Vanadium Electrolyte Densification and Gel Formation Processes

Li, Yuanchao; Mouron, Spencer Thomas; Perry, Mike; Van Nguyen, Trung

doi:10.1021/acs.iecr.3c01480

Ind. Eng. Chem. Res.

2023

DOI: 10.1021/acs.iecr.3c01480

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Vanadium Electrolyte Densification and Gel Formation Processes

Yuanchao Li,

Spencer Thomas Mouron,

Mike Perry

et al.

Abstract: This paper describes the processes used to transform liquid vanadium electrolytes into solid form for shipment from the manufacturing site to the vanadium redox flow battery application site. The processes involve removing a large amount of water from the vanadium electrolytes by forward osmosis and transforming the concentrated electrolytes into a lowcrystallinity, gel-like solid that can be quickly reconstituted to its original liquid form by the addition of water. The osmosis cell consists of two liquid com… Show more

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2024

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Cited by 2 publications

References 21 publications

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Sustainability Development of Stationary Batteries: A Circular Economy Approach for Vanadium Flow Batteries

Blume,

Turek,

Minke

2024

Batteries

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In the literature, the hierarchy of value retention strategies (R-strategies) is utilized to describe the impacts on various circular economy (CE) factors. However, this approach is not suitable for batteries, such as the vanadium flow battery (VFB), due to its technical complexity. The presented model primarily focuses on VFBs, as a deep technical understanding is identified as a fundamental prerequisite for a comprehensive CE analysis. Based on the R-strategies, a new model called the dynamic multi-dimensional value retention strategy model (DDS) is developed accordingly. The DDS divides the R-strategies into three dimensions, as changes in the studied object each have a unilateral influence on the underlying dimensions. In addition, interactions among the R-strategies within the dimensions are observed. Moreover, the model enables the transparent and comprehensible examination of various CE objective factors. Through the model, future adjustments to CE for batteries can be analyzed and quantified. In particular, the analysis yields new insights into individual end-of-life (EoL) strategies, based on new findings regarding the VFB. Consequently, important new perspectives on the VFB are also illuminated. The DDS model is applicable to other complex technologies as well as simple product systems.

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Sustainability Development of Stationary Batteries: A Circular Economy Approach for Vanadium Flow Batteries

Blume,

Turek,

Minke

2024

Batteries

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In-situ Gel: A Novel Drug Delivery System

Kumar Kashyap,

Kumar,

Anjali

et al. 2024

AJPT

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The scientific community has been interested in gel-based systems, which have evolved during the ten years as a novel drug delivery strategy. A type of hydrogel called in-situ gels is a solution-based hydrogel that gels under a variety of physiological circumstances. Various elements, such as depend on the gel’s ability to form. Temperature variations, pH shifts, ion exposure, UV radiation, electrical sensitivity and a crucial enzyme from which the drug is delivered continually and in a controlled way are all factors that might affect the body. With continuing drug usage and long-term drug availability, they are intended to detoxify the substance. Reduced administration frequency provided by a controlled discharge pattern enhances patient compliance. Additionally, the drug’s dosage can be lowered and that the toxicity when compared to traditional treatment. In controlled drug delivery, the medication is given over an extended period of time with zero order kinetics, allowing for the measurement of plasma drug availability. The development of novels made of synthetic and natural polymers has advanced significantly. In modern life there are many benefits and uses of in-situ gelling systems. The review primarily focuses on an introduction to in-situ gel, its advantages and disadvantages, its mechanism, the mechanism of drug release from the system, different types of polymers used in formulations, typical preparation techniques and various types of in situ gels. Drug delivery applications for in-situ gel systems and in-situ gel testing.

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Vanadium Electrolyte Densification and Gel Formation Processes

Cited by 2 publications

References 21 publications

Sustainability Development of Stationary Batteries: A Circular Economy Approach for Vanadium Flow Batteries

Sustainability Development of Stationary Batteries: A Circular Economy Approach for Vanadium Flow Batteries

In-situ Gel: A Novel Drug Delivery System

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