1 |
Enhanced simultaneous organics and nutrients removal in tidal flow constructed wetland using activated alumina as substrate treating domestic wastewater Tan X, Yang YL, Liu YW, Li X, Fan XY, Zhou ZW, Liu CJ, Yin WC Bioresource Technology, 280, 441, 2019 |
2 |
Assessing the impact of tidal stream energy extraction on the Lagrangian circulation Guillou N, Chapalain G Applied Energy, 203, 321, 2017 |
3 |
Enhanced nitrogen removal and associated microbial characteristics in a modified single-stage tidal flow constructed wetland with step-feeding Wang Z, Huang ML, Qi R, Fan SS, Wang Y, Fan T Chemical Engineering Journal, 314, 291, 2017 |
4 |
Asymmetry of tidal currents off the W.Brittany coast and assessment of tidal energy resource around the Ushant Island Thiebaut M, Sentchev A Renewable Energy, 105, 735, 2017 |
5 |
Tidal stream resource assessment uncertainty due to flow asymmetry and turbine yaw misalignment Piano M, Neill SP, Lewis MJ, Robins PE, Hashemi MR, Davies AG, Ward SL, Roberts MJ Renewable Energy, 114, 1363, 2017 |
6 |
Modeling brine discharge dispersion from two adjacent desalination outfalls in coastal waters Purnama A, Shao DD Desalination, 362, 68, 2015 |
7 |
How the novel integration of electrolysis in tidal flow constructed wetlands intensifies nutrient removal and odor control Ju XX, Wu SB, Huang X, Zhang YS, Dong RJ Bioresource Technology, 169, 605, 2014 |
8 |
Achieving high-rate autotrophic nitrogen removal via Canon process in a modified single bed tidal flow constructed wetland Hu YS, Zhao XH, Zhao YQ Chemical Engineering Journal, 237, 329, 2014 |
9 |
Comprehensive analysis of step-feeding strategy to enhance biological nitrogen removal in alum sludge-based tidal flow constructed wetlands Hu YS, Zhao YQ, Zhao XH, Kumar JLG Bioresource Technology, 111, 27, 2012 |
10 |
Pilot field-scale demonstration of a novel alum sludge-based constructed wetland system for enhanced wastewater treatment Zhao YQ, Babatunde AO, Hu YS, Kumar JLG, Zhao XH Process Biochemistry, 46(1), 278, 2011 |