Your search keyword '"Zhang, Yaocong"' showing total 4 results

1. A hybrid deep learning model based on parallel architecture TCN-LSTM with Savitzky-Golay filter for wind power prediction

Author

Liu, Shujun, Xu, Tong, Du, Xiaoze, Zhang, Yaocong, and Wu, Jiangbo

Published

2024

2. Short-Term Power Prediction of Wind Turbine Applying Machine Learning and Digital Filter.

Author

Liu, Shujun, Zhang, Yaocong, Du, Xiaoze, Xu, Tong, and Wu, Jiangbo

Subjects

DIGITAL learning, WIND turbines, WIND power, ENERGY development, WIND forecasting, STIMULUS generalization, LOAD forecasting (Electric power systems), MACHINE learning

Abstract

As wind energy development increases, accurate wind energy forecasting helps to develop sensible power generation plans and ensure a balance between supply and demand. Machine-learning-based forecasting models possess exceptional predictive capabilities, and data manipulation prior to model training is also a key focus of this research. This study trained a deep Long Short-Term Memory (LSTM) neural network to learn the processing results of the Savitzky-Golay filter, which can avoid overfitting due to fluctuations and noise in measurements, improving the generalization performance. The optimum data frame length to match the second-order filter was determined by comparison. In a single-step prediction, the method reduced the root-mean-square error by 3.8% compared to the model trained directly with the measurements. The method also produced the smallest errors in all steps of the multi-step advance prediction. The proposed method ensures the accuracy of the forecasting and, on that basis, also improves the timeliness of the effective forecasts. [ABSTRACT FROM AUTHOR]

Published

2023

3. A Study on the Improvement of the Photothermal Characteristics of the Adsorbent for Sorption-Based Atmospheric Water Harvesting Driven by Solar.

Author

Wu, Jiangbo, Sui, Ziyi, Du, Xiaoze, Zhang, Yaocong, and Ma, Tao

Subjects

WATER harvesting, WATER supply, WATER withdrawals, PHOTOTHERMAL conversion, ADSORPTION capacity, SOLAR technology, SOLAR stills, SORBENTS

Abstract

Facing the global freshwater resource crisis, using solar energy to produce fresh water resources in an environmentally friendly way, sorption-based atmospheric water harvesting driven by solar technology has attracted increasingly more attention. In the current research, the adsorbent MOF-801 has the advantages of a high adsorption capacity and is suitable for fields with a wide range of humidity. However, the strong interaction between the adsorbent and water molecules is conducive to rapid moisture absorption, but at the same time, the adsorbent needs higher heat to achieve regeneration, which restricts the practical application of the adsorbent. Based on the principle that carbon materials can improve the photothermal conversion performance of adsorbent, this paper prepared three composite adsorbents with MOF-801 and three different carbon materials, characterized the structure and morphology of each adsorbent, and compared the effects of different carbon materials on the performance of MOF-801 adsorbent. Among them, the photothermal characteristics of MOF-801/CNT adsorbent proposed in this paper are most significantly improved. The experiment shows that compared with MOF-801/G, the adsorption capacity is increased by 30%, and the desorption speed is increased by 50%. It maximizes water withdrawals over a period of time in arid environments. [ABSTRACT FROM AUTHOR]

Published

2023

4. Numerical Simulation of Multi-Nozzle Droplet Evaporation Characteristics for Desulfurization Wastewater.

Author

Guo, Xinrui, Wu, Jiangbo, Du, Xiaoze, Zhang, Yaocong, Feng, Shuqin, and Liu, Shujun

Subjects

FLUE gas desulfurization, SEWAGE, FLUE gases, SUPPORT vector machines, COMPUTER simulation, DESULFURIZATION

Abstract

Spraying flue gas desulfurization wastewater into flue ducts is an emerging technology that is receiving extensive attention in thermal power plants. In order to study the evaporative performance of wastewater-atomizing droplets under variable working conditions, a combined Euler–Lagrange model was developed to demonstrate the thermal behavior of FGD wastewater spray evaporation in flue gas. The effects of several control factors under various operating conditions were numerically determined and validated against experimental data. Due to the complicated parameters and various other conditions, a least-square support vector machine (LSSVM) model relying on numerical results was used to anticipate the evaporation rate of the droplets. We prove that the LSSVM model has high prediction accuracy for the evaporation rate at different cross-sections of flue under a different operating situation. The conclusion is that for the sake of improving the quality of evaporation, the spacing between two adjacent nozzles should be increased while increasing the flow rate. However, using a higher flue gas temperature, higher initial temperature and smaller diameter of droplets can shorten the time and distance of complete evaporation. In summary, this research analysis can be used effectively to determine the design of the FGD wastewater flue gas evaporative process in thermal power plants. [ABSTRACT FROM AUTHOR]

Published

2022