[1] |
.
Removal Efficiency of 4 Kinds of Heavy Metals in Wastewater by Simulated Constructed Wetlands Planting 4 Kinds of Plants
[J]. WETLAND SCIENCE, 2019, 17(2): 255-260.
|
[2] |
.
Comparison of Treatment Efficiency for Wastewater with Pb2+ by Simulated Vertical Flow Constructed Wetlands with 5 Kinds of Substrates
[J]. WETLAND SCIENCE, 2019, 17(1): 60-67.
|
[3] |
.
Physical and Chemical Properties of Soils in Grazing and EnclosedWet Meadows in the Middle Reaches of Xilin River
[J]. WETLAND SCIENCE, 2018, 16(5): 626-634.
|
[4] |
.
Distribution Characteristics of Nitrogen and Phosphorus in Soils of Typical Saltwater-freshwater Interface Wetlands of the Yellow River Delta
[J]. WETLAND SCIENCE, 2018, 16(5): 679-683.
|
[5] |
.
Indoor Simulation Experiment on Pollutant Removal Rates by Micro-electrolysis Material Intensified Constructed Wetland
[J]. WETLAND SCIENCE, 2018, 16(5): 684-689.
|
[6] |
.
Characteristics of Phosphorus Adsorption by Three Kinds of Fillers and Their Influence Factors
[J]. WETLAND SCIENCE, 2018, 16(3): 341-346.
|
[7] |
.
Contrastive Analysis ofWater Quality between Restore Wetland and Nature Wetland in Naoli River Basin
[J]. WETLAND SCIENCE, 2018, 16(2): 179-184.
|
[8] |
.
Treatment Effectiveness of Sewage Drain into Xingyue Reservoir by Surface Flow Constructed Wetlands-Subsurface Flow Wetlands-Subsurface Flow Wetlands
[J]. WETLAND SCIENCE, 2018, 16(1): 59-66.
|
[9] |
.
Effect of Treatment of Oily Sewage by Vertical Flow Constructed Wetland-Ultrafiltration Membrane
[J]. WETLAND SCIENCE, 2018, 16(1): 93-96.
|
[10] |
.
Purification Effect on Aquaculture Wastewater by Multi-series Surface Flow Constructed Wetland
[J]. WETLAND SCIENCE, 2017, 15(6): 774-780.
|
[11] |
.
Effect of Phosphorus Removal by Zeolite Modified by Ferric Trichloride
[J]. WETLAND SCIENCE, 2017, 15(3): 464-469.
|
[12] |
.
Effect of Swine Wastewater Treatment by Constructed Wetlands in Yongchun County, Quanzhou in Cold Season
[J]. WETLAND SCIENCE, 2017, 15(2): 229-236.
|
[13] |
.
Removal Efficiency of Nitrogen in Different Stages of Constructed Wetlands
[J]. WETLAND SCIENCE, 2017, 15(1): 32-39.
|
[14] |
.
The Nitrogen and Phosphorus Removal Efficiency of Horizontal Baffle Subsurface Flow ConstructedWetland without Plants
[J]. WETLAND SCIENCE, 2016, 14(2): 219-225.
|
[15] |
.
Adsorption Capacity of Substrates of Constructed Wetlands based on Denitrification and Dephosphorization and Their Influencing Factors
[J]. WETLAND SCIENCE, 2016, 14(1): 122-128.
|