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Journal articles on the topic 'China-Mongolia Coal Trade'

Author: Grafiati
Published: 7 June 2025
Last updated: 16 July 2025

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1

Makarov, A., E. Makarova, and A. Beshentsev. "Mongolia: Foreign Trade and Infrastructure Development." World Economy and International Relations 67, no. 9 (2023): 68–78. http://dx.doi.org/10.20542/0131-2227-2023-67-9-68-78.

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The paper reveals the modern specifics of the economy and plans for the development of infrastructure in Mongolia. The influence of anti-COVID restrictions on foreign trade is being studied. It is shown that the problems of export and raw material development and inland Mongolian isolation in the face of restrictions on crossing the border with China for vehicles were exacerbated by the poor development of the railway network. As a result of these restrictions, coal production and exports from Mongolia to China more than halved in 2020–2021. Together with the fall in coal prices in 2020 and th
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2

Li, Han, Yu Wu, Yuke Meng, and Menghui Yin. "Study on the Construction of Green Barriers and Synergy Mechanism of Carbon Neutrality Target in China-Mongolia Coal Trade." Journal of Modern Social Sciences 1, no. 1 (2024): 33–43. https://doi.org/10.5281/zenodo.13989160.

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3

L.N., Takaishvili. "Mongolian and Russian Coals On the International Market – Is the Competition Real?" Energy Systems Research 6, no. 2(22) (2023): 52–61. http://dx.doi.org/10.25729/esr.2023.02.0006.

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The coal industries in Russia and Mongolia tend to increase coal supplies for export. The competition between Russian and Mongolian coal so far concerns only the Chinese coal market. In the future, however, there can be competition in the international coal market of the countries in the Asia-Pacific Region (APAC). Mongolia exports mainly premium (coking) coal. Russia exports coking and steam coal, with a predominance of steam coal. An analysis of the factors influencing the development of Mongolian and Russian coal export to the APAC countries indicates that the increase in export supplies is
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4

Nekhoroshkov, Vladimir, and Tsolmon Delgersaikhan. "The Role of Railway Transport in Trade and Economic Cooperation Between Mongolia and China." Russian and Chinese Studies 9, no. 1 (2025): 49–64. https://doi.org/10.17150/2587-7445.2025.9(1).49-64.

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With the development of global transport and logistics activities, Mongolia's position in relations with neighboring countries is constantly strengthening. In recent years, a number of regional agreements and initiatives have been developed and implemented regarding international logistics activities. Within the framework of the “One Belt, One Road” initiative, proposed in 2013, the People's Republic of China (PRC) supports regional integration by connecting its transport infrastructure with Mongolia, Russia and European countries. The implementation of joint projects, including railroad devel
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5

Fartyshev, A. N., and L. A. Bezrukov. "GEOGRAPHICAL STRUCTURE OF FOREIGN TRADE OF MONGOLIA: INTRACONTINENTALITY, BORDERCROSSES AND FEATURES OF LOGISTICS." Geoeconomics of Energetics, no. 3 (October 11, 2024): 42–57. http://dx.doi.org/10.48137/26870703_2024_27_3_42.

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Foreign trade is one of the phenomena most susceptible to the so-called spatial friction effect. This article provides an overview of the geographical structure of Mongolia’s exports and imports by remoteness zones, demonstrating the critical influence of its landlocked position. Examining the distribution of imports and exports, considering the degree of product processing, reveals that finished products have a more dispersed distribution across remoteness zones. In contrast, raw materials are primarily directed to the nearest zone. The article presents statistics on product transportability,
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6

Bezrukov, L., and A. Fartyshev. "Features of Mongolian Foreign Trade: Risks for Russia." World Economy and International Relations 66, no. 3 (2022): 101–9. http://dx.doi.org/10.20542/0131-2227-2022-66-3-101-109.

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The dynamics of Mongolia’s foreign trade over the past three decades and its leading role in the country’s economic growth are revealed. In the context of a narrow specialization in the mining industry, the growth of the Mongolian economy is strongly dependent on the export of mineral raw materials, which overwhelmingly dominate in the structure of total exports. The overwhelming majority of these cargoes go to China, whose share in Mongolia’s foreign trade turnover is growing steadily since the early 1990s, while the same one of Russia is falling. The role of Siberia and the Far East in coope
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7

Bayar, Nasan. "Nation-building, Ethnicity and Natural Resources." Inner Asia 16, no. 2 (2014): 377–91. http://dx.doi.org/10.1163/22105018-12340024.

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The Mongolian economy has grown rapidly in recent years, thanks to a mining sector based on abundant resources like coal, copper, and gold. The mining boom has been stimulated by Mongolia’s energy-hungry southern neighbour China, which plays a significant role, not only through importing natural resources but also through capital investment in the growing economy. In recent decades some inland port towns, such as Chehee/Shiveehüree and Ganchmod/Gashuunsukhait have grown up along the border between the two countries. Scenes of trucks lining up at customs posts to transport Mongolian coal to Chi
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8

Liu, Jing, Nimin Xie, and Zhongbo Yu. "Analysis of Regional Water and Energy Consumption Considering Economic Development." Water 13, no. 24 (2021): 3582. http://dx.doi.org/10.3390/w13243582.

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The evaluation of regional water and energy consumption is of great significance to improving regional resource utilization. This paper analyzed the water and energy footprints in different provinces of China, considering regional economic levels. The results indicate: (1) both the largest water footprint and water footprint per capita were in Xinjiang and agriculture had the largest value; (2) Shandong was the largest energy consumer, Ningxia had the largest energy footprint per capita, and coal occupied the largest proportion for the top five energy footprint provinces; and (3) the resource
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9

Гамерман, Евгений Вячеславович. "ПОЛИТИЧЕСКИЕ АСПЕКТЫ ЭКОНОМИЧЕСКОЙ БЕЗОПАСНОСТИ МОНГОЛИИ". Вестник Удмуртского университета. Социология. Политология. Международные отношения 9, № 1 (2025): 67–76. https://doi.org/10.35634/2587-9030-2025-9-1-67-76.

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Актуальность выбранной темы определяется современным внешнеполитическим вектором России - так называемым «Поворотом на Восток» - и необходимостью наращивания сотрудничества с различными государствами и регионами. Для этого необходим анализ ситуации в сфере экономики и политики у потенциальных партнеров. Монгольская республика имеет относительно большие залежи полезных ископаемых, что, помимо всего прочего, дает отличные перспективы для развития энергетического сектора из Возобновляемых источников энергии (ВИЭ). При этом на данный момент, по показателю их доли в общем объеме энергетического про
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10

Wei, Qiang, and Weijiao Song. "Mineralogical and Chemical Characteristics of Coal Ashes from Two High-Sulfur Coal-Fired Power Plants in Wuhai, Inner Mongolia, China." Minerals 10, no. 4 (2020): 323. http://dx.doi.org/10.3390/min10040323.

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The mineralogical and chemical characteristics of the feed coals and coal combustion products (CCPs) from two power plants (Xilaifeng and Damo) that consume coals from the Wuda Coalfield, Inner Mongolia, were investigated, using XRD, SEM–EDS, XRF, and ICP-MS. The feed coals from Xilaifeng and Damo are both of high ash yield (52.93% and 48.36%, respectively), and medium and high total sulfur content (2.22% and 3.32%, respectively). The minerals in the feed coals are primarily composed of kaolinite, quartz, illite, pyrite, and, to a lesser extent, gypsum and anatase. In addition to the elevated
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11

Wang, Jinxi, Zhen Yang, Guanlei Bai, and Maxim G. Blokhin. "Geochemistry of the No. 6 coal seam of the Guanzigou Mine, Inner Mongolia, Northern China." Energy Exploration & Exploitation 36, no. 5 (2018): 1245–64. http://dx.doi.org/10.1177/0144598718755466.

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To study the geochemical characteristics of the No. 6 Coal of the Guanzigou Mine, the contents of major and trace elements were determined by X-ray fluorescence spectrometry and inductively coupled plasma-mass spectrometry. Results showed that the contents of SiO2, Al2O3, TiO2, Li, Ga, In, and Pb in the No. 6 Coal are higher than the common contents of the average values in Chinese coal, whereas those of other elements, such as Co, Ni, Rb, Cs, and Ba, are lower. The SiO2/Al2O3 ratio (1.22) is close to the ratio in pure kaolinite (1.18) because of the lower proportion of quartz or boehmite in t
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12

Wang, Xiaoshuai, Yuegang Tang, Harold H. Schobert, et al. "Partitioning behavior during coal combustion of potentially deleterious trace elements in Ge-rich coals from Wulantuga coal mine, Inner Mongolia, China." Fuel 305 (December 2021): 121595. http://dx.doi.org/10.1016/j.fuel.2021.121595.

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13

Yao, Chen, Xinguo Zhuang, Xavier Querol, et al. "New Data and Evidence on the Mineralogy and Geochemistry of Wulantuga High-Ge Coal Deposit of Shengli Coalfield, Inner Mongolia, China." Minerals 10, no. 1 (2019): 17. http://dx.doi.org/10.3390/min10010017.

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The mode of occurrence and origin of highly-enriched trace elements, especially Ge, in Wulantuga high-Ge coal deposit have been widely reported. In this study, coal samples and several coalified trunks embedded within the roof strata are collected, which provides a good opportunity to further confirm if Ge is mainly associated with organic matter. Minerals in coal samples are mainly quartz, kaolinite, montmorillonite, pyrite, and gypsum, along with trace albite, barite, chlorite, and Fe-oxide, while those in coalified trunk samples include melanterite, pyrite, and gypsum, with traces of chlori
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14

Yuan, Yue, Yanheng Li, and Jingsen Fan. "Mineralogical and geochemical characteristics of the No. 6 coal in the Tanggongta Mine, Inner Mongolia, China." World Journal of Engineering 12, no. 6 (2015): 551–62. http://dx.doi.org/10.1260/1708-5284.12.6.551.

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In this paper, the geochemical characteristics of the trace elements of the No. 6 coal seam from Tanggongta mine, Jungar Coalfield, were studied using the methods of an energydispersive X-ray spectrometer (SEM-EDX) analysis, X-ray powder diffraction (XRD), inductively coupled plasma mass spectrometry (ICP-MS) and X-ray fluorescence spectrometric (XRF) techniques. The content of sulfur ranges from 0.09% to 2.83% (1.09% on average). The ash is from 11.70% to 31.47% (20.72% on average), and the moisture is from 2.72% to 6.82% (4.72% on average). The main minerals are kaolinite, carbonate minerals
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15

Duan, Piaopiao, Yanheng Li, and Teng Guan. "Trace elements of Carboniferous–Permian coal from the Adaohai Mine, Daqingshan Coalfield, Inner Mongolia, China." Chinese Journal of Geochemistry 34, no. 3 (2015): 379–90. http://dx.doi.org/10.1007/s11631-015-0054-6.

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16

Zhang, Yun, Yingchun Wei, Daiyong Cao, et al. "Cooperative Exploration Model of Coal–Gallium Deposit: A Case Study of the Heidaigou Coal–Gallium Deposit in the Jungar Coalfield, Inner Mongolia, China." Minerals 14, no. 2 (2024): 156. http://dx.doi.org/10.3390/min14020156.

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Gallium (Ga) is a typical scattered trace element that is irreplaceable in strategic sectors such as national defense, wireless communications, new materials, renewable energy, and healthcare. The coal–Ga deposit is an important complement to traditional Ga resources and has become a significant focus for Ga mineral resource exploration. Therefore, there is an urgent need to research the coal–Ga cooperative exploration model from both technical and economic perspectives. Taking the Heidaigou coal–Ga deposit as an example, the enrichment zone of coal–Ga is predominantly situated in the northern
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17

Tian, H. Z., Y. Wang, Z. G. Xue, et al. "Trend and characteristics of atmospheric emissions of Hg, As, and Se from coal combustion in China, 1980–2007." Atmospheric Chemistry and Physics Discussions 10, no. 9 (2010): 20729–68. http://dx.doi.org/10.5194/acpd-10-20729-2010.

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Abstract. Emissions of hazardous trace elements in China are of great concern because of their negative impacts on local air quality as well as on regional environmental health and ecosystem risks. In this paper, the atmospheric emissions of mercury (Hg), arsenic (As), and selenium (Se) from coal combustion in China for the period 1980–2007 are estimated on the basis of coal consumption data and emission factors, which are specified by different categories of combustion facilities, coal types, and the equipped air pollution control devices configuration (Dust collectors, FGD, etc.). Specifical
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18

Tian, H. Z., Y. Wang, Z. G. Xue, et al. "Trend and characteristics of atmospheric emissions of Hg, As, and Se from coal combustion in China, 1980–2007." Atmospheric Chemistry and Physics 10, no. 23 (2010): 11905–19. http://dx.doi.org/10.5194/acp-10-11905-2010.

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Abstract. Emissions of hazardous trace elements in China are of great concern because of their negative impacts on local air quality as well as on regional environmental health and ecosystem risks. In this paper, the atmospheric emissions of mercury (Hg), arsenic (As), and selenium (Se) from coal combustion in China for the period 1980–2007 are estimated on the basis of coal consumption data and emission factors, which are specified by different categories of combustion facilities, coal types, and the equipped air pollution control devices configuration (Dust collectors, FGD, etc.). Specifical
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19

Duan, Piaopiao, Sijie Han, Wenfeng Wang, and Yuegang Tang. "Distribution and Migration of Trace Elements during Flotation in Ge-Rich Low-Rank Coal from Wulantuga Coal Mine, Inner Mongolia, China." ACS Omega 7, no. 2 (2022): 2023–30. http://dx.doi.org/10.1021/acsomega.1c05487.

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20

Yang, Yongjun, Renjie Gong, Qinyu Wu, and Fu Chen. "Spatial-Temporal Changes in Ecosystem Service Value and Its Overlap with Coal Mining Intensity in the Yellow River Basin, China, During 2000–2030." ISPRS International Journal of Geo-Information 13, no. 11 (2024): 412. http://dx.doi.org/10.3390/ijgi13110412.

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Understanding the ecosystem services and their interaction with coal resource development is crucial for formulating sustainable development policies. In this study, we focused on the Yellow River Basin, characterized by both rich coal resources and ecological fragility. The key findings are that (1) the ecosystem service value (ESV) in the Yellow River Basin exhibited significant spatial heterogeneity during 2000–2030, decreasing from the southeast to northwest, and decreasing the most notably in the southern part of the upper reaches of the river basin; (2) the high-high clustering area of t
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21

Yang, Liu, Jianfei Song, Xue Bai, et al. "Leaching Behavior and Potential Environmental Effects of Trace Elements in Coal Gangue of an Open-Cast Coal Mine Area, Inner Mongolia, China." Minerals 6, no. 2 (2016): 50. http://dx.doi.org/10.3390/min6020050.

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22

Xiao, Lin, Bin Zhao, Piaopiao Duan, Zhixiang Shi, Jialiang Ma, and Mingyue Lin. "Geochemical Characteristics of Trace Elements in the No. 6 Coal Seam from the Chuancaogedan Mine, Jungar Coalfield, Inner Mongolia, China." Minerals 6, no. 2 (2016): 28. http://dx.doi.org/10.3390/min6020028.

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23

Wang, S. W., Q. Zhang, D. G. Streets, et al. "Growth in NO<sub>x</sub> emissions from power plants in China: bottom-up estimates and satellite observations." Atmospheric Chemistry and Physics Discussions 12, no. 1 (2012): 45–91. http://dx.doi.org/10.5194/acpd-12-45-2012.

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Abstract. Using OMI (Ozone Monitoring Instrument) tropospheric NO2 columns and a nested-grid 3-D global chemical transport model (GEOS-Chem), we investigated the growth in NOx emissions from coal-fired power plants and their contributions to the growth in NO2 columns in 2005–2007 in China. We first developed a unit-based power plant NOx emission inventory for 2005–2007 to support this investigation. The total capacities of coal-fired power generation have increased by 48.8% in 2005–2007, with 92.2% of the total capacity additions coming from generator units with size ≥300 MW. The annual NOx em
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24

Wang, S. W., Q. Zhang, D. G. Streets, et al. "Growth in NOx emissions from power plants in China: bottom-up estimates and satellite observations." Atmospheric Chemistry and Physics 12, no. 10 (2012): 4429–47. http://dx.doi.org/10.5194/acp-12-4429-2012.

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Abstract. Using OMI (Ozone Monitoring Instrument) tropospheric NO2 columns and a nested-grid 3-D global chemical transport model (GEOS-Chem), we investigated the growth in NOx emissions from coal-fired power plants and their contributions to the growth in NO2 columns in 2005–2007 in China. We first developed a unit-based power plant NOx emission inventory for 2005–2007 to support this investigation. The total capacities of coal-fired power generation have increased by 48.8% in 2005–2007, with 92.2% of the total capacity additions coming from generator units with size ≥300 MW. The annual NOx em
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25

Liu, Lei, Yusi Liu, Wei Wen, et al. "Source Identification of Trace Elements in PM2.5 at a Rural Site in the North China Plain." Atmosphere 11, no. 2 (2020): 179. http://dx.doi.org/10.3390/atmos11020179.

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An intensive sampling of PM2.5 was conducted at a rural site (Gucheng) in the North China Plain from 22 October to 23 November 2016. A total of 25 elements (Al, Na, Cl, Mg, P, S, K, Ca, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, As, Se, Br, Sr, Cd, Ba, Pb, and Sb) from PM2.5 filter samples collected daily were measured using a wavelength dispersive X-ray fluorescence spectrometer. Cl, S, and K were the most abundant elements, with average concentrations of 2077.66 ng m−3 (range 118.88–4638.96 ng m−3), 1748.78 ng m−3 (range 276.67–4335.59 ng m−3), and 1287.07 ng m−3 (range 254.90–2748.63 ng m−3), respe
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26

Wei, Qiang, and Susan M. Rimmer. "Acid solubility and affinities of trace elements in the high-Ge coals from Wulantuga (Inner Mongolia) and Lincang (Yunnan Province), China." International Journal of Coal Geology 178 (June 2017): 39–55. http://dx.doi.org/10.1016/j.coal.2017.04.011.

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27

Won, Soo Ran, Kwangyul Lee, Mijung Song, Changhyuk Kim, Kyoung-Soon Jang, and Ji Yi Lee. "Characteristic of PM2.5 concentration and source apportionment during winter in Seosan, Korea." Asian Journal of Atmospheric Environment 18, no. 1 (2024). http://dx.doi.org/10.1007/s44273-024-00044-x.

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AbstractSeosan is a concentrated industrial complex in the midwestern region of Korea. A study was conducted from December 2020 to January 2021, measuring PM2.5 and chemical components in Seosan using online instruments every hour. The concentration of PM2.5 during the winter season was 31.4±17.8 μg/m3, exceeding the national ambient air quality standard of Korea. The mass fraction of organic matter, elemental carbon, three major ions, five minor ions, crustal elements, and trace elements in PM2.5 accounted for 24.5%, 4.36%, 32.0%, 2.82%, 4.11%, and 5.17% of the total PM2.5 mass concentration,
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28

"96/05745 Study on the contents and distribution laws of trace elements in coal in northeast China and eastern inner Mongolia." Fuel and Energy Abstracts 37, no. 6 (1996): 411. http://dx.doi.org/10.1016/s0140-6701(97)83179-7.

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