Steady State and Time Dependent Compressed Air Energy Storage Model Validated with Huntorf Operational Data and Investigation of Hydrogen Options for a Sustainable Energy Supply

Steady State and Time Dependent Compressed Air Energy Storage Model Validated with Huntorf Operational Data and Investigation of Hydrogen Options for a Sustainable Energy Supply
Title Steady State and Time Dependent Compressed Air Energy Storage Model Validated with Huntorf Operational Data and Investigation of Hydrogen Options for a Sustainable Energy Supply PDF eBook
Author Friederike Kaiser
Publisher Cuvillier Verlag
Pages 164
Release 2020-12-17
Genre Technology & Engineering
ISBN 3736963416

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Wind power and photovoltaic energy play a significant role in sustainable energy systems. However, these two renewable energy sources do not generate electrical energy on demand and are subject to natural fluctuations. Thus, the need for compensatory measures arises. Compressed air energy storage power plants (CAES) are a possible solution to providing negative and positive control energy in the electric grid. However, in contrast to other energy storage devices such as pumped hydro energy storage or batteries, the storage medium compressed air hardly contains any energy (or more precisely: enthalpy). Yet, compressed air storage allows the operation of highly efficient gas turbines, which are not only particularly fast available but also achieve better efficiency than combined cycle power plants used today, as illustrated by the example of the modern gas and steam power plant Irsching with ηtc = 60%from 2011 compared to the 20 years older McIntosh CAES with ηtc = 82.4 %. In this thesis, the calculation methods for the thermodynamics of the CAES process are presented and validated by measured data from the operations of the CAES power plant Huntorf. Both the steady state and the dynamic (time-dependent) analyses of the process take place. The characteristic value efficiency is discussed in detail, since numerous different interpretations for CAES exist in the literature. A new calculation method for the electric energy storage efficiency is presented, and a method for the calculation of an economically equivalent electricity storage efficiency is developed. Consideration is given to the transformation of the CAES process into a hydrogen-driven and, thus, greenhouse gas-free process. Finally, a model CAES system is tested in a 100 % renewable model environment. Consequently, it can be stated that in the steady-state thermodynamic calculation in particular, the consideration of realistic isentropic efficiencies of compressors and turbines is essential to correctly estimate the characteristic values of the process. Furthermore, a steadystate view should always be accompanied by dynamic considerations, since some process characteristics are always time-dependent. The simulation shows that by mapping transient operating conditions, the overall efficiency of the system must be corrected downwards. Nevertheless, in the model environment of a 100 % renewable energy system, it has been shown that a CAES is a useful addition that can provide long-term energy storage.

Proceedings of the International Renewable Energy Storage Conference (IRES 2022)

Proceedings of the International Renewable Energy Storage Conference (IRES 2022)
Title Proceedings of the International Renewable Energy Storage Conference (IRES 2022) PDF eBook
Author Peter Schossig
Publisher Springer Nature
Pages 585
Release 2023-05-25
Genre Technology & Engineering
ISBN 9464631562

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This is an open access book.Energy storage systems are the key to the successful energy transition to full renewable energy supply and are more relevant today than ever before. They address numerous challenges of the energy transition at once: stabilise the electricity grids, support the shutdown of power plants, make regionally generated electricity available locally and compensate for fluctuations in renewable energy generation. For more than 15 years now, EUROSOLAR has dedicated the annual International Conference on Renewable Energy Storage (IRES) to this important topic. The conference, which has been organised in partnership with Messe Düsseldorf since 2015, addressed the current state of research and the social, political and legal framework conditions of energy storage technologies from 20 to 22 September 2022, as part of its exhibitions on decarbonised industries.In up to three parallel series of lectures, experts from science, practice, politics and society focused on the current state of knowledge about energy storage.In recent years, more than 4000 visitors attended Energy Storage Europe, the predecessor of Messe Düsseldorf’s decarbXpo and IRES, each year. In plenary sessions, topic-specific lecture series and discussion rounds, around 150 lectures were presented including a large poster exhibition.We look forward to welcoming you to the 17th IRES in 2023.

Investigation of Energy Storage Options for Sustainable Energy Systems

Investigation of Energy Storage Options for Sustainable Energy Systems
Title Investigation of Energy Storage Options for Sustainable Energy Systems PDF eBook
Author Mehdi Hosseini
Publisher
Pages
Release 2013
Genre
ISBN

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Energy Storage Systems

Energy Storage Systems
Title Energy Storage Systems PDF eBook
Author United States. Department of Energy. Division of Energy Storage Systems
Publisher
Pages 60
Release 1979
Genre Energy storage
ISBN

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Design and Optimization of a Small Compressed Air Energy Storage System for Isolated Applications

Design and Optimization of a Small Compressed Air Energy Storage System for Isolated Applications
Title Design and Optimization of a Small Compressed Air Energy Storage System for Isolated Applications PDF eBook
Author Hanif SedighNejad
Publisher
Pages
Release 2022
Genre
ISBN

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In this study, a variety of practical and theoretical CAES systems are reviewed in order to show the current status of the available CAES systems. Then a small scale compressed air energy storage for small isolated wind based hybrid energy system is introduced and discussed. In order to develop a cost-effective renewable based hybrid energy system, this research investigates the optimization of each component of the system from the wind turbine to the load to deliver the required energy in the most efficient way. After finding the general control strategy for energy harvesting from the wind, the control strategy based on predictive initial working condition of the air vane motor is investigated through practical tests. A control path is developed using the implemented air motor steady state operation based on its manufacturer datasheet, and it is used to supply a fixed amount of power to the grid. A new criterion for evaluation of different energy storage system with identical power rating and storage capacity is proposed and examined during a case study and the performance of pumped hydro, battery and compressed air energy systems are compared based on the total shortage time and total fuel consumption of backup diesel generators. The Monte Carlo simulation was used in order to regenerate the wind speed data with 10 minute resolution to represent more accurate variable wind speed. The proposed Harvested Energy Index (HEI) showed the ability of energy storage systems with low efficiency in utilizing excess wind energy and reach their storage capacity. Based on the obtained results, a novel general control concept for such systems is proposed and its steady state simulation results are discussed.

Energy Storage Systems - Volume I

Energy Storage Systems - Volume I
Title Energy Storage Systems - Volume I PDF eBook
Author Yalsin Gogus
Publisher EOLSS Publications
Pages 396
Release 2009-09-30
Genre
ISBN 1848261624

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Energy Storage Systems theme is a component of Encyclopedia of Energy Sciences, Engineering and Technology Resources which is part of the global Encyclopedia of Life Support Systems (EOLSS), an integrated compendium of twenty one Encyclopedias. The Theme is organized into six different topics which represent the main scientific areas of the theme: The first topic, Rationale of Energy Storage and Supply/Demand Matching is devoted to the discussion of essential concepts and the most important aspects of the optimization, establishment and operation of energy storage systems based on six cases as examples. The succeeding four topics are Storage of Thermal Energy; Mechanical Energy Storage; Storage of Electrical Energy; Storage of Chemical Energy and Nuclear Materials. Each of these consists of a topic chapter emphasizing the general aspects and various subject articles explaining the back ground, theory and practice of a specific type of energy storage of that topic. The last topic is transport of energy with emphasis on hydrogen as future energy carrier. It contains detailed review of other modes of energy transport and discussion of environmental effects. Fundamentals and applications of characteristic methods are presented in these volumes. These two volumes are aimed at the following five major target audiences: University and College Students, Educators, Professional Practitioners, Research Personnel and Policy Analysts, Managers, and Decision Makers and NGOs.

Extensible Modeling of Compressed Air Energy Storage Systems

Extensible Modeling of Compressed Air Energy Storage Systems
Title Extensible Modeling of Compressed Air Energy Storage Systems PDF eBook
Author Siddharth Atul Kakodkar
Publisher
Pages 84
Release 2018
Genre Compressed air
ISBN

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There is a growing number of renewable energy sources that can supply power to the electrical grid. These renewable sources of energy are intermittent in nature and therefore the transition from using fossil fuels to green renewables requires the use of energy storage technologies to maintain and regulate a reliable supply of electricity. Energy storage technologies play a key role in allowing energy providers to provide a steady supply of electricity by balancing the fluctuations caused by sources of renewable energy. Compressed Air Energy Storage (CAES) is a promising utility scale energy storage technology that is suitable for long-duration energy storage and can be used to integrate renewable energy (such as Wind energy) to the electrical grid. CAES technologies can be broadly classified into 3 types: Diabatic-CAES (D-CAES), Adiabatic-CAES (A-CAES) and Isothermal-CAES (I-CAES). The author first performs a review on the different types of energy storage available today and a literature review on of CAES system level models, Turbomachinery models, and cavern models. After the gaps in literature are identified, the author then develops a flexible and extensible model of an A-CAES system, which can be used a CAES plant designer to obtain a first order thermodynamic evaluation of a particular plant configuration. The developed model is scalable, modular and can be connected to a control strategy. The model is able to capture time dependent losses and part load behavior of turbomachinery. The modeling methodology is focused around keeping the model extensible, i.e. components and their fidelity can be easily altered for the model's future growth. The components modeled are the compressor, the turbine, the induction motor, the generator, and a thermal energy storage device to the make the CAES plant adiabatic. The model is created using the Matlab/Simulinkʼ software, which is commonly used tool for modeling. The A-CAES plant model was simulated for 23.3 hours comprising of 12.47 hours of charging using a mass flow rate of 107.5 kg/s, 8 hours of storage and 2.83 hours of discharge using a mass flow rate of 400 kg/s. The maximum and minimum cavern pressures were 72 bar and 42 bar respectively. The obtained round trip efficiency is 76.24%. Additionally, the turbine start-up time was found to be 760 seconds. The compressor train average efficiency was calculated as 70%, the expansion train average efficiency was calculated as 81% and the TES efficiency was calculated as 91%. The models simulated the behavior of an A-CAES plant accurately with the compressor and turbine showing a close resemblance to their performance maps. The results indicate that Adiabatic-CAES is a promising and emerging technology. However, further research and development is required beyond this thesis; specifically, in the area of thermal energy storage and management. Finally, the author makes recommendations on how to further improve upon the achieved objectives in this work.