On Steam Pipe Network Modeling and Flow Rate Calculation

AbstractThe paper demonstrates the method to set up the pipe network hydraulic-thermal synthetic mode by applying hydraulic and thermal models of single pipe, and proposes the algorithm based on searching for the problem that iterative calculation sometimes cannot derive convergent reasonable result as well. Compared the calculated values with the measurements, it shows the validation of the model and effectiveness of the algorithm

A Unique, Porous C3N4 Nanotube for Electrochemiluminescence with High Emission Intensity and Long-Term Stability: The Role of Calcination Atmosphere

Developing excellent strategies to optimize the electrochemiluminescence (ECL) performance of C3N4 materials remains a challenge due to the electrode passivation, causing weak and unstable light emission. A strategy of controlling the calcination atmosphere was proposed to improve the ECL performance of C3N4 nanotubes. Interestingly, we found that calcination atmosphere played a key role in specific surface area, pore-size and crystallinity of C3N4 nanotubes. The C3N4 nanotubes prepared in the Air atmosphere (C3N4 NT-Air) possess a larger specific surface area, smaller pore-size and better crystallinity, which is crucial to improve ECL properties. Therefore, more C3N4•− excitons could be produced on C3N4 NT-Air, reacting with the SO4•− during the electrochemical reaction, which can greatly increase the ECL signal. Furthermore, when C3N4 nanotube/K2S2O8 system is proposed as a sensing platform, it offers a high sensitivity, and good selectivity for the detection of Cu2+, with a wide linear range of 0.25 nM~1000 nM and a low detection limit of 0.08 nM

sj-docx-1-car-10.1177_19476035231207778 – Supplemental material for Novel-miR-81 Promotes the Chondrocytes Differentiation of Bone Marrow Mesenchymal Stem Cells Through Inhibiting Rac2 Expression

Supplemental material, sj-docx-1-car-10.1177_19476035231207778 for Novel-miR-81 Promotes the Chondrocytes Differentiation of Bone Marrow Mesenchymal Stem Cells Through Inhibiting Rac2 Expression by Ziwei Luo, Jinqi Xie, Haoxiang Ye, Jie Zhang, Yangping Liu, Chunmei Ma, Jiahui Cao, Hao Pan, Xiaosheng Liu, Xianxi Zhou, Jiechen Kong, Dongfeng Chen and Aijun Liu in CARTILAGE</p

sj-tif-2-car-10.1177_19476035231207778 – Supplemental material for Novel-miR-81 Promotes the Chondrocytes Differentiation of Bone Marrow Mesenchymal Stem Cells Through Inhibiting Rac2 Expression

Supplemental material, sj-tif-2-car-10.1177_19476035231207778 for Novel-miR-81 Promotes the Chondrocytes Differentiation of Bone Marrow Mesenchymal Stem Cells Through Inhibiting Rac2 Expression by Ziwei Luo, Jinqi Xie, Haoxiang Ye, Jie Zhang, Yangping Liu, Chunmei Ma, Jiahui Cao, Hao Pan, Xiaosheng Liu, Xianxi Zhou, Jiechen Kong, Dongfeng Chen and Aijun Liu in CARTILAGE</p

Cyclic voltammograms of 10 mM o–bromopyridine on a GC electrode in DMF with 0.1 M TEABF4 at (a) v=0.1 V/s, (b) 0.2 V/s, (c) 0.3 V/s, (d) 0.4 V/s, (e) 0.5 V/s, (f) 0.6 V/s, (g) 0.7 V/s, (h) 0.8 V/s and (i) 0.9 V/s. from Fixation of CO₂ along with bromopyridines on a silver electrode

Cyclic voltammogram