnukova, N.; Shulyak, M.; Kharchenko, S.; Shchur, T.; et al. Comparison of the Sustainability and Economic Efficiency of an Electric Car and an Aircraft—A Case Study. Sustainability 2023, 15, 1238. https://doi.org/10.3390/su15021238.
    Paper not yet in RePEc: Add citation now
    
58. Masarie, K.A.; Tans, P.P. Extension integration of atmospheric carbon dioxide data into a globally consistent measurement record. J. Geopys. Res. 1995, 100, 11593–11610.
    Paper not yet in RePEc: Add citation now
    
59. Meyer, A.G.; Lindenmaier, R.; Heerah, S.; Peischl, J.; Dubey, M.K. Using Multiscale Ethane/Methane Observations to Attribute Coal Mine Vent Emissions in the San Juan Basin From 2013 to 2021. J. Geophys. Res. Atmos. 2022, 127, e2022JD037092.
    Paper not yet in RePEc: Add citation now
    
60. Nawrat, S.; Gantnar, K. Ocena stanu i możliwości utylizacji metanu z powietrza wentylacyjnego podziemnych kopalń węgla kamiennego. Polityka Energetyczna 2008, 11, 69–84.
    Paper not yet in RePEc: Add citation now
    
61. Nekhubvi, V.; Tinarwo, D. Methane capturing using anaerobic digestion technology: A way towards mitigating greenhouse gases in Limpopo Province, South Africa. Nat. Environ. Pollut. Technol. 2017, 16, 1243–1247.
    Paper not yet in RePEc: Add citation now
    
62. Nisbet, E.G.; Manning, M.R.; Dlugokencky, E.J.; Fisher, R.E.; Lowry, D.; Michel, S.E.; Myhre, C.L.; Platt, S.M.; Allen, G.; Bousquet, P.; et al. Very strong atmospheric methane growth in the 4 years 2014–2017: Implications for the Paris agreement. Glob. Biogeochem. 2019, 33, 318–342.
    Paper not yet in RePEc: Add citation now
    
63. Niu, Z.; Cui, X.; Pham, T.; Lan, P.C.; Xing, H.; Forrest, K.A.; Wojtas, L.; Space, B.; Ma, S. A Metal–Organic Framework Based Methane Nano-trap for the Capture of Coal-Mine Methane. Angew. Chem.-Int. Ed. 2019, 58, 10138–10141.
    Paper not yet in RePEc: Add citation now
    
64. Noriega, R.; Pourrahimian, Y. A systematic review of artificial intelligence and data-driven approaches in strategic open-pit mine planning. Resour. Policy 2023, 77, 102727.
    Paper not yet in RePEc: Add citation now
    
65. Ocko, I.B.; Sun, T.; Shindell, D.; Oppenheimer, M.; Hristov, A.N.; Pacala, S.W.; Mauzerall, D.L.; Xu, Y.; Hamburg, S.P. Acting rapidly to deploy readily available methane mitigation measures by sector can immediately slow global warming. Environ. Res. Lett. 2021, 16, 054042. https://doi.org/10.1088/1748-9326/abf9c8.
    Paper not yet in RePEc: Add citation now
    
66. Odpowiedzialny Biznes. Raport. Available online: https://odpowiedzialnybiznes.pl/aktualno%C5%9Bci/raport-90-emisjiszkodliwego -metanu-w-polsce-pochodzi-z-kopalni-wegla-kamiennego/ (accessed on 4 February 2024).
    Paper not yet in RePEc: Add citation now
    

67. Ovaere, M.; Proost, S. Cost-effective reduction of fossil energy use in the European transport sector: An assessment of the Fit for 55 Package. Energy Policy 2022, 168, 113085.

68. Paleari, S. The EU policy on climate change, biodiversity and circular economy: Moving towards a Nexus approach. Environ. Sci. Policy 2024, 151, 103603.
    Paper not yet in RePEc: Add citation now
    
69. Pape, U.; Brandsen, T.; Pahl, J.B.; Pieliński, B.; Baturina, D.; Brookes, N.; Chaves-vila, R.; Kendall, J.; Matančević, J.; Petrella, F.; et al. Changing Policy Environments in Europe and the Resilience of the Third Sector. Voluntas 2020, 31, 238–249.
    Paper not yet in RePEc: Add citation now
    
70. Polski Komitet Energii Elektrycznej Polska ścieżka Transformacji Energetycznej Warszawa, Październik 2022. Available online: https://pkee.pl/publikacje/raport-ey-i-pkee-polska-sciezka-transformacji-energetycznej/ (accessed on 3 February 2024).
    Paper not yet in RePEc: Add citation now
    
71. Ponnudurai, V.; Rajarathinam, R.; Muthuvelu, K.S.; Nalajala, R.K.; Arumugam, L. Investigation on the utilization of coal washery rejects by different microbial sources for biogenic methane production. Chemosphere 2022, 287, 132165.
    Paper not yet in RePEc: Add citation now
    
72. Pouresmaieli, M.; Ataei, M.; Nouri Qarahasanlou, A.; Barabadi, A. Integration of renewable energy and sustainable development with strategic planning in the mining industry. Results Eng. 2023, 20, 101412.
    Paper not yet in RePEc: Add citation now
    

73. Proost, S. Looking for winning policies to address the climate issue in EU-aviation. J. Air Transp. Manag. 2024, 115, 102534.

74. Puchkov, L.A.; Kaledina, N.O.; Kobylkin, S.S. System solutions of provision of methane safety of coal mines. Gorn. Zhurnal 2014, 5, 12–16.
    Paper not yet in RePEc: Add citation now
    
75. Pujade-Lauraine, E.; Ledermann, J.A.; Selle, F.; Gebski, V.; Penson, R.T.; Oza, A.M.; Korach, J.; Huzarski, T.; Poveda, A.; Pignata, S.; et al. Olaparib tablets as maintenance therapy in patients with platinumsensitive, relapsed ovarian cancer and a BRCA1/2 mutation (SOLO2/ENGOT-Ov21): A double-blind, randomised, placebo-controlled, phase 3 trial. Lancet Oncol. 2017, 18, 1274–
    Paper not yet in RePEc: Add citation now
    
76. Qi, Q.-X.; Ji, W.-B.; Yuan, J.-H.; Cheng, Z.-H.; Liu, X.-G. In-situ observation on the floor-connected crack field and its effects on methane extraction. Meitan Xuebao/J. China Coal Soc. 2014, 39, 1552–1558.
    Paper not yet in RePEc: Add citation now
    
77. Qin, K.; Hu, W.; He, Q.; Lu, F.; Cohen, J.B. Individual coal mine methane emissions constrained by eddy covariance measurements: low bias and missing sources. Atmos. Chem. Phys. 2024, 24, 3009–3028.
    Paper not yet in RePEc: Add citation now
    
78. Quelopana, A.; Órdenes, J.; Araya, R.; Navarra, A. Geometallurgical Detailing of Plant Operation within Open-Pit Strategic Mine Planning. Processes 2023, 11, 381.
    Paper not yet in RePEc: Add citation now
    
79. Rentschler, J.; Flachenecker, F.; Kornejew, M. Assessing carbon emission savings from corporate resource efficiency investments: An estimation indicator in theory and practice, Environment. Dev. Sustain. 2020, 22, 835–861. Disclaimer/Publisher’s Note: The statements, opinions and data contained in all publications are solely those of the individual author (s) and contributor(s) and not of MDPI and/or the editor(s). MDPI and/or the editor(s) disclaim responsibility for any injury to people or property resulting from any ideas, methods, instructions or products referred to in the content.
    Paper not yet in RePEc: Add citation now
    
80. Report: Our World in Data. Available online: https://ourworldindata.org/atmospheric-concentrations (accessed on 4 February 2024).
    Paper not yet in RePEc: Add citation now
    
81. Royal Society, Ground-Level Ozone in the 21st Century: Future Trends, Impacts and Policy Implications (RS1276 ed., 2008, Vol. 15/08). The Royal Society. Available online: https://royalsociety.org/topics-policy/publications/2008/ground-level-ozone/ (accessed on 4 February 2024).
    Paper not yet in RePEc: Add citation now
    
82. Sadavarte, P.; Pandey, S.; Maasakkers, J.D.; van der Gon, H.D.; Houweling, S.; Aben, I. A high-resolution gridded inventory of coal mine methane emissions for India and Australia. Elementa 2022, 10, 10.
    Paper not yet in RePEc: Add citation now
    
83. Saunois, M.; Stavert, A.R.; Poulter, B.; Bousquet, P.; Canadell, J.G.; Jackson, R.B.; Raymond, P.A.; Dlugokencky, E.J.; Houweling, S.; Patra, P.K.; et al. The global methane budget 2000–2017. Earth Syst. Sci. Data 2020, 12, 1561–1623.
    Paper not yet in RePEc: Add citation now
    
84. Shindell, D.; Fuglestvedt, J.; Collins, W. The social cost of methane: Theory and applications. Faraday Discuss. 2017, 200, 429–
    Paper not yet in RePEc: Add citation now
    
85. Shindell, D.; Ravishankara, A.R.; Kuylenstierna, J.C.I.; Michalopoulou, E.; Höglund-Isaksson, L.; Zhang, Y.; Seltzer, K.; Ru, M.; Castelino, R.; Faluvegi, G.; et al. Global Methane Assessment: Benefits and Costs of Mitigating Methane Emissions; United Nations Environment Programme: Nairobi, Kenya, 2021.
    Paper not yet in RePEc: Add citation now
    
86. Shoemaker, J.K.; Schrag, D.P.; Molina, M.J.; Ramanathan, V. What role for shortlived climate pollutants in mitigation policy? Science 2013, 342, 1323–1324. Energies 2024, 17, 2396 26 of 28
    Paper not yet in RePEc: Add citation now
    
87. Siemek, J.; Macuda, J.; Łukańko, Ł.; Hendel, J. The technology of drilling wells for capturing methane from abandoned coal mines. Arch. Min. Sci. 2020, 65, 89–101.
    Paper not yet in RePEc: Add citation now
    
88. Smirnova, A.; Varnavskiy, K.; Nepsha, F.; Kostomarov, R.; Chen, S. The Development of Coal Mine Methane Utilization Infrastructure within the Framework of the Concept “Coal-Energy-Information”. Energies 2022, 15, 8948.
    Paper not yet in RePEc: Add citation now
    
89. Smirnova, A.D.; Shevtsov, A.G.; Chen, S. Analysis of factors affecting the coal seams distribution permeability in the southern part of the Tutuyasskaya Area of the Kuznetsk Basin, Russia. Sustain. Dev. Mt. Territ. 2022, 14, 657–665.
    Paper not yet in RePEc: Add citation now
    
90. Sofiiskyi, K.; Petukh, O. The results of experimental research of the parameters of methane capturing by local degassing wells in the undermining area. E3S Web Conf. 2019, 109, 00097.
    Paper not yet in RePEc: Add citation now
    
91. Stasińska, B. Ograniczenie emisji metanu z kopalń węglowych poprzez katalityczne oczyszczanie powietrza wentylacyjnego. Polityka Energetyczna 2009, 12, 123–132.
    Paper not yet in RePEc: Add citation now
    
92. Stuikyte, R.; Varentsov, I.; Cook, C.; Dvoriak, S. Measuring sustainability of opioid agonist therapy programs in the context of transition from global fund support. Harm Reduct. J. 2024, 21, 7.
    Paper not yet in RePEc: Add citation now
    
93. Su, X.B.; Zhao, W.Z.; Wang, Q.; Yu, S.Y.; Song, J.X.; Wang, X.M.; Xia, D.P.; Fu, H.J.; Sun, C.Y.; Guo, H.G.; et al. Conception of key technologies for low⁃negative carbon emission reduction in the process of coalbed methane development from the CBM well, coal mine and goaf. Meitan Xuebao/J. China Coal Soc. 2023, 48, 335–356.
    Paper not yet in RePEc: Add citation now
    
94. Su, Z.; Xing, L.; Ali, H.E.; Alkhalifah, T.; Alturise, F.; Khadimallah, M.A.; Assilzadeh, H. Latest insights on separation and storage of carbon compounds in buildings towards sustainable environment: Recent innovations, challenges, future perspectives and application of machine learning. Chemosphere 2023, 329, 138573.
    Paper not yet in RePEc: Add citation now
    
95. Subbian, S.; Natarajan, P.; Murugan, C. Circular economy-based multi-objective decentralized controller for activated sludge wastewater treatment plant. Front. Chem. Eng. 2023, 5, 1235125.
    Paper not yet in RePEc: Add citation now
    
96. Sun, D.; Liang, Y.; Huang, X.; Ran, Q. Progress and prospects of coalbed methane development and utilization in coal mining areas with large dip angle and multiple coal groups in Xinjiang. Meitan Kexue Jishu/Coal Sci. Technol. 2023, 51, 162–172.
    Paper not yet in RePEc: Add citation now
    
97. Swolkień, J.; Fix, A.; Gałkowski, M. Factors influencing the temporal variability of atmospheric methane emissions from Upper Silesia coal mines: A case study from the CoMet mission. Atmos. Chem. Phys. 2022, 22, 16031–16052.
    Paper not yet in RePEc: Add citation now
    
98. Szlązak, N.; Swolkień, J. Possibilities of capturing methane from hard coal deposits lying at great depths. Energies 2021, 14, 3542.
    Paper not yet in RePEc: Add citation now
    
99. Tang, X.; Hu, M. On the resilience of bio-cemented silica sands in chemically reactive environment. Geomech. Energy Environ. 2024, 37, 100527.
    Paper not yet in RePEc: Add citation now
    
100. Teng, Y.; Zhao, W.; Tang, K.; Yang, K.; Zhao, G.; Zhu, S.; Ye, J.; Gu, S. High efficiency of boron doping and fast growth realized with a novel gas inlet structure in diamond microwave plasma chemical vapor deposition system. Carbon Lett. 2023, 34, 1115–
     Paper not yet in RePEc: Add citation now
     
101. Terytorialny Plan Sprawiedliwej Transformacji Województwa Śląskiego 2030 i Umowy Społecznej dotyczącej transformacji sektora górnictwa węgla kamiennego oraz wybranych procesów transformacji woj. sląskiego. In Terytorialny Plan Sprawiedliwej Transformacji Województwa Śląskiego; Urząd Marszałkowski Województwa Śląskiego: Katowice, Poland, 2022. Available online: https://transformacja.slaskie.pl/images/Dokumenty/1646921120_terytorialny_plan_spr.04.pdf (accessed on 25 May 2023).
     Paper not yet in RePEc: Add citation now
     
102. Tobór-Osadnik, K.; Gajdzik, B.; Strzelec, G. Configurational Path of Decarbonisation Based on Coal Mine Methane (CMM): An econometric model for the Polish mining industry. Sustainability 2023, 15, 9980. https://doi.org/10.3390/su15139980.
     Paper not yet in RePEc: Add citation now
     
103. Tyrańska, M.; Walas-Trębacz, J. Wykorzystanie Metod Analizy Strategicznej w Przedsiębiorstwie; Wydawnictwo Uniwersytetu Ekonomicznego w Krakowie: Kraków, Poland, 2010.
     Paper not yet in RePEc: Add citation now
     
104. Varnavskiy, K.A.; Nepsha, F.S.; Kostomarov, R.V.; Chen, Q. Business Diversification of Coal Mining Enterprises Based on the Development of Coal Mine Methane Utilization Infrastructure. In Proceedings of the 2022 IEEE International Multi-Conference on Engineering, Computer and Information Sciences, SIBIRCON 2022, Yekaterinburg, Russian Federation, 11–13 November 2022; pp. 2060–2063.
     Paper not yet in RePEc: Add citation now
     
105. Vogler, J. Global dimensions of EU climate, energy and transport policies. In Handbook on European Union Climate Change Policy and Politics; Edward Elgar Publishing: Cheltenham, UK, 2023, pp. 144–157.
     Paper not yet in RePEc: Add citation now
     
106. Wang, C.; Wang, R.; Zhou, W.; Li, F. The use of a novel spacer and ultralow-density cement system to control lost circulation in coalbed-methane wells. SPE Drill. Complet. 2015, 30, 76–85.
     Paper not yet in RePEc: Add citation now
     
107. Wang, L.; Sun, Y.; Zheng, S.; Shu, L.; Zhang, X. How efficient coal mine methane control can benefit carbon-neutral target: Evidence from China. J. Clean. Prod. 2023, 424, 138895.
     Paper not yet in RePEc: Add citation now
     
108. Wang, X.; Zhou, F.; Ling, Y.; Wei, K.; Kang, J. Overview and Outlook on Utilization Technologies of Low-Concentration Coal Mine Methane. Energy Fuels 2021, 35, 15398–15423.
     Paper not yet in RePEc: Add citation now
     
109. Weishaar, S.E.; Kim, E.; Tiche, F.G. Climate and energy law and policy in the EU and East Asia: Transition and policy cooperation. Climate and Energy Law and Policy in the EU and East Asia: Transition and Policy Cooperation; Edward Elgar Publishing: Cheltenham, UK, 2023, pp. 1–220.
     Paper not yet in RePEc: Add citation now
     
110. Wu, X.; Cui, J.; Tong, R.; Li, Q. Research on Methane Measurement and Interference Factors in Coal Mines. Sensors 2022, 22,
     Paper not yet in RePEc: Add citation now
     
111. Yin, F.; Nie, B.; Wei, Y.; Lin, S. Co-Production System Based on Lean Methane and Biogas for Power Generation in Coal Mines. Atmosphere 2022, 13, 803.
     Paper not yet in RePEc: Add citation now
     

112. Zhang, X.-B.; Xu, J. Optimal policies for climate change: A joint consideration of CO2 and methane. Appl. Energy 2018, 211, 1021–

113. Zhang, X.; Zhu, T.; Yi, N.; Yuan, B.; Li, C.; Ye, Z.; Zhu, Z.; Zhang, X. Study on Characteristics and Model Prediction of Methane Emissions in Coal Mines: A Case Study of Shanxi Province, China. Atmosphere 2023, 14, 1422.
     Paper not yet in RePEc: Add citation now
     
114. Zhou, Y.; Liu, Y.; Shi, Y.; Zhang, Y.; Shi, J.; Sun, P. Strategies for heat recovery in a reverse flow reactor designed to lessen coal mine methane emissions test, Energy Sources. Part A Recovery Util. Environ. Eff. 2023, 45, 8665–8685.
     Paper not yet in RePEc: Add citation now
     

1. An Econometric Analysis of CO 2 Emission Intensity in Poland’s Blast Furnace–Basic Oxygen Furnace Steelmaking Process. (2025). Wolniak, Radosaw ; Gajdzik, Boena ; Grebski, Wiesaw.
   In: Sustainability.
   RePEc:gam:jsusta:v:17:y:2025:i:9:p:4045-:d:1646577.

   Full description at Econpapers || Download paper

2. Polish Steel Production Under Conditions of Decarbonization—Steel Volume Forecasts Using Time Series and Multiple Linear Regression. (2025). Wolniak, Radosaw ; Grebski, Wiesaw Wes ; Sczewska-Piotrowska, Anna ; Gajdzik, Boena.
   In: Energies.
   RePEc:gam:jeners:v:18:y:2025:i:7:p:1627-:d:1619357.

   Full description at Econpapers || Download paper

3. Energy Waste as a Side-Effect of Photovoltaic Development: Net Impact of Photovoltaics on CO 2 Emissions in European Union Countries. (2024). Grebski, Wiesaw ; Uromskait-Nagaj, Brigita ; Wolniak, Radosaw ; Gajdzik, Boena.
   In: Energies.
   RePEc:gam:jeners:v:18:y:2024:i:1:p:78-:d:1555298.

   Full description at Econpapers || Download paper

4. The Impact of Deep Decarbonization Policy on the Level of Greenhouse Gas Emissions in the European Union. (2024). Grebski, Wieslaw Wes ; Nagaj, Rafa ; Wolniak, Radosaw ; Gajdzik, Boena.
   In: Energies.
   RePEc:gam:jeners:v:17:y:2024:i:5:p:1245-:d:1351701.

   Full description at Econpapers || Download paper

5. The Influence of the Global Energy Crisis on Energy Efficiency: A Comprehensive Analysis. (2024). Grebski, Wieslaw Wes ; Nagaj, Rafa ; Wolniak, Radosaw ; Uromskait-Nagaj, Brigita ; Gajdzik, Boena.
   In: Energies.
   RePEc:gam:jeners:v:17:y:2024:i:4:p:947-:d:1340804.

   Full description at Econpapers || Download paper

6. The Impact of Post-Furnace Steel Processing Equipment on Reducing Voltage Fluctuations Caused by Arc Furnaces. (2024). Olczykowski, Zbigniew.
   In: Energies.
   RePEc:gam:jeners:v:17:y:2024:i:21:p:5360-:d:1508365.

   Full description at Econpapers || Download paper

7. Impact of Economic Awareness on Sustainable Energy Consumption: Results of Research in a Segment of Polish Households. (2024). Grebski, Wiesaw Wes ; Wolny, Robert ; Wolniak, Radosaw ; Jaciow, Magdalena ; Hoffmann-Burdziska, Kinga ; Gajdzik, Boena.
   In: Energies.
   RePEc:gam:jeners:v:17:y:2024:i:11:p:2483-:d:1399475.

   Full description at Econpapers || Download paper

8. European Climate Policy in the Context of the Problem of Methane Emissions from Coal Mines in Poland. (2024). Grebski, Wiesaw Wes ; Wolniak, Radosaw ; Tobor-Osadnik, Katarzyna ; Gajdzik, Boena.
   In: Energies.
   RePEc:gam:jeners:v:17:y:2024:i:10:p:2396-:d:1395912.

   Full description at Econpapers || Download paper

9. Electrification as a factor in replacing hydrocarbon fuel. (2024). Kozhevnikov, Mikhail ; Ditenberg, Maksim ; Gitelman, Lazar.
   In: Energy.
   RePEc:eee:energy:v:307:y:2024:i:c:s036054422402574x.

   Full description at Econpapers || Download paper

10. Configurational Path of Decarbonisation Based on Coal Mine Methane (CMM): An Econometric Model for the Polish Mining Industry. (2023). Tobor-Osadnik, Katarzyna ; Strzelec, Grzegorz ; Gajdzik, Boena.
    In: Sustainability.
    RePEc:gam:jsusta:v:15:y:2023:i:13:p:9980-:d:1177511.

    Full description at Econpapers || Download paper

11. Economic and Technological Efficiency of Renewable Energy Technologies Implementation. (2023). Wang, Wei ; Kubatko, Oleksandra ; Hens, Luc ; Melnyk, Leonid ; Kovalov, Bohdan.
    In: Sustainability.
    RePEc:gam:jsusta:v:15:y:2023:i:11:p:8802-:d:1159292.

    Full description at Econpapers || Download paper

12. Assessment of Energy and Heat Consumption Trends and Forecasting in the Small Consumer Sector in Poland Based on Historical Data. (2023). Grebski, Wieslaw Wes ; Wolny, Robert ; Wolniak, Radosaw ; Jaciow, Magdalena ; Gajdzik, Boena.
    In: Resources.
    RePEc:gam:jresou:v:12:y:2023:i:9:p:111-:d:1244184.

    Full description at Econpapers || Download paper

13. Process of Transformation to Net Zero Steelmaking: Decarbonisation Scenarios Based on the Analysis of the Polish Steel Industry. (2023). Grebski, Wies ; Wolniak, Radosaw ; Gajdzik, Boena.
    In: Energies.
    RePEc:gam:jeners:v:16:y:2023:i:8:p:3384-:d:1121614.

    Full description at Econpapers || Download paper

14. Energy Behaviors of Prosumers in Example of Polish Households. (2023). Grebski, Wieslaw Wes ; Wolny, Robert ; Wolniak, Radosaw ; Jaciow, Magdalena ; Gajdzik, Boena.
    In: Energies.
    RePEc:gam:jeners:v:16:y:2023:i:7:p:3186-:d:1113452.

    Full description at Econpapers || Download paper

15. Electricity and Heat Demand in Steel Industry Technological Processes in Industry 4.0 Conditions. (2023). Grebski, Wieslaw Wes ; Wolniak, Radosaw ; Gajdzik, Boena.
    In: Energies.
    RePEc:gam:jeners:v:16:y:2023:i:2:p:787-:d:1030648.

    Full description at Econpapers || Download paper

16. Barriers to Renewable Energy Source (RES) Installations as Determinants of Energy Consumption in EU Countries. (2023). Grebski, Wieslaw Wes ; Romanyshyn, Taras ; Nagaj, Rafa ; Wolniak, Radosaw ; Gajdzik, Boena.
    In: Energies.
    RePEc:gam:jeners:v:16:y:2023:i:21:p:7364-:d:1271634.

    Full description at Econpapers || Download paper

17. CO 2 Emissions and Macroeconomic Indicators: Analysis of the Most Polluted Regions in the World. (2022). Fedun, Yuriy ; Sroka, Wodzimierz ; Ohinok, Solomiya ; Gineviius, Romualdas ; Shpak, Nestor ; Cygler, Joanna ; Kulyniak, Ihor.
    In: Energies.
    RePEc:gam:jeners:v:15:y:2022:i:8:p:2928-:d:795194.

    Full description at Econpapers || Download paper

18. How Steel Mills Transform into Smart Mills: Digital Changes and Development Determinants in the Polish Steel Industry. (2022). Gajdzik, Bozena.
    In: European Research Studies Journal.
    RePEc:ers:journl:v:xxv:y:2022:i:1:p:27-42.

    Full description at Econpapers || Download paper

19. Policy and pricing barriers to steel industry decarbonisation: A UK case study. (2022). Gale, William F ; Taylor, Peter G ; Richardson-Barlow, Clare ; Pimm, Andrew J.
    In: Energy Policy.
    RePEc:eee:enepol:v:168:y:2022:i:c:s0301421522003251.

    Full description at Econpapers || Download paper

20. Macroeconomic Indicators and CO2 Emissions in the EU Region. (2022). Sroka, Wodzimierz ; Ohinok, Solomiya ; Shpak, Nestor ; Kulyniak, Ihor ; Androniceanu, Armenia.
    In: The AMFITEATRU ECONOMIC journal.
    RePEc:aes:amfeco:v:24:y:2022:i:61:p:817.

    Full description at Econpapers || Download paper

21. Evaluation of Energy Price Liberalization in Electricity Industry: A Data-Driven Study on Energy Economics. (2021). Tabatabaei, Tayebeh Sadat ; Asef, Pedram.
    In: Energies.
    RePEc:gam:jeners:v:14:y:2021:i:22:p:7511-:d:676090.

    Full description at Econpapers || Download paper

Report date: 2025-09-30 18:56:35 || Missing content? Let us know