PC系列光敏催化剂用于快速降解农用地膜。
PC Series photo catalyst was used for photosensitizer in the farm PE film.
结果表明:微波辅助酸降解法是快速降解香豆胶的新方法,降解速度显著高于水浴酸降解法。
The results show that, the degradation of fenumgreek gum by acid assisted with microwave radiation is a novel method, and the degradation rate is higher than that by water bathe significantly.
试验结果表明:发酵菠萝渣中粗蛋白质(CP)的动态降解率为52.28%,快速降解部分为9.62%;
The results were as follows:The dynamic degradability of crude protein(CP) was 52.28 %, and the fast degradation part was 9.62 %.
本方法能快速降解高分子聚合物为低分子有机物,并能在一定程度降低污水COD值,其操作简单,设备费用不高,在废水处理中有较大的经济效益和社会效 益。
The method can rapidly degrade polymers into small molecular organic matters, and can reduce COD content in some degree. Besides, the operation is easy, and the apparatus cost is not high.
但是一项新的调查显示可降解塑料,尤其是那些快速分解的,正在加剧气候变化。
But a new analysis shows that biodegradable plastics, particularly those that break down fast, are contributing to climate change.
结论本方法对流动相系统作了改进,方法简便、快速、准确,在降解产物较多时也适用。
CONCLUSION the mobile phase system was improved, So the method was convenient, rapid, accurate, precise and it was not influenced when there are the degradation products.
一个办法是保持足够的剪切以快速清洁机筒内表面。因为当聚合物与金属接触太长时间后会发生聚合物降解。
One solution is to maintain sufficient shear to wipe the metal surfaces constantly, since most polymer degradation occurs when polymer contacts metal for too long.
超临界水氧化技术是一种快速彻底降解废水中有机物质的新型处理技术。
The supercritical water oxidation is an innovative technology for fast, complete and efficient destruction of organics in wastewater.
针对复合厌氧反应器处理高浓度难降解有机废水如何创造生产性快速启动条件及反应器的有效控制进行了相关研究。
A complex anaerobic reactor treating high-concentrated antibiotic wastewater was studied to find out the condition of fast startup and effective control of full-scale facility.
棉花秸秆中DM、NDF、ADF的快速可降解部分以及慢速可降解部分的降解率随处理方法不同而呈现差异。
The fast-degradability and slow-degradability rate of DM, NDF, and ADF in cotton straw feed presented differences along with different chemical treatments.
通过对生物耗氧速率指标的快速测定,可以快速、准确地判断废水的可生物降解性。
The results showed that the biodegradation of benazolin can be determined rapidly and precisely by the biological-O2-consumption.
通过对生物耗氧速率指标的快速测定,可以快速、准确地判断废水的可生物降解性。
The results showed that the biodegradation of benazolin can be determined rapidly and precisely by the biological-O2-consumption.
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