统一能源系统氢负荷中长期预测

[1] 以提高消纳能力为目标的可再生能源发电集群划分方法 [J]. 中国电机工程学报, 2019, 39 (22) : 6583 - 6592

[2] 基于多主体博弈的电力–天然气综合能源系统联合规划方法研究 [J]. 中国电机工程学报, 2019, 39 (22) : 6521 - 6533

[3] 广义风—氢—煤能源系统的挑战与展望 [J]. 电力系统自动化, 2019, 43 (24) : 6 - 12

[4] 风电–氢储能与煤化工多能耦合系统能量广域协调控制架构 [J]. 高电压技术, 2016, 42 (09) : 2748 - 2755

[5] Impact of energy consumption and economic growth on CO 2 emission using multivariate regression[J] . Mostafa K. Ardakani,Seyed Mohsen Seyedaliakbar.Energy Strategy Reviews . 2019 (C)

[6] Building energy performance forecasting: A multiple linear regression approach[J] . G. Ciulla,A. D’Amico.Applied Energy . 2019

[7] Machine-learning methods for integrated renewable power generation: A comparative study of artificial neural networks, support vector regression, and Gaussian Process Regression[J] . Mahdi Sharifzadeh,Alexandra Sikinioti-Lock,Nilay Shah.Renewable and Sustainable Energy Reviews . 2019

[8] Long-term electricity load forecasting: Current and future trends[J] . K.B. Lindberg,P. Seljom,H. Madsen,D. Fischer,M. Korp?s.Utilities Policy . 2019

[9] Hydrogen market penetration feasibility assessment: Mobility and natural gas markets in the US, Europe, China and Japan[J] . Olfa Tlili,Christine Mansilla,David Frimat,Yannick Perez.International Journal of Hydrogen Energy . 2019 (31)

[10] Status and perspectives on 100% renewable energy systems[J] . Kenneth Hansen,Christian Breyer,Henrik Lund.Energy . 2019

[1] 以提高消纳能力为目标的可再生能源发电集群划分方法 [J]. 中国电机工程学报, 2019, 39 (22) : 6583 - 6592

[2] 基于多主体博弈的电力–天然气综合能源系统联合规划方法研究 [J]. 中国电机工程学报, 2019, 39 (22) : 6521 - 6533

[3] 广义风—氢—煤能源系统的挑战与展望 [J]. 电力系统自动化, 2019, 43 (24) : 6 - 12

[4] 风电–氢储能与煤化工多能耦合系统能量广域协调控制架构 [J]. 高电压技术, 2016, 42 (09) : 2748 - 2755

[5] Impact of energy consumption and economic growth on CO 2 emission using multivariate regression[J] . Mostafa K. Ardakani,Seyed Mohsen Seyedaliakbar.Energy Strategy Reviews . 2019 (C)

[6] Building energy performance forecasting: A multiple linear regression approach[J] . G. Ciulla,A. D’Amico.Applied Energy . 2019

[7] Machine-learning methods for integrated renewable power generation: A comparative study of artificial neural networks, support vector regression, and Gaussian Process Regression[J] . Mahdi Sharifzadeh,Alexandra Sikinioti-Lock,Nilay Shah.Renewable and Sustainable Energy Reviews . 2019

[8] Long-term electricity load forecasting: Current and future trends[J] . K.B. Lindberg,P. Seljom,H. Madsen,D. Fischer,M. Korp?s.Utilities Policy . 2019

[9] Hydrogen market penetration feasibility assessment: Mobility and natural gas markets in the US, Europe, China and Japan[J] . Olfa Tlili,Christine Mansilla,David Frimat,Yannick Perez.International Journal of Hydrogen Energy . 2019 (31)

[10] Status and perspectives on 100% renewable energy systems[J] . Kenneth Hansen,Christian Breyer,Henrik Lund.Energy . 2019