Development and characterisation of an alginate and expanded graphite based composite for thermochemical heat storage

Thermochemical heat storage is one of the most attractive technologies to store heat from solar thermal energy or waste heat from industrial processes for its high energy density and long-term storage capability. This research presents a novel expanded graphite/alginate polymer matrix encapsulated with hydrated salts as highly efficient thermochemical heat storage materials. Through the simple synthesis method, the composite material can be sized and shaped to fit multiple applications, and be easily scaled where needed. Through the reversible hydration and dehydration reaction, the incorporated CaCl2 salt can store and release heat. Thermal energy from solar thermal generators or low grade waste heat sources (< 200 °C) is appropriate for the dehydration of CaCl2. A salt loading value of 84% has been achieved with visible porosity maintained. Static heat is used to study the charge reaction, whereas a flow of humid air through a packed bed is used to study the discharge reaction where temperature uplifts between 10–14 °C were observed. A vermiculite/CaCl2 composite is used as a comparison in both reactions. Additionally, bulk density, surface porosity, surface area, moisture sorption and thermal conductivity are considered. The results show that the novel composite materials developed in this study can achieve better packing density and comparable energy density comparing to the conventional vermiculite/CaCl2 composite, but with higher thermal conductivity leading to enhanced energy efficiency

Awareness of the 20-20-20 Rule Amongst Students, Faculty, and Staff

In the past several years, medical schools have increased utilization of recorded lectures and electronic devices: computers, smartphones, and tablets. Increased screen exposure hours where students, faculty, and staff may acquire eye strain. Many are not aware of the 20-20-20 rule: for every 20 minutes of screen time, it is recommended to look at something 20 feet away for 20 seconds; a reminder to take frequent breaks to help prevent eye strain. We want to share reports from our institution regarding student, faculty and staff digital device usage and awareness of the 20-20-20 rule

Assessing the Prevalence of Computer Vision Syndrome at an Osteopathic Medical School with an Electronic Content Delivery Model

To determine the overall prevalence of computer vision syndrome (CVS) among students, faculty, and staff while promoting awareness. CVS is caused by extended screen exposure that can lead to eye discomfort and vision changes which can affect quality of life and educational performance. Our institution is a new Osteopathic medical school that aims to create an innovative approach to medical education delivery via employment of modern technology that is already prevalent. Implementation of pre-recorded lecture materials in the curriculum requires 4-6 additional electronic screen exposure hours. Members of our institution are potentially at increased risk for CVS stemming from the curriculum delivery style and the accelerated use of technology

Optimisation of CaCl2 impregnated expanded graphite and alginate matrices – Targeted salt loading

The incorporation of salt hydrates in thermochemical energy storage is often limited by poor kinetics and mechanical instability during charge and discharge cycles. This study explores the influence of salt loading on the energy storage capacity and charge/discharge performance of salt-impregnated expanded graphite and alginate composites. By controlling the salt bath concentration during composite synthesis, the quantity of salt within the bead can be regulated. Four composites have been synthesised with salt wt% values ranging from 63.7 to 77.2 %, resulting in salt volumetric densities form 0.22–0.52 g/cm3 and energy densities between 1052 and 1281 kJ/kg. The study found that increasing salt bath concentration above 60 % significantly decreases the porosity within the composite. This reduces moisture transfer kinetics and also fails to accommodate for salt expansion and deliquescence. Consequently, composites at near-maximum salt capacity displayed diminished discharge performance and charge efficiency. Conversely, samples below the saturation threshold exhibited greater heat output and charge efficiency, contained overhydration, and maintained structural integrity. These findings highlight the importance of carefully balancing energy storage capacity with improved reaction kinetics and stability to achieve an optimal storage solution in solar thermal systems or waste heat recovery

DNA Extraction Method Development for Ocular Tissues

Purpose: DNA extraction kits are traditionally developed to work with liquid tissues such as blood, saliva, and swabs, but some have been proposed to work with solid tissues. Somatic variation in cancers can be important for tumor subtyping and treatment guidance, including ocular tumors. Additionally, epigenetic marks such as 5-methylcytosine (5mC) and 5-hydroxymethylcytosine (5hmC) are tissue-specific and change in disease states, particularly evident in diabetic retinopathy and age-related macular degeneration. Commercial DNA extraction kits are available from several vendors, but the various kits have different strengths and weaknesses, and the removal of PCR inhibitors will vary with each kit. This project investigates the yield and purity of DNA from ocular tissues using commercial DNA extraction kits. Methods: Cornea, neural retina, RPE/choroid layer, optic nerve, and capsular bag were collected and aliquoted into 15 mg aliquots. Extractions were performed using the following kits: DNEasy Blood and Tissue Kit (Qiagen;), GeneJET Genomic DNA Purification Kit (ThermoFisher Scientific), Monarch HMW DNA Extraction Kit for Tissue (New England Biosciences), and genomicPrep Mini Spin Kit (Cytiva). DNA was quantified using the Qubit Fluorometer and molecular weight was checked by agarose gel. Several more kits are currently being tested. Results: All four kits yielded high molecular weight DNA (above 20 kbp). The Monarch HMW kit yielded DNA with significantly higher molecular weights. The DNA yields per milligram of tissue were highest using the DNEasy Blood and Tissue Kit for optic nerve, neural retina, and RPE/choroid. The yield was highest for the cornea using the genomicPrep Mini Spin Kit. Only the genomicPrep Mini Spin Kit yielded sufficient DNA for quantification from the capsular bag, and total yields were minimal (600 ng or less). Additional kits are currently being tested, but initial results indicate that several commercial kits will be sufficient for DNA extraction of ocular tissues. Further work is needed to purify epithelial cells and stem cells from the intraocular lens. Conclusions: Of the kits tested, all are sufficient to obtain significant amounts of DNA from all ocular tissues aside from the capsular bag. The Monarch HMW yielded the highest molecular weight, but significantly lower quantities of DNA than the other kits, indicating that it may not be ideal for most purposes. Protocol development for the capsular bag is still underway

The Warnie volcanic province : Jurassic intraplate volcanism in Central Australia

We wish to thank Santos Ltd. for providing us with the Snowball 3D seismic survey. In particular we wish to thank Jenni Clifford and Lance Holmes who provided helpful feedback and 2D seismic lines covering the Lambda 1, Orientos 2 and Warnie East 1 wells. We also wish to thank Beach Energy, in particular Rob Menpes, for the helpful discussions and feedback on the manuscript in addition to helping us with the analysis of the magnetic data. The work contained in this paper contains work conducted during a PhD study undertaken as part of the Natural Environment Research Council (NERC) Centre for Doctoral Training (CDT) in Oil & Gas [grant number NEM00578X/1] and is fully funded by NERC whose support is gratefully acknowledged. Lastly, the two anonymous reviews of the manuscript are thanked for their insightful and constructive comments that significantly improved the work presented.Peer reviewedPostprin