Impact of settling time on HPST. by Peng Zhao (128233)

“…The model optimization and experimental validation showed that the optimal HPST conditions for treating domestic sewage were as follows: the dosage of polyaluminum chloride (PAC) was 1.70 g/L, cationic polyacrylamide (CPAM) dosage was 2.35 mg/L, sewage pH was maintained at 8.0, sludge dosage was 10 mL/L, stirring time lasted for 5 minutes, and settling time lasted for 30 minutes. As a result of these optimized conditions, the turbidity of treated sewage decreased to 1.19 NTU.…”

ANOVAs for the response surface of Eq (2). by Peng Zhao (128233)

“…The model optimization and experimental validation showed that the optimal HPST conditions for treating domestic sewage were as follows: the dosage of polyaluminum chloride (PAC) was 1.70 g/L, cationic polyacrylamide (CPAM) dosage was 2.35 mg/L, sewage pH was maintained at 8.0, sludge dosage was 10 mL/L, stirring time lasted for 5 minutes, and settling time lasted for 30 minutes. As a result of these optimized conditions, the turbidity of treated sewage decreased to 1.19 NTU.…”

Impact of CPAM dosage on HPST. by Peng Zhao (128233)

“…The model optimization and experimental validation showed that the optimal HPST conditions for treating domestic sewage were as follows: the dosage of polyaluminum chloride (PAC) was 1.70 g/L, cationic polyacrylamide (CPAM) dosage was 2.35 mg/L, sewage pH was maintained at 8.0, sludge dosage was 10 mL/L, stirring time lasted for 5 minutes, and settling time lasted for 30 minutes. As a result of these optimized conditions, the turbidity of treated sewage decreased to 1.19 NTU.…”

Impact of sewage pH on HPST. by Peng Zhao (128233)

“…The model optimization and experimental validation showed that the optimal HPST conditions for treating domestic sewage were as follows: the dosage of polyaluminum chloride (PAC) was 1.70 g/L, cationic polyacrylamide (CPAM) dosage was 2.35 mg/L, sewage pH was maintained at 8.0, sludge dosage was 10 mL/L, stirring time lasted for 5 minutes, and settling time lasted for 30 minutes. As a result of these optimized conditions, the turbidity of treated sewage decreased to 1.19 NTU.…”

Impact of PAC dosage on HPST. by Peng Zhao (128233)

“…The model optimization and experimental validation showed that the optimal HPST conditions for treating domestic sewage were as follows: the dosage of polyaluminum chloride (PAC) was 1.70 g/L, cationic polyacrylamide (CPAM) dosage was 2.35 mg/L, sewage pH was maintained at 8.0, sludge dosage was 10 mL/L, stirring time lasted for 5 minutes, and settling time lasted for 30 minutes. As a result of these optimized conditions, the turbidity of treated sewage decreased to 1.19 NTU.…”

The UL4 null mutation alleviated inflammasome activation in PRV-infected cells. by Xiaohua Zhang (350570)

All data points from S1 to S5 Figs as well as the supplementary method table. by Sara Hijazi (21656615)

The ROC curves and AUC values of the diagnostic model. by Zhe Wu (582498)

Limma differential analysis results for IS and OSA. by Zhe Wu (582498)

Co-expression network of IS and OSA. by Zhe Wu (582498)

Histopathological appearance of the liver. by Ayça Toprak-Semiz (22582110)

Effect of KV3 modulation on PV interneuron firing frequency and on autaptic release. by Sara Hijazi (21656615)

Histopathological appearance of the heart. by Ayça Toprak-Semiz (22582110)

GSVA pathway scores for IS and OSA. by Zhe Wu (582498)

Forest plots of APTT for 28-day mortality in different subgroups. by Huan Wang (109286)

Distance-based redundancy analysis (dbRDA) plot performed from the distance-based linear model permutation test (DistLM) that describes the aggregation of sampling stations at ever... by Francisco Flores-de-Santiago (20391063)

LASSO regression for screening candidate diagnostic biomarkers. by Zhe Wu (582498)

Summary of risk of bias. by Mohamed R. Abdelraouf (21501468)

Averaged pupillary responses in bright and dark conditions. by Tomoe Hayakawa (20978784)

Kinetics of coagulation parameters between the survivors and non-survivors during hospitalization. by Huan Wang (109286)