Article
Chemistry, Physical
Boris P. Tarasov, Pavel V. Fursikov, Alexey A. Volodin, Mikhail S. Bocharnikov, Yustinas Ya Shimkus, Aleksey M. Kashin, Volodymyr A. Yartys, Stanford Chidziva, Sivakumar Pasupathi, Mykhaylo V. Lototskyy
Summary: This article provides an overview of literature data and R&D activities on energy storage technologies using hydrogen and metal hydrides, with a focus on selecting metal hydride materials based on AB(5)- and AB(2)-type intermetallic compounds for hydrogen storage and compression applications. It also discusses features of integrated energy storage systems utilizing metal hydride hydrogen storage and compression components developed by IPCP and HySA Systems.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2021)
Review
Chemistry, Physical
Torbjorn Egeland-Eriksen, Amin Hajizadeh, Sabrina Sartori
Summary: Hydrogen energy storage systems are technically feasible but require cost reductions for commercial attractiveness; low energy efficiency of some components affects costs; with the expected increase of intermittent renewable energy in power systems, hydrogen technology may see further development; hybrid systems offer the best solution but need to be tailored to specific situations for optimal efficiency.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2021)
Article
Chemistry, Physical
R. A. Ufa, Y. Y. Malkova, A. L. Gusev, N. Y. Ruban, A. S. Vasilev
Summary: The article discusses the challenges of integrating renewable energy generation and large-capacity energy storage units in the power system. It proposes an optimization solution by using hydrogen energy storage systems to enhance the reliability of power supply. The analysis of the impact of generation units and energy storage systems on the parameters of the power system is crucial in advancing the development of sustainable energy solutions.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2021)
Article
Chemistry, Physical
Yue Liu, Zhiwen Zhu, Fang Liu, Jia Xu
Summary: This article studies the nonlinear dynamic characteristics and bifurcation of a Ti-Zr-Ni quasicrystal impacted by hydrogen atoms, proposing new nonlinear damping terms and a method based on the largest Lyapunov exponent. A new approach for switching between hydrogen storage and release is also proposed based on stochastic Hopf bifurcation.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2021)
Review
Metallurgy & Metallurgical Engineering
Zhao Ding, Yuting Li, Hang Yang, Yangfan Lu, Jun Tan, Jianbo Li, Qian Li, Yu'an Chen, Leon L. Shaw, Fusheng Pan
Summary: Hydrogen energy is considered the ultimate power source in the 21st century. Tailoring the stable thermodynamics and sluggish kinetics of hydrogen storage in magnesium-based solid-state materials through nanoengineering and catalysis is crucial for their industrialization and application.
JOURNAL OF MAGNESIUM AND ALLOYS
(2022)
Review
Chemistry, Physical
P. Muthukumar, Alok Kumar, Mahvash Afzal, Satyasekhar Bhogilla, Pratibha Sharma, Abhishek Parida, Sayantan Jana, E. Anil Kumar, Ranjith Krishna Pai, I. P. Jain
Summary: Continuous population growth and enhanced living standards have led to a significant increase in global energy demand. To ensure sustainability, the integration of renewable energy sources with large-scale hydrogen generation and storage units is necessary. This review provides an overview of the worldwide development status of various hydrogen storage technologies, including compressed, cryogenic, liquid organic hydrogen carrier, and solid-state storage. It also covers the classification of tank materials, underground storage sites, and comparisons of liquefaction cycles and economics of hydrogen production.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2023)
Review
Chemistry, Physical
Ahmed M. Elberry, Jagruti Thakur, Annukka Santasalo-Aarnio, Martti Larmi
Summary: Analyzing the status and potential of compressed hydrogen storage technologies requires a techno-economic chain analysis to evaluate their feasibility; while some technologies are immature, they still show promise for development, highlighting the important role of hydrogen in balancing renewable electricity production.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2021)
Article
Chemistry, Physical
J. R. Tena-Garcia, A. Casillas-Ramirez, K. Suarez-Alcantara
Summary: Mixtures of LiAlH4/FeCl2 and LiBH4/FeCl2 were prepared under cryogenic conditions using ball milling, with the optimal production conditions being milling for 30 minutes at -196 degrees C and 15 Hz oscillation frequency. Hydrogen release in LiAlH4/FeCl2 mixtures starts at around 60 degrees C, while LiBH4/FeCl2 mixtures exhibit dehydrogenation starting at 40 degrees C and finishing at about 300 degrees C. The formation of LiCl is considered the driving force behind the decomposition reactions in these reactive mixtures. Cryogenic ball-milling has a positive effect on production and low-temperature dehydrogenation of the studied samples.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2021)
Article
Chemistry, Physical
Abhijith Prasad, Anshul Gupta, Nitesh Kumar
Summary: Solid state hydrogen storage overcomes the challenges of high pressure in compressed gas state and energy-intensive liquefaction in liquid state. Clathrate structures, using promoters such as Tetrahydrofuran, Tetrahydropyran, 1,3 Dioxolane, and 2,3 Dihydrofuran with Multiwall Carbon nanotube as substrate, have demonstrated significant hydrogen adsorption capabilities within 90 minutes. This study also incorporates the design and simulation of a hydrogen storage canister with embedded helical coolant coils to analyze the impact of temperature management on enhancing hydrogen storage in the clathrate reactor bed.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2023)
Article
Chemistry, Physical
J. R. Tena-Garcia, M. Osorio-Garcia, K. Suarez-Alcantara
Summary: Mixtures of LiBH4/VCl3 and LiAlH4/VCl3 with different stoichiometries were prepared and tested for hydrogen release. The mixtures showed diverse hydrogen release levels and exhibited a change in reaction pathway at low temperatures.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2022)
Article
Chemistry, Multidisciplinary
Chaochao Dun, Sohee Jeong, Yi-Sheng Liu, Noemi Leick, Tracy M. Mattox, Jinghua Guo, Joo-Won Lee, Thomas Gennett, Vitalie Stavila, Jeffrey J. Urban
Summary: Designing interfaces with thermodynamic and kinetic specificity is crucial for hydrogen storage. The addition of a thin layer of MgCl2 on a porous Mg(BH4)(2)-based framework has been shown to significantly improve hydrogen desorption performance, reduce decomposition temperature and activation barrier, and prevent oxidation of the decomposed system.
Review
Chemistry, Physical
Pamela Ramirez-Vidal, Giuseppe Sdanghi, Alain Celzard, Vanessa Fierro
Summary: Hydrogen, as a promising energy carrier, has the potential to replace fossil fuels and reduce CO2 emissions; however, its low volumetric energy density remains a major drawback. This manuscript reviews different solutions for hydrogen storage, with a particular focus on hydrogen adsorption at cryogenic temperatures and moderate pressures on high surface area porous materials.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2022)
Article
Energy & Fuels
Heinz Bekebrok, Hendrik Langnickel, Adam Pluta, Marco Zobel, Alexander Dyck
Summary: This study analyzes the requirements of compressor systems for cavern storage facilities for storing green hydrogen, using Lower Saxony in Germany as an example. A one-year hydrogen storage demand profile is developed in hourly resolution from feed-in time series of renewable energy sources, and the injection profile relevant for compressor operation is compared with current natural gas injection operation modes.
Article
Chemistry, Physical
Marc Prewitz, Jonas Schwarzer, Andreas Bardenhagen
Summary: This paper compares and evaluates different techniques for the use of hydrogen in aircraft design, aiming to substitute fossil fuels with renewable energy sources and make aviation environmentally compatible.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2023)
Article
Chemistry, Physical
Therese Lundblad, Maria Taljegard, Filip Johnsson
Summary: This study compares the costs of three electrolysis-based hydrogen supply systems for heavy road transportation: a decentralized, off-grid system for hydrogen production from wind and solar power, a decentralized system connected to the electricity grid, and a centralized grid-connected electrolyzer with hydrogen transported to refueling stations. The results show that the decentralized system connected to the electricity grid provides the lowest costs of hydrogen delivery for most geographical regions, while the decentralized off-grid system entails higher hydrogen production costs. Additionally, the centralized system involves lower costs for production and storage than the grid-connected decentralized system, although the additional costs for hydrogen transport increase the total cost.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2023)
