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Journal articles on the topic 'Industrial storage systems'

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Published: 10 March 2023

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1

Ishizu, Seiichi, Eiichi Uchida, Kenichiro Omori, Ryuichi Shimada, Isao Takahashi, Kazuhiko Tanaka, Mitsuo Tanimoto, Yorito Jifuku, and Humiaki Yatsuboshi. "Energy storage systems for industrial applications." IEEJ Transactions on Industry Applications 109, no. 10 (1989): 705–16. http://dx.doi.org/10.1541/ieejias.109.705.

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2

Zákányi, Balázs, Gábor Nyiri, and Péter Szűcs. "Investigation of industrial waste heat storage in shallow porous systems." Multidiszciplináris tudományok 12, no. 4 (2022): 110–18. http://dx.doi.org/10.35925/j.multi.2022.4.11.

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In our research we investigated the potential of heat storage under shallow porous conditions. In this case, the thermal energy storage is performed by an aquifer thermal energy storage (ATES), which is a subsurface saturated natural rock layer. This type of thermal storage can have different effects on both groundwater and deep aquifers, and therefore we need to know the behaviour of ATES systems. The modelling was carried out using a module of the Groundwater Modelling System (GMS). The main objective of our waste heat storage simulation studies was to develop an alternative to this type of thermal storage for industrial facilities with large amounts of waste heat.
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3

Neumann, Camilla, Johanna Pucker-Singer, Andreas Türk, Jernej Zupančič, and Andrej Gubina. "The Role of Storage Systems in Industrial and Residential Environments." Proceedings 65, no. 1 (January 8, 2021): 25. http://dx.doi.org/10.3390/proceedings2020065025.

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This paper assesses storage applications from an environmental, economic and technical dimension. Three different demonstration set-ups are considered, as well as one large-scale simulation. The results emphasize that storage needs to be tailored to a specific purpose and tradeoffs between the three perspectives have to be considered to benefit the entire energy system. Currently, system integration and the possibility to use the grid as storage are hampering the potential of storage. It is however shown that storage can provide valuable technical and environmental benefits to the grid and possibly defer grid investment.
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4

Neumann, Camilla, Johanna Pucker-Singer, Andreas Türk, Jernej Zupančič, and Andrej Gubina. "The Role of Storage Systems in Industrial and Residential Environments." Proceedings 65, no. 1 (January 8, 2021): 25. http://dx.doi.org/10.3390/proceedings2020065025.

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This paper assesses storage applications from an environmental, economic and technical dimension. Three different demonstration set-ups are considered, as well as one large-scale simulation. The results emphasize that storage needs to be tailored to a specific purpose and tradeoffs between the three perspectives have to be considered to benefit the entire energy system. Currently, system integration and the possibility to use the grid as storage are hampering the potential of storage. It is however shown that storage can provide valuable technical and environmental benefits to the grid and possibly defer grid investment.
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5

Gue, Kevin R. "Very high density storage systems." IIE Transactions 38, no. 1 (January 2006): 79–90. http://dx.doi.org/10.1080/07408170500247352.

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6

Sharafizad, Hamed. "Application of battery energy storage systems in industrial facilities." APPEA Journal 61, no. 2 (2021): 563. http://dx.doi.org/10.1071/aj20071.

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For any facility, reliability and availability of power are key. Traditional gas- or diesel-driven power generation designs for facilities rely on generated spinning reserve to achieve power system stability and availability for defined operational scenarios and expected transients. Spinning reserve is extra generating capacity that is usually introduced by running additional power generator(s). Battery energy storage systems (BESSs) as energy storage units provide for a virtual spinning reserve in a hot standby arrangement to achieve the same effect for a set period during operating scenarios and transient events. Use of BESS technology is becoming more frequent within electrical network systems, remote sites and industrial facilities on the back of improved battery technology. This lends itself to better BESS reliability, effectiveness and lower associated cost to procure and install. Many of Clough’s projects are remote and islanded where they need to be self-sufficient, generating and distributing their own power needs. BESS units are scalable energy storage systems that can be used as a part of power generation solutions for facilities installed onshore or offshore. In addition to supplementing the primary generation on a facility as static storage units, BESS units offer benefits such as reduced emissions on facilities by not burning fossil fuels to achieve spinning reserve; they also allow for power management of generation systems, store any excess power from primary generators, allow for integration of renewables, offer constructability benefits and reduced operational/maintenance costs. The commercial and environmental benefits of BESS units are key drivers in Clough’s decision to embrace their use on future projects.
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7

Steinbuch, Maarten, and Meindert L. Norg. "Industrial perspective on robust control: Application to storage systems." Annual Reviews in Control 22 (January 1998): 47–58. http://dx.doi.org/10.1016/s1367-5788(98)00004-2.

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8

Steinbuch, Maarten, and L. Meindert Norg. "Industrial Perspective on Robust Control: Application to Storage Systems." IFAC Proceedings Volumes 30, no. 16 (June 1997): 9–20. http://dx.doi.org/10.1016/s1474-6670(17)42575-4.

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9

Zimmermann, Fabian, and Alexander Sauer. "Sizing electric storage systems for industrial peak shaving applications." Procedia CIRP 90 (2020): 666–71. http://dx.doi.org/10.1016/j.procir.2020.01.073.

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10

Mishchuk, Yevhen, and Dmytro Mishchuk. "IoT-based industrial automation systems." Gіrnichі, budіvelnі, dorozhnі ta melіorativnі mashini, no. 96 (December 31, 2020): 42–50. http://dx.doi.org/10.32347/gbdmm2020.96.0501.

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"Internet of Things" approaches in comparison with classical industrial automation allow to create system architectures which appear more economical, flexible, productive and effective that is reached at the expense of communication and interaction with industrial devices of automation (industrial controllers), sensors. , actuators, drives, machine vision systems, video, robotic systems. The basis of the "Internet of Things" (IoT) is the technology of interaction of machines (M2M), when machines use mobile networks to exchange information with each other or transmit it to data processing and storage systems. M2M technology is effectively used in health and safety systems, in manufacturing, housing and communal services, energy, and the banking sector. The active development of IoT technology requires research and analysis of the mechanisms of their effective implementation in industry, in particular, construction, and the development of concepts of industrial automation and management, which will contain a set of rules defining appropriate control actions for each important set of events. real-time data reported by IoT devices.
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11

MELLER, RUSSELL D., and ANAN MUNGWATTANA. "Multi-shuttle automated storage/retrieval systems." IIE Transactions 29, no. 10 (October 1997): 925–38. http://dx.doi.org/10.1080/07408179708966412.

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12

Guardamagna, Cristina, Andrea Cavallari, Veronica Malvaldi, Silvia Soricetti, Alberto Pontarollo, Bernardo Molinas, Diego Andreasi, et al. "Innovative Systems for Hydrogen Storage." Advances in Science and Technology 72 (October 2010): 176–81. http://dx.doi.org/10.4028/www.scientific.net/ast.72.176.

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One of the main challenges in the perspective of a hydrogen economy is the development of a storage system both safe and with high weight capacity. Among the most promising systems are the storage in metals and chemical hydrides and the high pressure storage in tanks made of composite materials. Both these technologies allow volumetric densities equal or higher than that of liquid hydrogen. The present work deals with the results obtained in a Italian national project, whose objectives have been the development of innovative technologies in specific applications: large scale energy storage, stationary applications in distributed generation, and automotive (with a particular attention to the fluvial and the sea transportation in protected areas). The theoretical, modellistic and experimental activities have been oriented to the development of innovative high capacity metal hydrides, the study of a regeneration method for chemical hydrides, the integration of intermediate pressure electrolyzers with advanced compressors and, finally, the development of thermomechanical models for executive design of storage systems. A number of prototypes has been realised and installed in a test facility in the Fusina (Venezia) power plant. The activity has been completed with an executive feasibility evaluation, in the perspective of industrial applications.
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13

Kountz, John. "Industrial Storage Technology Applied to Library Requirements." Library Hi Tech 5, no. 4 (April 1987): 13–22. http://dx.doi.org/10.1108/eb047703.

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14

Zimmermann, F., D. Wang, and A. Sauer. "Energiespeicher für industrielle Einsatzoptionen/Industrial applications for energy storages systems – Challenges and opportunities." wt Werkstattstechnik online 109, no. 11-12 (2019): 878–82. http://dx.doi.org/10.37544/1436-4980-2019-11-12-80.

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In produzierenden Unternehmen existiert eine Vielzahl von Einsatzoptionen für Energiespeicher. Jedoch scheitert eine Energiespeicherintegration oftmals an deren Wirtschaftlichkeit. Durch eine Umfrage zum Thema Energiespeicherintegration in produzierenden Unternehmen im Rahmen einer Studie konnten die Herausforderungen und Chancen einer Energiespeicherintegration identifiziert werden. Dieser Beitrag stellt die Ergebnisse vor.   Manufacturing companies have a large number of applications for energy storage systems. However, energy storage integration often fails due to its economic efficiency. A survey on the topic of energy storage integration in manufacturing companies as part of a study identified the challenges and opportunities of energy storage integration. This article presents the results.
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15

Schmitt, Rainer, Oswin Öttinger, Wolf Dieter Steinmann, and Maike Johnson. "PCM-Graphite Latent Heat Storage Systems for Industrial Process Heat Recovery." Advances in Science and Technology 74 (October 2010): 259–65. http://dx.doi.org/10.4028/www.scientific.net/ast.74.259.

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Increasing energy prices and shortage of fossil fuels lead to a growing interest in alternative energy sources. In combination with energy storage systems the generation of solar process heat can be provided independent from the weather leading for example to a cost efficient stabilization of power output. For this application latent heat storage units with phase change materials (PCMs) can be designed to store solar process heat within a narrow temperature interval utilizing the high storage density of the different PCMs. This is achieved using the latent heat of melting in the melting / solidification process, or the latent heat of re-crystallization in a solid / solid phase transition. However, this advantage can only be used in technical applications if the heat transfer in the PCM is sufficiently high. As most pure PCMs exhibit a low thermal conductivity (about 1 W/(m•K) or less), methods to improve heat transfer in PCMs have been under investigation for decades. The heat transfer in a PCM can be increased by addition of highly thermal conductive materials. Due to its superior properties - high thermal conductivity, good processability, and chemical inertness - graphite has distinct advantages for this purpose. Depending on the requirements of the respective application, various routes to combine PCM and graphite are used. For example, besides the fabrication of PCM/graphite composite materials, the increase of heat exchanger surface by highly thermal conductive graphite plates is a favorable method for large scale applications, in particular. Effective thermal conductivities up to 30 W/(m•K) have been realized. This paper gives an overview of actual and potential applications of PCM/graphite heat storage systems focusing on storage of solar heat for high temperature applications such as process heat generation and solar thermal power plants.
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16

PARK, BYUNG CHUN. "Optimal dwell point policies for automated storage/retrieval systems with dedicated storage." IIE Transactions 31, no. 10 (October 1999): 1011–113. http://dx.doi.org/10.1080/07408179908969901.

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17

Irmiya, Inniyaka, Ibrahim Ibrahim, and Ibrahim Hussain. "BATTERY TECHNOLOGY: THE FUTURE FOR SUSTAINABLE INDUSTRIAL AND ECONOMIC GROWTH." FUDMA JOURNAL OF SCIENCES 4, no. 3 (September 24, 2020): 366–69. http://dx.doi.org/10.33003/fjs-2020-0403-373.

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Depleting oil reserves and environmental concerns on emission have heightened the search for alternative energy sources and efficient electrochemical energy systems through renewable energy sources. Technological advancements in the field of automation, robotics, communication, nanotechnology, electrification and hybridization of vehicles as well as the push for renewable energy sources have broadened the scope of opportunities for Electrochemical Energy Storage Systems (ESS). These new technologies place a growing demand on compact, safe and higher capacity batteries to enable functionality. Battery technology for different needs and application have become an indispensable aspect of sustainable development in the quest for renewable energy and global sustainable carbon emission reduction. This paper briefly looks at the integrated nature of batteries to human day to day activities, the current state and impact of battery technology, future of energy storage systems and an analysis of battery storage systems for sustainable industrialization.
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18

Nirmal, Swati, and Tanu Rizvi. "A Review of Renewable Energy Systems for Industrial Applications." International Journal for Research in Applied Science and Engineering Technology 10, no. 9 (September 30, 2022): 1740–45. http://dx.doi.org/10.22214/ijraset.2022.46903.

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Abstract: Integrated renewable energy systems have numerous advantages and benefits compared to conventional energy systems, such as decentralized energy production, environmental impact reduction, and better energy security. Renewable energy systems can be classified under various categories: solar, wind, hydroelectric, biomass, geothermal, and ocean. The integration of these renewable energy resources can bring sustainable solutions and multiple products. The case studies signify the potential integration options of renewable energy systems including energy storage. Non-conventional renewable energy sources and systems (RESS) including but not limited to biomass, biogas, geothermal etc are increasingly playing an important role for electric power distribution and storage. The idea is to develop a resilient energy infrastructure minimizing the cost of remote power and support green and sustainable development efforts. Smart Grids use digital technologies and IOT solutions to intelligently react and adapt to changes in the Grid. Siemens Accelerator for Grids portfolio is the key to exploit the data in the grid. This allows operators to make grid operation more flexible, cost-efficient, more reliable, maintainable, safer and therefore, feasible.
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19

Gabbar, Hossam A., Ahmed M. Othman, and Muhammad R. Abdussami. "Review of Battery Management Systems (BMS) Development and Industrial Standards." Technologies 9, no. 2 (April 11, 2021): 28. http://dx.doi.org/10.3390/technologies9020028.

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The evolving global landscape for electrical distribution and use created a need area for energy storage systems (ESS), making them among the fastest growing electrical power system products. A key element in any energy storage system is the capability to monitor, control, and optimize performance of an individual or multiple battery modules in an energy storage system and the ability to control the disconnection of the module(s) from the system in the event of abnormal conditions. This management scheme is known as “battery management system (BMS)”, which is one of the essential units in electrical equipment. BMS reacts with external events, as well with as an internal event. It is used to improve the battery performance with proper safety measures within a system. Therefore, a safe BMS is the prerequisite for operating an electrical system. This report analyzes the details of BMS for electric transportation and large-scale (stationary) energy storage. The analysis includes different aspects of BMS covering testing, component, functionalities, topology, operation, architecture, and BMS safety aspects. Additionally, current related standards and codes related to BMS are also reviewed. The report investigates BMS safety aspects, battery technology, regulation needs, and offer recommendations. It further studies current gaps in respect to the safety requirements and performance requirements of BMS by focusing mainly on the electric transportation and stationary application. The report further provides a framework for developing a new standard on BMS, especially on BMS safety and operational risk. In conclusion, four main areas of (1) BMS construction, (2) Operation Parameters, (3) BMS Integration, and (4) Installation for improvement of BMS safety and performance are identified, and detailed recommendations were provided for each area. It is recommended that a technical review of the BMS be performed for transportation electrification and large-scale (stationary) applications. A comprehensive evaluation of the components, architectures, and safety risks applicable to BMS operation is also presented.
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20

Todorović, Ivan, Ivana Isakov, Goran Dobrić, and Mileta Žarković. "Electric energy utilization in modern industrial environments." Open Research Europe 3 (January 6, 2023): 4. http://dx.doi.org/10.12688/openreseurope.15286.1.

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Industrial facilities represent a specific environment for the deployment and coordination of electric energy sources and storage systems. Large areas (roofs, parking lots, etc.) and land and terrain specificities enable various systems with high installed power to be utilized, hence diversifying energy production and providing a flexible and reliable energy supply. Moreover, diversification of energy sources ushers the usage of advanced energy management schemes that secure efficient electric energy resource utilization. Also, various storage systems can be installed and energy usage can be optimized further. Still, the paradigmatic change in how energy is used, from a single source, single aggregated load to the large and sophisticated prosumer concept, brings many technical and technological hurdles. This paper provides an outlook on some of the new developments regarding how electric energy is produced, stored, and managed in modern industrial environments. Also, how impediments, hindering mentioned developments, can be mitigated is discussed.
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Xu, Guodong, Ce Shang, Songli Fan, Xiaohu Zhang, and Haozhong Cheng. "Sizing battery energy storage systems for industrial customers with photovoltaic power." Energy Procedia 158 (February 2019): 4953–58. http://dx.doi.org/10.1016/j.egypro.2019.01.693.

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22

López-Sabirón, Ana M., Alfonso Aranda-Usón, M. D. Mainar-Toledo, Victor J. Ferreira, and Germán Ferreira. "Environmental profile of latent energy storage materials applied to industrial systems." Science of The Total Environment 473-474 (March 2014): 565–75. http://dx.doi.org/10.1016/j.scitotenv.2013.12.013.

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23

Hobisch, Mathias Andreas, Josphat Phiri, Jinze Dou, Patrick Gane, Tapani Vuorinen, Wolfgang Bauer, Christian Prehal, Thaddeus Maloney, and Stefan Spirk. "Willow Bark for Sustainable Energy Storage Systems." Materials 13, no. 4 (February 24, 2020): 1016. http://dx.doi.org/10.3390/ma13041016.

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Willow bark is a byproduct from forestry and is obtained at an industrial scale. We upcycled this byproduct in a two-step procedure into sustainable electrode materials for symmetrical supercapacitors using organic electrolytes. The procedure employed precarbonization followed by carbonization using different types of KOH activation protocols. The obtained electrode materials had a hierarchically organized pore structure and featured a high specific surface area (>2500 m2 g−1) and pore volume (up to 1.48 cm3 g−1). The assembled supercapacitors exhibited capacitances up to 147 F g−1 in organic electrolytes concomitant with excellent cycling performance over 10,000 cycles at 0.6 A g−1 using coin cells. The best materials exhibited a capacity retention of 75% when changing scan rates from 2 to 100 mV s−1.
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24

Ali, Irfan, Zulqarnain Haider, and Syed Rizwan. "Enhanced pseudocapacitive energy storage and thermal stability of Sn2+ ion-intercalated molybdenum titanium carbide (Mo2TiC2) MXene." RSC Advances 12, no. 49 (2022): 31923–34. http://dx.doi.org/10.1039/d2ra05552j.

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25

Ruoso, Ana Cristina, Nattan Roberto Caetano, and Luiz Alberto Oliveira Rocha. "Storage Gravitational Energy for Small Scale Industrial and Residential Applications." Inventions 4, no. 4 (October 31, 2019): 64. http://dx.doi.org/10.3390/inventions4040064.

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Photovoltaic cells produce electric energy in a short interval during a period of low demand and show high levels of intermittency. One of the well-known solutions is to store the energy and convert it into a more stable form, to transform again into electricity during periods of high demand, in which the energy has a higher value. This process provides economic viability for most energy-storage projects, even for the least efficient and most common, such as batteries. Therefore, this paper aims to propose a storage system that operates with gravitational potential energy, considering a small-scale use. The development of this methodology presents the mathematical modeling of the system and compares the main characteristics with other systems. The dimensions of the considered system are 12-m shaft, 5-m piston height, and 4 m of diameter; it presented an energy storage of 11 kWh. Also, it has an efficiency of about 90%, a lifetime of 50 years, and higher storage densities compared to other systems.
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26

Fawzy, Samer, Ahmed I. Osman, Haiping Yang, John Doran, and David W. Rooney. "Industrial biochar systems for atmospheric carbon removal: a review." Environmental Chemistry Letters 19, no. 4 (March 11, 2021): 3023–55. http://dx.doi.org/10.1007/s10311-021-01210-1.

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AbstractIn the context of climate change, there is an urgent need for rapid and efficient methods to capture and sequester carbon from the atmosphere. For instance, production, use and storage of biochar are highly carbon negative, resulting in an estimated sequestration of 0.3–2 Gt CO2 year−1 by 2050. Yet, biochar production requires more knowledge on feedstocks, thermochemical conversion and end applications. Herein, we review the design and development of biochar systems, and we investigate the carbon removal industry. Carbon removal efforts are currently promoted via the voluntary market. The major commercialized technologies for offering atmospheric carbon removal are forestation, direct air carbon capture utilization and storage, soil carbon sequestration, wooden building elements and biochar, with corresponding fees ranging from 10 to 895 GBP (British pounds) per ton CO2. Biochar fees range from 52 to 131 GBP per ton CO2, which indicates that biochar production is a realistic strategy that can be deployed at large scale. Carbon removal services via biochar are currently offered through robust marketplaces that require extensive certification, verification and monitoring, which adds an element of credibility and authenticity. Biochar eligibility is highly dependent on the type of feedstock utilized and processing conditions employed. Process optimization is imperative to produce an end product that meets application-specific requirements, environmental regulations and achieve ultimate stability for carbon sequestration purposes.
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27

Uma, S. R., and Graeme Beattie. "Observed performance of industrial pallet rack storage systems in the Canterbury earthquakes." Bulletin of the New Zealand Society for Earthquake Engineering 44, no. 4 (December 31, 2011): 388–93. http://dx.doi.org/10.5459/bnzsee.44.4.388-393.

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In Christchurch, the industrial sectors with storage facilities incurred heavy economic loss due to the collapse of pallet rack systems and loss of contents during the recent the Darfield (2010) and Lyttleton (2011) earthquakes. The failure of such systems could be attributed to various reasons including inadequate design, inappropriate operational conditions, improper installation and lack of maintenance. This paper describes possible sources of damage in pallet racks due to earthquake action, which eventually could trigger the collapse failure mode of the storage system during a severe aftershock. Various racking manufacturers and retail owners were consulted to establish the pre-event condition and loading of the systems and the response of the systems in both ‘publicly accessible’ and ‘industrial’ situations. Investigations by the authors highlighted an apparent lack of consistent national control over the design and construction of racking systems. Progress towards the publication of a revised and extended Design Guide is also described.
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28

FOLEY, ROBERT D., EDWARD H. FRAZELLE, and BYUNG CHUN PARK. "Throughput bounds for miniload automated storage/retrieval systems." IIE Transactions 34, no. 10 (October 2002): 915–20. http://dx.doi.org/10.1080/07408170208928922.

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29

LEE, HEUNGSOON FELIX. "Performance analysis for automated storage and retrieval systems." IIE Transactions 29, no. 1 (January 1997): 15–28. http://dx.doi.org/10.1080/07408179708966308.

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30

Sorokin, A. E. "Heat Storage for Spacecraft Thermal Management Systems." Russian Engineering Research 42, no. 9 (September 2022): 945–47. http://dx.doi.org/10.3103/s1068798x22090222.

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31

Varivoda, Albina Alekseevna, Elena Valentinovna Svetlakova, Irina Vladimirovna Ziruk, Inna Sergeevna Kirichenko, Olga Yurievna Kolosova, Sergey Nikolaevich Povetkin, and Bogdan Olegovich Ivakhnenko. "Development of a scientific concept of industrial storage systems for environmentally safe apples." Potravinarstvo Slovak Journal of Food Sciences 16 (September 14, 2022): 622–35. http://dx.doi.org/10.5219/1785.

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The research project has developed and justified the storage modes of apples in a modified gas environment by creating an isolated "closed loop" of high-pressure polyethylene; the expediency of creating highly efficient technologies for storing fresh fruits in a controlled atmosphere, in bioactive bactericidal packages and by creating microfilm on the surface of fruits has been confirmed. The prospects of using a progressive method of storing fruits in a modified gas atmosphere by creating an isolated "closed circuit" in a separate refrigerating chamber without using expensive equipment (in normal and subnormal gas environments) are proved. New technologies have been developed for storing apple fruits susceptible to infectious and physiological diseases based on improved storage methods with minimal losses. The consumption rates of Phytosporin-M for the surface treatment of fruits were determined and optimized to control the intensity of biochemical and microbiological processes during storage. The modes and technologies of post-harvest fruit processing with the Phytosporin-M biopreparation have been substantiated.
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32

Carpinelli, Guido, Anna di Fazio, Shahab Khormali, and Fabio Mottola. "Optimal Sizing of Battery Storage Systems for Industrial Applications when Uncertainties Exist." Energies 7, no. 1 (January 3, 2014): 130–49. http://dx.doi.org/10.3390/en7010130.

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33

Therond, P. G., I. Joly, and M. Volker. "Superconducting magnetic energy storage (SMES) for industrial applications-comparison with battery systems." IEEE Transactions on Applied Superconductivity 3, no. 1 (March 1993): 250–53. http://dx.doi.org/10.1109/77.233718.

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34

Nahor, H. B., N. Scheerlinck, P. Verboven, J. Van Impe, and B. M. Nicolaï. "A continuous/discrete simulation of controlled atmosphere (CA) cool storage systems: validation using industrial CA cool storage." International Journal of Refrigeration 28, no. 4 (June 2005): 461–70. http://dx.doi.org/10.1016/j.ijrefrig.2004.11.009.

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35

Mukhametova, L. R., I. G. Akhmetova, and W. Strielkowski. "Innovations in energy storage." Power engineering: research, equipment, technology 21, no. 4 (December 9, 2019): 33–40. http://dx.doi.org/10.30724/1998-9903-2019-21-4-33-40.

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The development of energy storage and storage systems is becoming a potential method for solving the problems of the global energy system. However, there are technical and non-technical barriers to the widespread distribution of energy storage devices. In this regard, it is necessary to identify innovative processes, mechanisms and systems that allow developments in the field of energy storage to contribute to solving the problems of the energy system, as well as to ensure industrial growth at the expense of companies engaged in the development of technologies. This article discusses current advances and trends in energy storage innovation. The scientific novelty of the article consists in a comprehensive review of the current state of affairs in this area and the determination of the main directions of development.
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Malohulko, Yuliya, Katerina Povstianko, and Maksim Zatkhei. "RESEARCH OF THE WIND POWER PLANTS GENERATION WITH ENERGY STORAGE SYSTEMS." Herald of Khmelnytskyi National University. Technical sciences 311, no. 4 (August 2022): 9–13. http://dx.doi.org/10.31891/2307-5732-2022-311-4-9-13.

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In this work, the problem of integration of such elements of the electric power network as: industrial energy storage and directly wind generators is investigated. The sharp increase in the share of this type of electricity creates a number of issues that need to be resolved, first of all, the stochastic nature of the work. Solving this problem is relevant not only from the point of view of eliminating the phenomenon of uneven energy generation using a wind turbine, since wind is a variable source of energy, but also increasing the indicators of the interaction of the wind flow with the generator blades, i.e. increasing the permeability of the wind. This problem was noticed during the study of the operation of modern wind systems, especially the period of operation during direct start-up and in the presence of low wind speed, and therefore the efficiency is minimal. In this case, the use of energy storage systems is the best option for integration, as it allows not only to store energy, but also to increase the level of reliability of electricity supply. The work includes an overview of several variations of the location of wind power plants and energy storage systems: local, distributed, centralized. The use of one or another option depends on the size and load of the direct network. In addition, two models of energy storage were investigated in the work: storage in the rear part of the installation and storage in the front part of the installation. The study showed that using the option when the storage systems are located in the front part of the installation increases the weight of the nacelle, which is a negative factor, but installing it in the rear part or next to it increases the level of losses, which is an equally significant factor. In general, the installation of storage systems will complicate the immediate work, and also increase the cost, but in view of the future perspective, the solution to these issues is fully justified. Having solved the technological questions that gradually arise, the process of generating energy based on wind turbines and its synchronized storage will satisfy other important questions.
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Kucevic, Daniel, Leo Semmelmann, Nils Collath, Andreas Jossen, and Holger Hesse. "Peak Shaving with Battery Energy Storage Systems in Distribution Grids: A Novel Approach to Reduce Local and Global Peak Loads." Electricity 2, no. 4 (November 15, 2021): 573–89. http://dx.doi.org/10.3390/electricity2040033.

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The growing global electricity demand and the upcoming integration of charging options for electric vehicles is creating challenges for power grids, such as line over loading. With continuously falling costs for lithium-ion batteries, storage systems represent an alternative to conventional grid reinforcement. This paper proposes an operation strategy for battery energy storage systems, targeted at industrial consumers to achieve both an improvement in the distribution grid and electricity bill savings for the industrial consumer. The objective is to reduce the peak power at the point of common coupling in existing distribution grids by adapting the control of the battery energy storage system at individual industrial consumer sites. An open-source simulation tool, which enables a realistic simulation of the effects of storage systems in different operating modes on the distribution grid, has been adapted as part of this work. Further information on the additional stress on the storage system is derived from a detailed analysis based on six key characteristics. The results show that, with the combined approach, both the local peak load and the global peak load can be reduced, while the stress on the energy storage is not significantly increased. The peak load at the point of common coupling is reduced by 5.6 kVA to 56.7 kVA and the additional stress for the storage system is, on average, for a six month simulation, period only 1.2 full equivalent cycles higher.
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Liu, Jing, Changbo Yuan, Yingxu Lai, and Hua Qin. "Protection of Sensitive Data in Industrial Internet Based on Three-Layer Local/Fog/Cloud Storage." Security and Communication Networks 2020 (April 2, 2020): 1–16. http://dx.doi.org/10.1155/2020/2017930.

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Industrial Internet technology has developed rapidly, and the security of industrial data has received much attention. At present, industrial enterprises lack a safe and professional data security system. Thus, industries urgently need a complete and effective data protection scheme. This study develops a three-layer framework with local/fog/cloud storage for protecting sensitive industrial data and defines a threat model. For real-time sensitive industrial data, we use the improved local differential privacy algorithm M-RAPPOR to perturb sensitive information. We encode the desensitized data using Reed–Solomon (RS) encoding and then store them in local equipment to realize low cost, high efficiency, and intelligent data protection. For non-real-time sensitive industrial data, we adopt a cloud-fog collaborative storage scheme based on AES-RS encoding to invisibly provide multilayer protection. We adopt the optimal solution of distributed storage in local equipment and the cloud-fog collaborative storage scheme in fog nodes and cloud nodes to alleviate the storage pressure on local equipment and to improve security and recoverability. According to the defined threat model, we conduct a security analysis and prove that the proposed scheme can provide stronger data protection for sensitive data. Compared with traditional methods, this approach strengthens the protection of sensitive information and ensures real-time continuity of open data sharing. Finally, the feasibility of our scheme is validated through experimental evaluation.
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Zhang, Qi, Wenhui Pei, and Xudong Liu. "Advances in Electrochemical Energy Storage Systems." Electrochem 3, no. 2 (April 21, 2022): 225–28. http://dx.doi.org/10.3390/electrochem3020014.

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The large-scale development of new energy and energy storage systems is a key way to ensure energy security and solve the environmental crisis, as well as a key way to achieve the goal of “carbon peaking and carbon neutrality” [...]
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Steindl, Gernot, Martin Stagl, Lukas Kasper, Wolfgang Kastner, and Rene Hofmann. "Generic Digital Twin Architecture for Industrial Energy Systems." Applied Sciences 10, no. 24 (December 13, 2020): 8903. http://dx.doi.org/10.3390/app10248903.

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Digital Twins have been in the focus of research in recent years, trying to achieve the vision of Industry 4.0. In the domain of industrial energy systems, they are applied to facilitate a flexible and optimized operation. With the help of Digital Twins, the industry can participate even stronger in the ongoing renewable energy transition. Current Digital Twin implementations are often application-specific solutions without general architectural concepts and their structures and namings differ, although the basic concepts are quite similar. For this reason, we analyzed concepts, architectures, and frameworks for Digital Twins in the literature to develop a technology-independent Generic Digital Twin Architecture (GDTA), which is aligned with the information technology layers of the Reference Architecture Model Industry 4.0 (RAMI4.0). This alignment facilitates a common naming and understanding of the proposed architectural structure. A proof-of-concept shows the application of Semantic Web technologies for instantiating the proposed GDTA for a use case of a Packed-Bed Thermal Energy Storage (PBTES).
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Nisar, Shahim. "Analysis of Thermal Energy Storage to a Combined Heat and Power Plant." International Journal for Research in Applied Science and Engineering Technology 9, no. 9 (September 30, 2021): 1313–20. http://dx.doi.org/10.22214/ijraset.2021.38182.

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Abstract: Thermal energy storage (TES) is a technology that stocks thermal energy by heating or cooling a storage medium so that the stored energy can be used at a later time for heating and cooling applications and power generation. TES systems are used particularly in buildings and in industrial processes. This paper is focused on TES technologies that provide a way of valorizing solar heat and reducing the energy demand of buildings. The principles of several energy storage methods and calculation of storage capacities are described. Sensible heat storage technologies, including water tank, underground and packed-bed storage methods, are briefly reviewed. Additionally, latent-heat storage systems associated with phase-change materials for use in solar heating/cooling of buildings, solar water heating, heat-pump systems, and concentrating solar power plants as well as thermo-chemical storage are discussed. Finally, cool thermal energy storage is also briefly reviewed and outstanding information on the performance and costs of TES systems are included.
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42

Nazar, Linda. "(Invited) Nanotechnology for Industrial Electrochemical Energy Storage." ECS Meeting Abstracts MA2022-01, no. 7 (July 7, 2022): 623. http://dx.doi.org/10.1149/ma2022-017623mtgabs.

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Nanomaterials are expected to play important roles in the realization of our future society, expected to contribute to the realization of a sustainable society through ensuring smart materials to enable sustainability of water, air, and materials; and energy materials and devices to enable renewable energy production and energy saving. These have enormous industrial/commercial ramifications. Our society needs to mitigate or ideally reverse global climate change caused by anthropogenetic CO2 emissions resulting from our fossil-fuel-fed society. Electrification, which encourages and enables a circular society is an important part of the solution. It leads to urgent needs for new nanotechnologies and nanomaterials for improved solar cells, batteries, electrolyzers, and the fuel cell components that are needed to support a hydrogen economy. As a prime example, Li-ion batteries, for which the Nobel Prize was awarded in 2019, are the most popular rechargeable batteries today and have become the main power source not only for everyday needs such as portable electronic devices but also for larger-scale applications that will become indispensable society in the very near future. Although enormous effort has been devoted to improving the electrochemical performance of a large number of Li-based materials, today’s rechargeable batteries have energy densities that remain below theoretical values, and still have far-from-optimal longevity and safety. None of the current rechargeable batteries can meet all the challenging requirements for our energy-storage needs, so the race is on to develop next-generation Li-based systems that encapsulate the desired characteristics of high energy density, low cost, and improved safety. Success in this arena would have tremendous impact on a wide range of technologies ranging from EVs (land and marine), to drones, airplanes, robots, and grid-scale energy storage. The use of nanotechnology─which has progressed tremendously and continues to establish new ground─is vital to address the significant challenges that next-generation batteries present. These materials challenges remain whether the batteries operate on the basis of typical intercalation chemistry or conversion chemistry. Some of these challenges -as will be covered in this presentation - lie in the development of (a) nanomaterials that can withstand significant volume changes and bond rearrangements during conversion redox reactions, (b) nanocoatings that form protective layers on either the positive or negative electrode to stabilize the electrode–electrolyte interface at either high or low voltage, and (c) nanotechnologies to engineer solid–solid interfaces in all-solid-state batteries. Nanotechnology enables materials scientists to bring novel functions to all battery components that cannot be achieved by conventional approaches. This topic will be the central focus of this presentation.
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Mitrovic, Dejan, Jelena Janevski, and Mirjana Lakovic. "Primary energy savings using heat storage for biomass heating systems." Thermal Science 16, suppl. 2 (2012): 423–31. http://dx.doi.org/10.2298/tsci120503180m.

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District heating is an efficient way to provide heat to residential, tertiary and industrial users. The heat storage unit is an insulated water tank that absorbs surplus heat from the boiler. The stored heat in the heat storage unit makes it possible to heat even when the boiler is not working, thus increasing the heating efficiency. In order to save primary energy (fuel), the boiler operates on nominal load every time it is in operation (for the purpose of this research). The aim of this paper is to analyze the water temperature variation in the heat storage, depending on the heat load and the heat storage volume. Heat load is calculated for three reference days, with average daily temperatures from -5 to 5?C. The primary energy savings are also calculated for those days in the case of using heat storage in district heating.
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Zhu, Yongxu, Gan Zheng, and Kai-Kit Wong. "Blockchain-Empowered Decentralized Storage in Air-to-Ground Industrial Networks." IEEE Transactions on Industrial Informatics 15, no. 6 (June 2019): 3593–601. http://dx.doi.org/10.1109/tii.2019.2903559.

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Liang, Wei, Yongkai Fan, Kuan-Ching Li, Dafang Zhang, and Jean-Luc Gaudiot. "Secure Data Storage and Recovery in Industrial Blockchain Network Environments." IEEE Transactions on Industrial Informatics 16, no. 10 (October 2020): 6543–52. http://dx.doi.org/10.1109/tii.2020.2966069.

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46

Rodrigues, Fernando A., and Marcelo J. S. de Lemos. "Discharge effectiveness of thermal energy storage systems." Applied Thermal Engineering 209 (June 2022): 118232. http://dx.doi.org/10.1016/j.applthermaleng.2022.118232.

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47

Rafiqul Haque, A. B. M., and M. Shahria Alam. "Direct Displacement-Based Design of Industrial Rack Clad Buildings." Earthquake Spectra 29, no. 4 (November 2013): 1311–34. http://dx.doi.org/10.1193/080611eqs195m.

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A rack clad building (RCB) is a type of warehouse building system built using steel storage racks as the seismic force resisting system. Generally, these rack systems are larger and taller compared to the conventional steel storage racks commonly used in warehouses. These buildings have peripheral racks that can support the claddings. These rack systems possess some unique properties, such as the members built using thin-walled perforated steel sections and the beam-to-column connection utilizing a teardrop connector in the down-aisle direction. Due to the pinched-type hysteretic behavior of these connections, the structure shows unique behavior under lateral loading. To date, very little research has been carried out to determine the seismic performance of an RCB. Current building codes have no provisions for designing a RCB against seismic loading. This study presents a direct displacement-based design (DDBD) procedure for designing these structures in the down-aisle direction.
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48

Barkova, N. Yu, E. D. Deulina, M. A. Malysheva, D. P. Kirsanova, and O. A. Borodina. "Unmanned aerial vehicles: potential for use in the storage systems of industrial companies." Vestnik Universiteta, no. 5 (June 30, 2022): 44–52. http://dx.doi.org/10.26425/1816-4277-2022-5-44-52.

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In the article, the authors investigate the problem of using unmanned aerial vehicles (drones) in company warehouses and consider their use as one of the ways to optimize the logistics business processes of companies. Technologies are considered, on the basis of which modern unmanned aerial vehicles, drone models of various companies, the main functionality of drone’s work. The authors high-light the strengths and weaknesses of unmanned aerial vehicles, key factors determining the success of the use of drones, and favorable conditions for their use in warehouses. The authors are considering the possibility of sharing drones and RFID technology. Barriers to the active introduction of drones into the logistics business processes of warehousing systems and requirements for warehouse complexes planning the use of unmanned aerial objects have been identified. Promising areas of application of technology in warehouse logistics are also considered: creation of anti-theft and fire protection systems, using drones to read CIS marks. The authors used data from analytical reports and data collected by the authors themselves, as well as empirical research methods.
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Kulkarni, Govind N., Shireesh B. Kedare, and Santanu Bandyopadhyay. "Design of solar thermal systems utilizing pressurized hot water storage for industrial applications." Solar Energy 82, no. 8 (August 2008): 686–99. http://dx.doi.org/10.1016/j.solener.2008.02.011.

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Ekka, Jasinta Poonam, and Dhananjay Kumar. "A review of industrial food processing using solar dryers with heat storage systems." Journal of Stored Products Research 101 (March 2023): 102090. http://dx.doi.org/10.1016/j.jspr.2023.102090.

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