Sentence examples for maximal removal efficiency from inspiring English sources
After 3 h of reaction with the addition of hydrogen peroxide a maximal removal efficiency of 25%% was observed at pH 7.5.
It implies that the strategy to optimize the removal conditions and to obtain the maximal removal efficiency by CCD for phenol removal by electrochemical and photocatalytic processes is successful.
The predicted values were verified by further experimental test, and the result indicated that the maximal removal efficiency was obtained when the values of each operational parameter were justified at the optimum values.
The optimum conditions were predicted to give a maximal removal efficiency of 100% at the In2S3 dosage of 2.5 g/L, an initial tetracycline concentration of 20 mg/L and pH of 7.0.
Maximal removal efficiencies were achieved in an unplanted-FW-SSF for ketoprofen (47 81%), naproxen (58 81%) and salicylic acid (76 98%); in an unplanted-SSF for caffeine (65 99%); in a Phragmites-FM-SF for ibuprofen (49 96%) and diclofenac (16 68%); in a Typha-FM-SF for carbamazepine (35 71%); and in a Typha-FW-SSF for methyl dihydrojasmonate (71 96%), galaxolide (67 82%) and tonalide (55 74%).
It was then utilized for Cr (VI) removal and a maximum removal efficiency of 87% was obtained [ 124].
The recycling of the fungal pellets supported the maximal color removal efficiency of 76% from the effluent.
Maximum COD removal efficiency of 96.5% and lignin removal of 84% were obtained.
Maximum particulate matter removal efficiency of 83% and tar removal efficiency of 62% was achieved.
The study of glucose concentration effect on the yeast extracellular polymeric substances (EPS) production showed that a medium exempt of glucose allowed maximal EPS production and minimal chromium removal efficiency, while 20 g/L glucose concentration of presented the optimal condition for chromium removal.
The result of optimization showed that color removal efficiency presented the maximal result (98%) at the optimal condition of initial amount of Fe(III) 0.2 mM, initial dye concentration 50 mg/l, reaction time 70 min and applied current 400 mA.
