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Research and Accuracy Analysis on Engineering Quantity Calculation of a Projected Building by BIM Software Read chapter Read first chapter

2020 | OriginalPaper | Chapter

The Optimum Research and Case Study of Wind Power Heating Based on Supply and Demand Load Forecasting

Authors : Chuankai Niu, Zhengwei Li, Renjing Cao

Published in: Proceedings of the 11th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC 2019)

Publisher: Springer Singapore

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Abstract

Wind power heating is one of the most important methods for reducing the discard wind power. However, one of the key problems is reasonably matching electric power between the output power in a wind farm and building demand heat load, which can improve the economic benefits of the overall project. In this paper, an optimization model includes the wind power prediction model, and demand load model was established, and by which the ratio of discarded wind power was calculated. And under different boundary conditions and optimization objective, the optimal heating area and heat storage tank capacity were obtained. Using this method, a practical project of wind power heating was analyzed in Inner Mongolia Autonomous Region. The analysis result is the ratio of discarded wind reduced to 4.96 % when heating supply using wind power from 14.96% under not heating supply. The annual average of wind farm is raised to 18.47% from 12.51%. This model can improve the efficiency of renewable energy and bring down the ratio of discarded wind, and it can obtain a considerable economic and society benefit.

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previous chapter Development of Prototype Building Model in Beijing Based on Actual Energy Consumption
next chapter Study on Bath Water Energy Loss of Campus Dormitory Air-Source Heat-Pump Water Heater
Literature
1.
Li, G., Shi, J., Zhou, J.: Bayesian adaptive combination of short-term wind speed forecasts from neural network models. Renew. Energy 36(1), 352–359 (2011)CrossRef
2.
Cadenas, E., Rivera, W., Campos-Amezcua, R., et al.: Wind speed prediction using a univariate ARIMA model and a multivariate NARX model. Energies 9(2), 109–113 (2016)CrossRef
3.
Lei, X.: Investigations on short-term reliability prediction models of wind turbines and active power control strategies of wind farms. Dissertation for the doctoral degree in engineering in Chongqing University, Chongqing (2014) (in Chinese)
4.
Chitsaz, H., Amjady, N., Zareipour, H.: Wind power forecast using wavelet neural network trained by improved Clonal selection algorithm. Energy Convers. Manage. 89, 588–598 (2015)CrossRef
5.
Hu, Q., Zhang, R., Zhou, Y.: Transfer learning for short-term wind speed prediction with deep neural networks. Renew. Energy 85(14), 83–95 (2016)CrossRef
6.
Pei, Z., Wang, C., He, Q., et al.: Analysis and suggestions on renewable energy integration problems in China. Electr. Power 49(11), 1–7 (2016). (in Chinese)MathSciNet
7.
Xu, X.: Research on accommodating wind power using heating. Dissertation for the master degree in North China Electric Power University, Beijing (2016) (in Chinese)
8.
Li, S., Dong, H., Zhang, R., et al.: Multi-source coordination and optimization operation of combined heat and power system considering wind power consumption. Acta Energiae Solaris Sin. 39(8), 2217–2225 (2018). (in Chinese)
9.
Yang, X., Lei, X., Ren, J., et al.: Operation model and economic analysis of using curtailed wind power for heat. Distrib. Energy 1(1), 28–32 (2016). (in Chinese)
10.
Xu, M., Jiang, D.: Energy efficiency and economic analysis in wind power heating system. Energy China 37(8), 42–47 (2015). (in Chinese)
Metadata
Title
The Optimum Research and Case Study of Wind Power Heating Based on Supply and Demand Load Forecasting
Authors
Chuankai Niu
Zhengwei Li
Renjing Cao
Copyright Year
2020
Publisher
Springer Singapore
Book
Proceedings of the 11th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC 2019)

Print ISBN: 978-981-13-9527-7

Electronic ISBN: 978-981-13-9528-4

Copyright Year: 2020

DOI
https://doi.org/10.1007/978-981-13-9528-4_121