ARTÍCULO
TITULO

Experimental on Oxygen Adsorption Studies for Storage System Using Modified Burnt Paddy Husk Sorbent

Nurul Shahiera Shafie    
Nabilah Zaini    
Noor Shawal Nasri    

Resumen

A respirator is a device designed to protect the wearer from inhaling harmful substances such as dust, fumes, vapors, and/or gases. Generally, a respirator can be grouped into two categories which are air purified respirator (APR) and air supply respirator (ASR). Air purifying respirator removes contaminants from air by passing the ambient air through the air-purifying element before it reaches the user. Besides, the air supplying respirator supplies clean air to a user through an air-supply hose. Air supply respirator consists of the face mask, air cylinder, and regulator. By having air cylinder, air supply respirator can operates up to 45 minutes. However, there are few drawbacks associated in designing an appropriate air-supply respirator which are short duration of operation and not very practical to be used due to the heavy weight of air cylinder. In order to design a flexible and practical air-supply material, this research was conducted to modify the physical and structural properties of a low-cost green-based adsorbent for oxygen adsorption application. To complete this aim, paddy husk was modified using acid and alkaline-based activated carbon (AC) to improve the surface area and porosity volume of modified-sorbent. The morphological and structural analysis were accomplished with the helped of variable pressure scanning electron microscopic, elemental dispersion x-ray analyser, and Fourier transform infrared spectroscopy. The analysis showed that the acid and alkaline functionalized on the activated carbon burnt paddy husk affects the properties of surface sorbent. The oxygen adsorption and desorption studies were conducted in a single cyclical operation. Results gained from this study revealed that the acid-AC burnt paddy husk record the highest oxygen adsorption capacity at 3 bar which is 38.1240 mmol/g, whilst the alkaline-AC burnt paddy husk sorbent able to adsorb 31.6036 mmol/g oxygen at 5 bar. Thus, this study established that the surface chemistry modification done on the burnt paddy husk gives a reasonable effect to the oxygen adsorption capacity.

 Artículos similares

       
 
Katerina Vatitsi, Sofia Siachalou, Dionissis Latinopoulos, Ifigenia Kagalou, Christos S. Akratos and Giorgos Mallinis    
Freshwater ecosystems provide an array of provisioning, regulating/maintenance, and cultural ecosystem services. Despite their crucial role, freshwater ecosystems are exceptionally vulnerable due to changes driven by both natural and human factors. Water... ver más
Revista: Water

 
Isabela M. Dias, Lucas C. Mourão, Guilherme B. M. De Souza, Jose M. Abelleira-Pereira, Julles M. Dos Santos-Junior, Antônio C. D. De Freitas, Lucio Cardozo-Filho, Christian G. Alonso and Reginaldo Guirardello    
Pharmaceutical pollutants are considered emerging contaminants, representing a significant concern to the ecosystem. Thus, this study reports on the degradation of antihypertensive and cardiovascular drugs (atenolol, captopril, propranolol hydrochloride,... ver más
Revista: Water

 
Fatima Elayadi, Mounia Achak, Wafaa Boumya, Sabah Elamraoui, Noureddine Barka, Edvina Lamy, Nadia Beniich and Chakib El Adlouni    
This work highlights the elimination of chemical oxygen demand (COD) from olive mill wastewater using sugarcane bagasse. A 25-1 fractional factorial design of experiments was used to obtain the optimum conditions for each parameter that influence the ads... ver más
Revista: Water

 
Gabriel Zaharia, Dana Badau, Virgil Tudor, Raluca Costache, Adina Geambasu, Mirela Damian, Laura Giurgiu, Cosmin Damian, Vasile Emil Ursu, Razvan Gheorghe Rusu, Ioan Teodor Hasmasan, Iulian Stoian and Corina Tifrea    
The aim of the research was to identify the effect of 4vs.4 small-sided games (SSGs) with goalkeepers (4vs.4+GK), applied twice a week, for 8 weeks, on U18 football players? physical ability, compared to that of the athletes who performed specific aerobi... ver más
Revista: Applied Sciences

 
Néstor A. Urbina-Suarez, Cristian J. Salcedo-Pabón, German L. López-Barrera, Janet B. García-Martínez, Andrés F. Barajas-Solano and Fiderman Machuca-Martínez    
A bicarbonate-peroxide (BAP) system was evaluated to improve the quality of industrial tannery wastewater using an I-optimal experimental design with four variables (temperature, initial pH, bicarbonate, and H2O2 concentration). The response variables we... ver más
Revista: ChemEngineering