1) shock loading
负荷冲击
1.
The microbial community structure in the bioaugmented system for refinery wastewater treatment and the changes in this system when it received shock loading were studied using ERIC-PCR technology.
运用ERIC-PCR技术,分析研究了炼油废水处理菌剂的组成,以及炼油废水处理系统在受到高负荷冲击时,投加高效炼油废水处理菌剂的生物强化系统和对照系统中污泥微生物群落结构的变化。
2.
In this study, conventional activated sludge (CAS) systems, which were generally used to treat municipal wastewater, were modeled to receive intermittent 2,4-dichlorophenol (2,4-DCP) shock loadings.
研究了用于处理生活污水的普通活性污泥反应器 (CAS)受到 2 ,4 二氯酚 (2 ,4 DCP)间歇性负荷冲击时 ,投加高效菌的生物强化系统和对照系统对污染物的响应及系统稳定性 ,并考察了长期运行过程中强化系统对目标污染物去除能力的变化 。
3.
Intermittent and continuous shock loading had been observed during the 5-month operation of sorbitol wastewater treatment system using activated sludge process.
结果发现:影响废水处理效率和出水水质的因素主要有有机负荷冲击、高浓度硅藻土和Ni2+毒性负荷冲击。
2) shock load
冲击负荷
1.
Using the anaerobic baffled reactor(ABR) to treat the domestic wastewater,this paper researched on the influence of each room of ABR when organic shock loading and hydraulicshock loading are changing.
试验采用厌氧折流板反应器(ABR)处理生活污水,研究了在有机冲击负荷和水力冲击负荷发生变化时,ABR各格室所受到的影响,并对该反应器耐受抗冲击负荷的能力进行了分析。
2.
The effect of shock load on performance of the reactor was studied.
应用厌氧折流板反应器处理玉米杆纤维浆粕废水,研究了冲击负荷对反应器运行性能的影响。
3.
The a bility to resist shock loading could be enhanced by supplement of trace metals t o the anaerobic reactor.
不同水力停留时间 (HRT)下的运行情况对比表明 ,投加微量金属元素Fe ,Co,Ni可以提高厌氧反应器的抗冲击负荷能力。
3) shock loading
冲击负荷
1.
Under several times of shock loading,the effluen.
在若干冲击负荷下检测的出水COD均在 20 mg·L-1左右,SS均为 0。
2.
Under shock loading of triple normal strength Recirculated Membrane Bio Reactor (RMBR)for domestic wastewater treatment exhibited high stability,the effluent COD concentration maintained normal value while mixed liquor supernatant COD value as well as TransMembrane Pressure(TMP)showed only slight increase.
分置式膜 -生物反应器处理生活污水的运行结果表明 ,在 3倍于正常水平的冲击负荷下 ,分置式膜 -生物反应器能够正常运行 ,膜过滤出水 COD维持在 1 0 mg/ L以下 ,生物反应器污泥上清液 COD和透膜压力 TMP比正常水平略微上升 ,但在冲击负荷消除后能够恢复正常水平 ,呈现出较强的抗冲击负荷能力 。
3.
The experimental results indicated that the PFB process used in coal mine water purification was characterized by high surface loading,low water consumption rate,and satisfied adoption of shock loading.
2m/h,产水量增加了1000m3/d左右,且对于33%的冲击负荷具备了较强的耐受性。
4) impact load
冲击负荷
1.
Study on theory and arithmetic of electric energy measurement for impact load;
冲击负荷电能计量理论与算法研究
2.
Based on abovementioned, it is pointed out that there is some adjusting operational experience suit for middle-small town WWTP facing with bigger fluctuation of influent quantity and higher impact load.
介绍了禹城污水处理厂的调试运行状况,并从培菌启动条件、设备配置、水力流态等方面对调试过程中出现的问题进行了分析与探讨,在此基础上提出了适合中小城镇污水处理厂面对进水水量波动较大,冲击负荷高的情况下的调试经验。
3.
Based on theoretical analyses and experiments,main reasons have been discovered that cause excessive impact load on the wrapper roll of down coiler.
在理论分析和试验研究的基础上 ,找出地下卷取机助卷辊冲击负荷过大的主要原因。
5) impulsive load
冲击负荷
1.
In this article,Th author analysised the course of kinds impulsive load and its affection to the oporation of heavy metals wastewater treatment facilities,the affection of initial rain was mainly studied,and countermeasures were drown out.
针对重金属废水处理设施的各种冲击负荷形成过程,及其对处理设施运行效果的影响进行了分析,重点对初期雨水形成的冲击负荷影响进行了讨论,提出了缓冲的办法。
2.
The impulsive load during the process of steel rolling in metallurgical industry has asignificant effect on power system stability.
以某地区电网为研究对象,通过计算机仿真揭示在地区电网中由于连续冲击负荷而使整个系统电压和发电机组转速出现的波动现象。
6) surge load
冲击负荷
1.
The surge load of Synchronous Radiation Fitting(SRF) power supply system may cause voltage fluctuation of distribution network.
同步辐射装置(SRF)供电系统的冲击负荷会引起配电网络电压波动。
补充资料:冲击负荷
冲击负荷
impact load
ehongJI fuhe冲击负荷(i mpact load)运行中的用电设备突然从电力系统短时间取用的很大功率。冲击负荷出现的时间虽然很短,但其峰值可能是其平均值的数倍甚至数十倍,引起电力系统的颐率波动、公共供电点的电压陡降,灯光闪烁,电视机图像崎变,传真图文失真等,有时电压陡降还会影响电网自动装t的正常工作。其中周期性冲击负荷还会造成闪变. 引起冲击负荷的常见用电设备有炼姻电孤护、电力机车、压延机、电坪机等。冲击负荷出现于炼钢电弧炉熔化期、电力机车爬坡期间、压延机在坯料送人轧辊期间、电焊机引弧期间等。由于主要产生冲击负荷的用电设备大多用电功率因数较低,因此冲击负荷对无功功率的影响尤为严重。 消除冲击负荷对电力系统影响的主要措施有:加大电力系统短路容量,采用快速调节的无功补偿装置,对产生冲击负荷的用电设备提高供电电压等级,采取专线供电等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条