| 1 |
Effect of pyrolysis upgrading temperature on particulate matter emissions from lignite semi-char combustion
Wang XB, Zhang JY, Bai SJ, Zhang L, Li Y, Mikulcic H, Chen J, Wang L, Tan HZ
Energy Conversion and Management, 195, 384, 2019 |
| 2 |
Substantial upgrading of a high-ash lignite by hydrothermal treatment followed by Ca(OH)(2) digestion/acid leaching
Liu XP, Wu XT, Wang J
Fuel, 222, 269, 2018 |
| 3 |
Towards the improvement of thermal efficiency in lignite-fired power generation: Concerning the utilization of Polish lignite deposits in state-of-the-art IGCC technology
Komatsu Y, Sciazko A, Zakrzewski M, Akiyama T, Hashimoto A, Shikazono N, Kaneko S, Kimijima S, Szmyd JS, Kobayashi Y
International Journal of Energy Research, 40(13), 1757, 2016 |
| 4 |
Physicochemical properties of wastewater produced from the microwave upgrading process of Indonesian lignite
Cheng J, Zhou F, Wang X, Liu JZ, Wang ZH, Zhou JH, Cen KF
Fuel, 158, 435, 2015 |
| 5 |
Upgrading Chinese Shengli lignite by microwave irradiation for slurribility improvement
Zhou F, Cheng J, Wang AY, Liu JZ, Zhou JH, Cen KF
Fuel, 159, 909, 2015 |
| 6 |
Lignite upgrading by multi-stage fluidized bed pyrolysis
Zhou Q, Zou T, Zhong M, Zhang YM, Wu RC, Gao SQ, Xu GW
Fuel Processing Technology, 116, 35, 2013 |
