Energy Simulation for the Integration of Virtual Power Plants into Production Planning

被引：0

作者：

Stich, Volker ^{[1
]}

Brandenburg, Ulrich ^{[1
]}

Krenge, Julian ^{[1
]}

机构：

[1] Rhein Westfal TH Aachen, Inst Ind Management, D-52074 Aachen, Germany

来源：

ADVANCES IN PRODUCTION MANAGEMENT SYSTEMS: INNOVATIVE AND KNOWLEDGE-BASED PRODUCTION MANAGEMENT IN A GLOBAL-LOCAL WORLD, APMS 2014, PT II | 2014年 / 439卷

关键词：

Energy-Efficiency; Energy Simulation; Production Planning and Scheduling; Virtual Power Plants; SYSTEMS;

D O I：

暂无

中图分类号：

TP [自动化技术、计算机技术];

学科分类号：

0812 ;

摘要：

Germany pushes its energy industry towards renewable energy sources which results in an increase of distributed energy generation. Therefore, energy supply will fluctuate more and more and companies need to react to higher and volatile prices as well as to a fluctuating supply of energy. One reaction is to reactively consider these changing prices and supply of energy within production planning and control (PPC). PPC therefore acts as a control unit to integrate volatile energy supply into the production process. Within this paper a scenario is considered where a virtual power plant (VPP) combines different types of distributed energy generation. Energy simulation is then used to

引用

页码：98 / 105

页数：8

共 50 条

[31] Empowering net zero energy grids: a comprehensive review of virtual power plants, challenges, applications, and blockchain integration
Bedi, Aakanksha
Ramprabhakar, J.
Anand, R.
Meena, V. P.
Hameed, Ibrahim A.
DISCOVER APPLIED SCIENCES, 2025, 7 (04)
[32] Chance Constraints and Machine Learning integration for uncertainty management in Virtual Power Plants operating in simultaneous energy markets
Aguilar, Juan
Bordons, Carlos
Arce, Alicia
INTERNATIONAL JOURNAL OF ELECTRICAL POWER & ENERGY SYSTEMS, 2021, 133
[33] Integration of calcium looping and calcium hydroxide thermochemical systems for energy storage and power production in concentrating solar power plants
Carro, A.
Chacartegui, R.
Ortiz, C.
Arcenegui-Troya, J.
Perez-Maqueda, L. A.
Becerra, J. A.
ENERGY, 2023, 283
[34] Optimizing Electric Vehicle Integration in Virtual Power Plants: A Stochastic Optimization Framework With MDNN Integration
Qureshi, Ubaid
Andrabi, Insha
Manzoor, Mohsin
Khan, Shahi Jahan
Gul, Owais
Farooq, Furqan
Panigrahi, Bijaya Ketan
IEEE TRANSACTIONS ON INDUSTRY APPLICATIONS, 2024, 60 (06) : 9227 - 9236
[35] Impact of industrial virtual power plant on renewable energy integration
Runze Liu
Yu Liu
Zhaoxia Jing
GlobalEnergyInterconnection, 2020, 3 (06) : 545 - 552
[36] Impact of industrial virtual power plant on renewable energy integration
Liu R.
Liu Y.
Jing Z.
Global Energy Interconnection, 2020, 3 (06) : 545 - 552
[37] Virtual power plant and system integration of distributed energy resources
Pudjianto, D.
Ramsay, C.
Strbac, G.
IET RENEWABLE POWER GENERATION, 2007, 1 (01) : 10 - 16
[38] Microgrids, Virtual Power Plants and Our Distributed Energy Future
Asmus P.
Electricity Journal, 2010, 23 (10): : 72 - 82
[39] Distributed differentially private energy management of virtual power plants
Huang, Mingyu
Cui, Xueyuan
Wang, Yi
ELECTRIC POWER SYSTEMS RESEARCH, 2024, 234
[40] Optimal operation of virtual power plants with shared energy storage
Chen, Wenxule
Xiang, Yue
Liu, Junyong
IET SMART GRID, 2023, 6 (02) : 147 - 157

← 1 2 3 4 5 →