Standard

From land subsidence to sustainability: Strategic mining and reclamation scenarios for coal-grain overlapping areas. / Li, Gensheng; Liang, Xinyu ; Hu, Zhenqi ; Guo, Keyan; Liu, Honglin ; Fu, Yaokun ; Абакумов, Евгений Васильевич; Ван, Вэньдзюань; Ju, Jinmao ; Zhang, Junhui .

в: International Journal of Coal Science and Technology, Том 13, № 1, 42, 27.04.2026.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Li, G, Liang, X, Hu, Z, Guo, K, Liu, H, Fu, Y, Абакумов, ЕВ, Ван, В, Ju, J & Zhang, J 2026, 'From land subsidence to sustainability: Strategic mining and reclamation scenarios for coal-grain overlapping areas', International Journal of Coal Science and Technology, Том. 13, № 1, 42. https://doi.org/10.1007/s40789-026-00886-6

APA

Li, G., Liang, X., Hu, Z., Guo, K., Liu, H., Fu, Y., Абакумов, Е. В., Ван, В., Ju, J., & Zhang, J. (2026). From land subsidence to sustainability: Strategic mining and reclamation scenarios for coal-grain overlapping areas. International Journal of Coal Science and Technology, 13(1), [42]. https://doi.org/10.1007/s40789-026-00886-6

Vancouver

Li G, Liang X, Hu Z, Guo K, Liu H, Fu Y и пр. From land subsidence to sustainability: Strategic mining and reclamation scenarios for coal-grain overlapping areas. International Journal of Coal Science and Technology. 2026 Апр. 27;13(1). 42. https://doi.org/10.1007/s40789-026-00886-6

Author

Li, Gensheng ; Liang, Xinyu ; Hu, Zhenqi ; Guo, Keyan ; Liu, Honglin ; Fu, Yaokun ; Абакумов, Евгений Васильевич ; Ван, Вэньдзюань ; Ju, Jinmao ; Zhang, Junhui . / From land subsidence to sustainability: Strategic mining and reclamation scenarios for coal-grain overlapping areas. в: International Journal of Coal Science and Technology. 2026 ; Том 13, № 1.

BibTeX

@article{53a7dbbbf37d4256be6254df2a9be4cd,
title = "From land subsidence to sustainability: Strategic mining and reclamation scenarios for coal-grain overlapping areas",
abstract = "Land subsidence induced by underground coal mining consistently leads to persistent ponding in coal-grain overlapping areas (COAs), substantially impairing agricultural productivity. However, amid stringent farmland protection policies, mining operations face significant sustainability challenges. In this study, Guqiao Coal Mine in Anhui of China, is taken as a case, and four mining-reclamation schemes were conducted to compare patterns, and applicable conditions for each scheme are proposed based on concurrent mining and reclamation (CMR). Results show that: (1) Historically, traditional mining-reclamation (TMR) dominated due to low immediate reclamation costs despite extensive farmland loss; (2) Currently, earthwork-conserving CMR (ECMR) offers practical advantages by balancing economic investment and farmland reclamation. ECMR enhances land reclamation and reduces indirect costs, but leads to premature farmland degradation and prolonged compensation burdens; (3) Henceforth, reducing-degradation CMR (RCMR) can eliminate farmland degradation but is constrained by low coal-extraction rates, making it less feasible under current coal economic constraints; (4) In the prospective future, coupling CMR (CCMR) delays land degradation while improving reclamation efficiency, shortening the restoration cycle by 42% for ECMR, and raising coal-extraction rate to over 92% for RCMR. It restores 70% of degraded farmland and reduces seedling compensation costs by over 63 million yuan for ECMR in 30 years. CCMR also has strong performance in reducing surface ponding, maintaining grain security, and minimizing social displacement. Our findings underscore CCMR's superiority in aligning economic, ecological, and social objectives. It offers a replicable model for sustainable resource management in C1OAs globally, particularly under tightening environmental and agricultural policies",
keywords = "coal mining, farmland protection, Farmland protection, Land subsidence, Mine reclamation, Sustainable mining, Underground coal mining",
author = "Gensheng Li and Xinyu Liang and Zhenqi Hu and Keyan Guo and Honglin Liu and Yaokun Fu and Абакумов, {Евгений Васильевич} and Вэньдзюань Ван and Jinmao Ju and Junhui Zhang",
note = "Gensheng Li, Xinyu Liang, Zhenqi Hu, Keyan Guo, Honglin Liu, Evgeny Abakumov, Yaokun Fu, Wenjuan Wang, Jinmao Ju & Junhui Zhang . From land subsidence to sustainability: Strategic mining and reclamation scenarios for coal-grain overlapping areas. Int J Coal Sci Technol 13, 42 (2026). https://doi.org/10.1007/s40789-026-00886-",
year = "2026",
month = apr,
day = "27",
doi = "10.1007/s40789-026-00886-6",
language = "русский",
volume = "13",
journal = "International Journal of Coal Science and Technology",
issn = "2095-8293",
publisher = "Springer Nature",
number = "1",

}

RIS

TY - JOUR

T1 - From land subsidence to sustainability: Strategic mining and reclamation scenarios for coal-grain overlapping areas

AU - Li, Gensheng

AU - Liang, Xinyu

AU - Hu, Zhenqi

AU - Guo, Keyan

AU - Liu, Honglin

AU - Fu, Yaokun

AU - Абакумов, Евгений Васильевич

AU - Ван, Вэньдзюань

AU - Ju, Jinmao

AU - Zhang, Junhui

N1 - Gensheng Li, Xinyu Liang, Zhenqi Hu, Keyan Guo, Honglin Liu, Evgeny Abakumov, Yaokun Fu, Wenjuan Wang, Jinmao Ju & Junhui Zhang . From land subsidence to sustainability: Strategic mining and reclamation scenarios for coal-grain overlapping areas. Int J Coal Sci Technol 13, 42 (2026). https://doi.org/10.1007/s40789-026-00886-

PY - 2026/4/27

Y1 - 2026/4/27

N2 - Land subsidence induced by underground coal mining consistently leads to persistent ponding in coal-grain overlapping areas (COAs), substantially impairing agricultural productivity. However, amid stringent farmland protection policies, mining operations face significant sustainability challenges. In this study, Guqiao Coal Mine in Anhui of China, is taken as a case, and four mining-reclamation schemes were conducted to compare patterns, and applicable conditions for each scheme are proposed based on concurrent mining and reclamation (CMR). Results show that: (1) Historically, traditional mining-reclamation (TMR) dominated due to low immediate reclamation costs despite extensive farmland loss; (2) Currently, earthwork-conserving CMR (ECMR) offers practical advantages by balancing economic investment and farmland reclamation. ECMR enhances land reclamation and reduces indirect costs, but leads to premature farmland degradation and prolonged compensation burdens; (3) Henceforth, reducing-degradation CMR (RCMR) can eliminate farmland degradation but is constrained by low coal-extraction rates, making it less feasible under current coal economic constraints; (4) In the prospective future, coupling CMR (CCMR) delays land degradation while improving reclamation efficiency, shortening the restoration cycle by 42% for ECMR, and raising coal-extraction rate to over 92% for RCMR. It restores 70% of degraded farmland and reduces seedling compensation costs by over 63 million yuan for ECMR in 30 years. CCMR also has strong performance in reducing surface ponding, maintaining grain security, and minimizing social displacement. Our findings underscore CCMR's superiority in aligning economic, ecological, and social objectives. It offers a replicable model for sustainable resource management in C1OAs globally, particularly under tightening environmental and agricultural policies

AB - Land subsidence induced by underground coal mining consistently leads to persistent ponding in coal-grain overlapping areas (COAs), substantially impairing agricultural productivity. However, amid stringent farmland protection policies, mining operations face significant sustainability challenges. In this study, Guqiao Coal Mine in Anhui of China, is taken as a case, and four mining-reclamation schemes were conducted to compare patterns, and applicable conditions for each scheme are proposed based on concurrent mining and reclamation (CMR). Results show that: (1) Historically, traditional mining-reclamation (TMR) dominated due to low immediate reclamation costs despite extensive farmland loss; (2) Currently, earthwork-conserving CMR (ECMR) offers practical advantages by balancing economic investment and farmland reclamation. ECMR enhances land reclamation and reduces indirect costs, but leads to premature farmland degradation and prolonged compensation burdens; (3) Henceforth, reducing-degradation CMR (RCMR) can eliminate farmland degradation but is constrained by low coal-extraction rates, making it less feasible under current coal economic constraints; (4) In the prospective future, coupling CMR (CCMR) delays land degradation while improving reclamation efficiency, shortening the restoration cycle by 42% for ECMR, and raising coal-extraction rate to over 92% for RCMR. It restores 70% of degraded farmland and reduces seedling compensation costs by over 63 million yuan for ECMR in 30 years. CCMR also has strong performance in reducing surface ponding, maintaining grain security, and minimizing social displacement. Our findings underscore CCMR's superiority in aligning economic, ecological, and social objectives. It offers a replicable model for sustainable resource management in C1OAs globally, particularly under tightening environmental and agricultural policies

KW - coal mining

KW - farmland protection

KW - Farmland protection

KW - Land subsidence

KW - Mine reclamation

KW - Sustainable mining

KW - Underground coal mining

UR - https://www.mendeley.com/catalogue/fab0db61-04f5-30f8-a2b8-3b7cf13e4168/

U2 - 10.1007/s40789-026-00886-6

DO - 10.1007/s40789-026-00886-6

M3 - статья

VL - 13

JO - International Journal of Coal Science and Technology

JF - International Journal of Coal Science and Technology

SN - 2095-8293

IS - 1

M1 - 42

ER -

ID: 153683002