| 1. | N and p removal characters of eutrophic water body under planted float
磷净化特征的初步研究 |
| 2. | Advances in research of biological purification of eutrophic water body
富营养化水体生物净化效应的研究进展 |
| 3. | The control of eutrophic water in pondsby floating - bed soilless culture of plants
浮床无土栽培植物控制池塘富营养化水质 |
| 4. | Purification effects of floating bed plants on eutrophic water body under low temperature in winter
冬季低温条件下浮床植物对富营养化水体的净化效果 |
| 5. | 2 . lythrum salicaria removed p effectively in eutrophic water with different levels of tp concentrations
千屈菜对水体中的总磷( tp )有显著的去除效果。 |
| 6. | It indicated the potential purification of lythrum salicaria in eutrophic water , and supported its uses in water scenery design
这也为千屈菜在园林水景中的应用提供了实验和理论依据。 |
| 7. | In the biological pretreatment procedure for eutrophic water , mc were degraded by special bacteria and assimilated by heterotrophic microorganisms
生物预处理工艺中, mc在特定细菌的降解作用及混合微生物的同化作用下被去除。 |
| 8. | 30 % ~ 45 . 3 % of extracellular mc and 30 % ~ 51 . 7 % of total mc were removed by chl orination . cascade biological contact oxidation reactor was more effective and stable for the treatment of eutrophic water than one - step reactor
接近于推流反应器的三阶生物接触氧化反应器对富营养化原水的预处理效果与稳定性优于单阶生物接触氧化反应器。 |
| 9. | The results showed that the trophic lenel of lake taihu was in the transition state , from meso - eutrophic to eutrophic , of which the meso - eutrophic made up about 70 % of the total are . the eutrophic and hyper - eutrophic waters accounted for 10 % or so
结果表明,太湖营养水平处于中富向富营养过渡状态,中富面积约占全湖面积的70 %以上;夏季富营养及重富营养水域出现在北部湖区的梅梁湖、五里湖和西部沿岸,约占全湖面积的10 % 。 |
| 10. | The enzyme - linked immunosorbent assay ( elisa ) and high performance liquid chro - matography ( hplc ) analysis for detection of mc were optimized . the removal rates of mc by conventional water treatment processes were investigated through the laboratory study and the detection of mc in every process in meiyuan drinking water treatment plant . results showed that the prechlorination of eutrophic water led to the release of intracellular toxins to water phase
本文完善了mc的elisa和hplc分析方法,通过模拟试验及水厂实测调查了富营养化太湖水中mc在常规净水工艺中的去除特性,结果表明预氯化使藻细胞内的mc释放出来,混凝沉淀对细胞外mc无去除作用,砂滤可去除17 . 2 40 . 4的细胞外mc和19 . 0 36 . 6的总mc ,加氯消毒对细胞外mc和总mc的去除率分别为30 45 . 3和30 51 . 7 。 |
