Development Status of Lignite Quality Improvement Technology

Wu Qi Wen; Shi Ping Jin; Su Yi Huang; Shun Li Fang; Xi Lai Zhang; Qing Long Pei; Bao Yu Gao; Zhe Li

doi:10.4028/www.scientific.net/AMR.356-360.1205

Paper Titles

Kinetic Calculations for the Calcination Reaction of Limestone Modified by Alkaline Industrial Wastes
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Studies on Effects of Several Wetland Plants on Eutrophic Water Purification
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Removal of Nutrients from Saline Waste Sewage with Different Vertical-Flow Constructed Wetland Substrates
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Study of the Corrosion Rate of Three Contactors Materials Using the Electrochemical Technique of Tafel
p.1195

Development Status of Lignite Quality Improvement Technology
p.1205

Drawdown Cone Volume of Pumping Well in Non-Leaky Confined Aquifer
p.1211

A Study on Water Resources Carrying Capacity in Liaohe River Basin
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Analysis and Solution of the Influence of Mine Water on the Electric and Hydraulic Control System
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Inspection and Analysis for IAQ of Public Buildings in Lingui
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 356-360Development Status of Lignite Quality Improvement...

Development Status of Lignite Quality Improvement Technology

Abstract:

China has rich lignite resource, which has high moisture, low calorific value, short ignition period, etc. These characters limit lignite large-scale processing, utilization and transport also become difficult.Therefore, under our country's coal-dominated energy structure, lignite quality improvement technology can enhance the development and application for optimizing the energy structure. This paper will also introduce the development status of lignite quality improvement technology at home and abroad, and then give some insights for the future using of lignite.

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Periodical:

Advanced Materials Research (Volumes 356-360)

Pages:

1205-1210

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.356-360.1205

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Online since:

October 2011

Authors:

Wu Qi Wen, Shi Ping Jin, Su Yi Huang, Shun Li Fang, Xi Lai Zhang, Qing Long Pei, Bao Yu Gao, Zhe Li

Keywords:

Development Status, Lignite Quality Improvement, Poly-Generation, Prospects

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References

[1] Hewu Dai, Keyu Xie. Lignite utilization technology. Beijing: Coal Industry Press,1999.

Google Scholar

[2] Zaichun Zeng. Brief Discussion on Lignite Drying Technology. Chemical Engineering Design, 2009, 21(1):3-5, 37.

Google Scholar

[3] Liqun Yin. Prospects and use of China's lignite resources. Coal Science and Technology, 2004, 32(8):12-14,23.

Google Scholar

[4] Yongde Hong. Technical manual of modern coal chemical industry. Beijing:Beijing Chemical Industry Press,2004. [5] Junjie Shao. The development status of lignite quality improvement technology and development trend of China's lignite quality improvement technology. Shenhua Science and Technology, 2009,7(2):17-22.

Google Scholar

[6] Bing Dong, Tao Liu. Lignite-based technical analysis and provide quality products to achieve. Henan Science,2010,8(10):1344-1347.

Google Scholar

[7] Junrong Gao, Xiuxiang Tao, Tong Hou. Progress of lignite drying and dehydration technology. Clean Coal Technology, 2008,14(6):73-76.

Google Scholar

[8] Toru Sugita ,etc. UBC (Upgraded Brown Coal) process development. Kobe Steel Engineering Reports,2003,53(2):4-25.

Google Scholar

[9] Ch.BoSi stack,S.Berger, K.Straub [Germany]. Mechanical-hot dewatering processing. Foreign mineral Letters, 1998 (23):4-7.

Google Scholar

[10] Dengxin Li, Yongfu Lin. Cold molding of lignite with binder. Coal,1998,7(6):24-25,49.

Google Scholar

[11] Shucai Guo. Coal Chemical Technology. Beijing: Chemical Industry Press, 1992.

Google Scholar

[12] Zhengang Xu. Development of Coal Flash Pyrolysis Process in Japan. Clean Coal Technology, 2011,7(1):48-51,56.

Google Scholar

[13] Qiuju Dai,Wudao Tang, Wanlin Chang. Utilization youngs coal with multi-stage rotary furnace pyrolysis process.Coal Processing & Comprehensive Utilization,1999,(3):22-23.

Google Scholar

[14] Shucai Guo. Lignite Retorting Using Solid Heat Carrier.Coal Chemical Industry,(2000)

Google Scholar