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Dong Liu

Researcher at Nanjing University of Science and Technology

Publications -  499
Citations -  9899

Dong Liu is an academic researcher from Nanjing University of Science and Technology. The author has contributed to research in topics: Chemistry & Combustion. The author has an hindex of 39, co-authored 412 publications receiving 7618 citations. Previous affiliations of Dong Liu include Indian Ministry of Environment and Forests & Purdue University.

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Improvement of Load-Following Capacity Based on the Flame Radiation Intensity Signal in a Power Plant

TL;DR: In this paper, a new method for the boiler control system based on radiation intensity for improving the load-following capacity of a coal-fired power plant has been developed in order to perform fast load changes due to the increasing commercialization of the power market.
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Density functional theory and reactive dynamics study of catalytic performance of TiO2 on CO2 desorption process with KHCO3/TiO2/Al2O3 sorbent

TL;DR: In this paper, a density functional theory (DFT) method was designed to simulate the catalytic performance of TiO2 with density functional theories and investigate the CO2 desorption performances of the sorbent.
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Calculation and experimental validation of spectral properties of microsize grains surrounded by nanoparticles

TL;DR: The results suggest that the large particles embedded in the nanoparticle matrices show different scattering and absorption properties from the single scattering condition and that the MSTM and DOM algorithms are both useful for calculating the spectral and radiative properties of this particulate system.
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A vertical tip–tip contact silicon nanowire array for gas sensing

TL;DR: The highly oriented nano-junction formed on the TTC structure provided solid evidence to clarify the contribution of the nanojunction to gas sensing behavior, and the mechanism ofGas sensing behavior on different types of TTC structures was proposed.
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Nucleate Boiling in Microchannels

TL;DR: Liu et al. as mentioned in this paper used high-speed photography to reveal the complex bubble dynamics during nucleate boiling in copper microchannels of hydraulic diameter 384 μm (275 μm wide and 636 μm high) and 25.4 mm length.