Filtration properties of staple fibre thermo-bonded nonwoven fabrics

Thermal bonded polyester staple fibre nonwoven fabrics have been produced, considering different proportions of binder fibres, directions of web laid as variables, and bonding time and bonding temperature as constant. The influence of process variables on fabric properties, such as bursting strength, air permeability, bubble point diameter, mean flow pore diameter and filtration efficiency with three different particle (1, 0.5, and 0.3µ) along with the overall filtration efficiency have been tested and the results are compared with spun laced nonwoven fabrics. The fibres are oriented in cross and parallel directions, this arrangement of fibres leads to increase in bursting strength. The trend in air permeability of cross-laid web fabrics is found similar to spunlaced fabrics. The pore sizes of the thermal bonded fabrics have been minimized by laying the web in cross direction and increasing the binder fibre proportion; it has minimum variation with spunlaced fabrics. Aerosols of different particles are fed to the upstream of the filters with the face velocity of 16.6 cm/s which is then maintained as constant. The maximum filtration efficiency achieved is found to be 93.13% which is around 13% higher than that of the spunlaced fabric. For 80g/m2 fabrics with 0.3µ particles, the filtration efficiency of spun laced fabric is only 38% which is around one and a half time lesser than 80 g/m2 of thermal bonded fabric; 90g/m2 fabrics show equal and better properties than 100g/m2 fabrics

Real-Time Tracking of Wildlife with IoT Solutions in Movement Ecology

Movement ecology has grown increasingly significant in the backdrop of global environmental changes, emphasizing the importance of understanding animal mobility patterns. The integration of Internet of Things (IoT) technology offers transformative potential for real-time wildlife tracking, addressing limitations of traditional methods like radio telemetry. Through IoT devices, researchers can acquire immediate, high-resolution datasets spanning vast distances, capturing multiple data points such as environmental conditions and physiological parameters. Existing implementations range from monitoring elephant movements in Africa to observing bird migrations. However, while promising, challenges like battery longevity, device weight, data management, and animal safety persist. As technological advances emerge, future prospects include more efficient, integrated solutions combining IoT with other technologies, poised to reshape and enrich our understanding of wildlife movement

Pathological Characteristics of Primary Bladder Carcinoma Treated at a Tertiary Care Hospital and Changing Demographics of Bladder Cancer in Sri Lanka

Objectives. The aim was to compare demographics and pathological features of bladder carcinoma treated in a urology unit with findings of previous studies done in Sri Lanka. Materials and Methods. Data of newly diagnosed patients with bladder cancer in a tertiary referral centre from 2011 to 2014 were analysed. Data on bladder cancers diagnosed from 1993 to 2014 were obtained from previous publications and Sri Lanka Cancer Registry. Results. There were 148 patients and mean age was 65 years. Male to female ratio was 4.1 : 1. Urothelial carcinoma (UC) was found in 89.2% of patients. Muscle invasion was noted in 35% of patients compared to 48.4% two decades ago. In patients with UC, 16.5% were found to have pT1 high grade tumour. It was 5.3% from 1993 to 2000. Pure squamous cell carcinoma was found in 8.1% of patients while primary or de novo carcinoma in situ (not associated with high grade pT1 tumours) was seen in one patient only. Conclusions. The percentage of squamous carcinoma is higher among Sri Lankan patients while primary carcinoma in situ is a rarity. The percentage of muscle invasive disease has decreased while the percentage of pT1 high grade tumours has increased during the last two decades in Sri Lanka

Sexto reporte de eventos adversos con tratamientos biológicos en Argentina. Informe del registro BIOBADASAR

Objetivo: actualizar los resultados del registro BIOBADASAR sobre seguridad, duración y causas de interrupción del tratamiento luego de 8 años de seguimiento. Métodos: BIOBADASAR es un registro de seguridad de terapias biológicas establecido por la Sociedad Argentina de Reumatología. Se presenta la descripción de BIOBADASAR 3.0, una cohorte compuesta por 53 centros de Argentina seguidos prospectivamente desde agosto de 2010 hasta enero de 2018

Calcium alginate/PVA blended nano fibre matrix for wound dressing

127-132The nanocomposite web of calcium alginate and polyvinyl alcohol with varying proportion has been prepared by electrospinning and its application for wound healing is examined. Scanning electron microscope and Fourier transform infrared spectroscopy have been used to characterize the morphology and molecular fingerprint. The water vapour transmission rate of the blended nanofibre composite web having maximum calcium alginate content is found to be 2725.8 g/m2/2h, which helps in maintaining a moist environment over the wound surface. The wound healing capacity of the nanofibre has been evaluated using a rat model. When the wound is covered with nanofibre, it forms gel due to the presence of calcium alginate and filled with new epithelium without any harmful reactions

Effect of process parameters at comber on yam and fabric properties

196-199The effect of different process parameters at comber on yarn and fabric properties for the same noil% has been studied. It is observed that there exists a best combination of process parameters at comber for every noil % based on the length and length distribution of fibre. While selecting these process parameter, it is necessary to study the classimat faults as well as fabric appearance instead of only yarn imperfections and tenacity. The increase in top comb penetration beyond a certain level increases the classimat faults in the categories H and I due to the disturbance of combed fringe by the top comb, though there is a reduction in the imperfections and classimat faults due to raw material

Filtration properties of staple fibre thermo-bonded nonwoven fabrics

62-66Thermal bonded polyester staple fibre nonwoven fabrics have been produced, considering different proportions of binder fibres, directions of web laid as variables, and bonding time and bonding temperature as constant. The influence of process variables on fabric properties, such as bursting strength, air permeability, bubble point diameter, mean flow pore diameter and filtration efficiency with three different particle (1, 0.5, and 0.3µ) along with the overall filtration efficiency have been tested and the results are compared with spun laced nonwoven fabrics. The fibres are oriented in cross and parallel directions, this arrangement of fibres leads to increase in bursting strength. The trend in air permeability of cross-laid web fabrics is found similar to spunlaced fabrics. The pore sizes of the thermal bonded fabrics have been minimized by laying the web in cross direction and increasing the binder fibre proportion; it has minimum variation with spunlaced fabrics. Aerosols of different particles are fed to the upstream of the filters with the face velocity of 16.6 cm/s which is then maintained as constant. The maximum filtration efficiency achieved is found to be 93.13% which is around 13% higher than that of the spunlaced fabric. For 80g/m2 fabrics with 0.3µ particles, the filtration efficiency of spun laced fabric is only 38% which is around one and a half time lesser than 80 g/m2 of thermal bonded fabric; 90g/m2 fabrics show equal and better properties than 100g/m2 fabrics

Structural elucidation of Multi-walled Carbon Nanotube—Diferuloylmethane Conjugate: a pre-requisite for validating applications in water purification

Carbon nanotubes (CNTs) with its exceptional properties are considered a material of choice for use in various water treatment processes. The functionalization of the CNTs helps fine-tune its properties to achieve desired performances and/or overcome the limitations in processabilty to satisfy the requirements as per the application. Diferuloylmethane (DFM), a plant derived polyphenolic diarylheptanoid is a bioactive compound intriguingly exploited for use in environmental remediation. In this paper we report the functionalization of CNTs with DFM to craft a novel carbon conjugate suitable for use as reinforcement in membrane fabrication. The experimental results showed that the prepared conjugate retained the integrity of nanotube structure on functionalization and also showed lesser agglomeration in comparison to the pristine nanotubes. The formation of conjugate was further confirmed by the changes in functionalities of DFM. The thermal and colloidal stability of the conjugate have also been reported. The prepared conjugate with synchronized properties of the individual constituents is proposed to be an ideal option for enhancing the performance of membranes used in water treatment processes