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As the world human population and industrialization keep growing, the water availability issue has forced scientists, engineers, and legislators of water supply industries to better manage water resources. Pollutant removals from wastewaters are crucial to ensure qualities of available water resources (including natural water bodies or reclaimed waters). Diverse techniques have been developed to deal with water quality concerns. Carbon based nanomaterials, especially carbon nanotubes (CNTs) with their high specific surface area and associated adsorption sites, have drawn a special focus in environmental applications, especially water and wastewater treatment. This critical review summarizes recent developments and adsorption behaviors of CNTs used to remove organics or heavy metal ions from contaminated waters via adsorption and inactivation of biological species associated with CNTs. Foci include CNTs synthesis, purification, and surface modifications or functionalization, followed by their characterization methods and the effect of water chemistry on adsorption capacities and removal mechanisms. Functionalized CNTs have been proven to be promising nanomaterials for the decontamination of waters due to their high adsorption capacity. However, most of the functional CNT applications are limited to lab-scale experiments only. Feasibility of their large-scale/industrial applications with cost-effective ways of synthesis and assessments of their toxicity with better simulating adsorption mechanisms still need to be studied.
Mian Aslam; Hsion-Wen Kuo; Walter Den; Muhammad Usman; Muhammad Sultan; Hadeed Ashraf. Functionalized Carbon Nanotubes (CNTs) for Water and Wastewater Treatment: Preparation to Application. Sustainability 2021, 13, 5717 .
AMA StyleMian Aslam, Hsion-Wen Kuo, Walter Den, Muhammad Usman, Muhammad Sultan, Hadeed Ashraf. Functionalized Carbon Nanotubes (CNTs) for Water and Wastewater Treatment: Preparation to Application. Sustainability. 2021; 13 (10):5717.
Chicago/Turabian StyleMian Aslam; Hsion-Wen Kuo; Walter Den; Muhammad Usman; Muhammad Sultan; Hadeed Ashraf. 2021. "Functionalized Carbon Nanotubes (CNTs) for Water and Wastewater Treatment: Preparation to Application." Sustainability 13, no. 10: 5717.
Poultry are one of the most vulnerable species of its kind once the temperature-humidity nexus is explored. This is so because the broilers lack sweat glands as compared to humans and undergo panting process to mitigate their latent heat (moisture produced in the body) in the air. As a result, moisture production inside poultry house needs to be maintained to avoid any serious health and welfare complications. Several strategies such as compressor-based air-conditioning systems have been implemented worldwide to attenuate the heat stress in poultry, but these are not economical. Therefore, this study focuses on the development of low-cost and environmentally friendly improved evaporative cooling systems (DEC, IEC, MEC) from the viewpoint of heat stress in poultry houses. Thermodynamic analysis of these systems was carried out for the climatic conditions of Multan, Pakistan. The results appreciably controlled the environmental conditions which showed that for the months of April, May, and June, the decrease in temperature by direct evaporative cooling (DEC), indirect evaporative cooling (IEC), and Maisotsenko-Cycle evaporative cooling (MEC) systems is 7–10 °C, 5–6.5 °C, and 9.5–12 °C, respectively. In case of July, August, and September, the decrease in temperature by DEC, IEC, and MEC systems is 5.5–7 °C, 3.5–4.5 °C, and 7–7.5 °C, respectively. In addition, drop in temperature-humidity index (THI) values by DEC, IEC, and MEC is 3.5–9 °C, 3–7 °C, and 5.5–10 °C, respectively for all months. Optimum temperature and relative humidity conditions are determined for poultry birds and thereby, systems’ performance is thermodynamically evaluated for poultry farms from the viewpoint of THI, temperature-humidity-velocity index (THVI), and thermal exposure time (ET). From the analysis, it is concluded that MEC system performed relatively better than others due to its ability of dew-point cooling and achieved THI threshold limit with reasonable temperature and humidity indexes.
Khawar Shahzad; Muhammad Sultan; Muhammad Bilal; Hadeed Ashraf; Muhammad Farooq; Takahiko Miyazaki; Uzair Sajjad; Imran Ali; Muhammad Hussain. Experiments on Energy-Efficient Evaporative Cooling Systems for Poultry Farm Application in Multan (Pakistan). Sustainability 2021, 13, 2836 .
AMA StyleKhawar Shahzad, Muhammad Sultan, Muhammad Bilal, Hadeed Ashraf, Muhammad Farooq, Takahiko Miyazaki, Uzair Sajjad, Imran Ali, Muhammad Hussain. Experiments on Energy-Efficient Evaporative Cooling Systems for Poultry Farm Application in Multan (Pakistan). Sustainability. 2021; 13 (5):2836.
Chicago/Turabian StyleKhawar Shahzad; Muhammad Sultan; Muhammad Bilal; Hadeed Ashraf; Muhammad Farooq; Takahiko Miyazaki; Uzair Sajjad; Imran Ali; Muhammad Hussain. 2021. "Experiments on Energy-Efficient Evaporative Cooling Systems for Poultry Farm Application in Multan (Pakistan)." Sustainability 13, no. 5: 2836.
This study provides insights into the feasibility of a desiccant dehumidification-based Maisotsenko cycle evaporative cooling (M-DAC) system for greenhouse air-conditioning application. Conventional cooling techniques include direct evaporative cooling, refrigeration systems, and passive/active ventilation. which are commonly used in Pakistan; however, they are either not feasible due to their energy cost, or they cannot efficiently provide an optimum microclimate depending on the regions, the growing seasons, and the crop being cultivated. The M-DAC system was therefore proposed and evaluated as an alternative solution for air conditioning to achieve optimum levels of vapor pressure deficit (VPD) for greenhouse crop production. The objective of this study was to investigate the thermodynamic performance of the proposed system from the viewpoints of the temperature gradient, relative humidity level, VPD, and dehumidification gradient. Results showed that the standalone desiccant air-conditioning (DAC) system created maximum dehumidification gradient (i.e., 16.8 g/kg) and maximum temperature gradient (i.e., 8.4 °C) at 24.3 g/kg and 38.6 °C ambient air conditions, respectively. The DAC coupled with a heat exchanger (DAC+HX) created a temperature gradient nearly equal to ambient air conditions, which is not in the optimal range for greenhouse growing conditions. Analysis of the M-DAC system showed that a maximum air temperature gradient, i.e., 21.9 °C at 39.2 °C ambient air condition, can be achieved, and is considered optimal for most greenhouse crops. Results were validated with two microclimate models (OptDeg and Cft) by taking into account the optimality of VPD at different growth stages of tomato plants. This study suggests that the M-DAC system is a feasible method to be considered as an efficient solution for greenhouse air-conditioning under the climate conditions of Multan (Pakistan).
Hadeed Ashraf; Muhammad Sultan; Redmond Shamshiri; Farrukh Abbas; Muhammad Farooq; Uzair Sajjad; Hafiz Md-Tahir; Muhammad Mahmood; Fiaz Ahmad; Yousaf Taseer; Aamir Shahzad; Badar Niazi. Dynamic Evaluation of Desiccant Dehumidification Evaporative Cooling Options for Greenhouse Air-Conditioning Application in Multan (Pakistan). Energies 2021, 14, 1097 .
AMA StyleHadeed Ashraf, Muhammad Sultan, Redmond Shamshiri, Farrukh Abbas, Muhammad Farooq, Uzair Sajjad, Hafiz Md-Tahir, Muhammad Mahmood, Fiaz Ahmad, Yousaf Taseer, Aamir Shahzad, Badar Niazi. Dynamic Evaluation of Desiccant Dehumidification Evaporative Cooling Options for Greenhouse Air-Conditioning Application in Multan (Pakistan). Energies. 2021; 14 (4):1097.
Chicago/Turabian StyleHadeed Ashraf; Muhammad Sultan; Redmond Shamshiri; Farrukh Abbas; Muhammad Farooq; Uzair Sajjad; Hafiz Md-Tahir; Muhammad Mahmood; Fiaz Ahmad; Yousaf Taseer; Aamir Shahzad; Badar Niazi. 2021. "Dynamic Evaluation of Desiccant Dehumidification Evaporative Cooling Options for Greenhouse Air-Conditioning Application in Multan (Pakistan)." Energies 14, no. 4: 1097.
This study reports on the investigation of the performance of single and two-stage liquid and solid desiccant dehumidification systems and two-stage combined liquid and solid desiccant dehumidification systems with reference to humid climates. The research focus is on a dehumidification system capacity of 25 kW designed for room air conditioning application using the thermal models reported in the literature. RD-type silica gel and LiCl are used as solid and liquid desiccant materials, respectively. In this study, the application of proposed system for deep drying application is also explored. Condensation rate and moisture removal efficiency are chosen as performance parameters for room air conditioning application, whereas air outlet temperature is chosen as performance parameter for deep drying application. Further, for a given range of operating parameters, influences of air inlet humidity ratio, flow rate, and inlet temperature on performance parameters of the systems are investigated. In humid climatic conditions, it has been observed that a two-stage liquid desiccant dehumidification system is more effective for room air conditioning application, and two-stage solid desiccant dehumidification system is more suitable for deep drying application in the temperature range of 50 to 70 °C, while single-stage solid desiccant and two-stage combined liquid and solid desiccant dehumidification systems are more effective for low temperature, i.e., 30 to 50 °C deep drying application.
B. Naik; Mullapudi Joshi; P. Muthukumar; Muhammad Sultan; Takahiko Miyazaki; Redmond Shamshiri; Hadeed Ashraf. Investigating Solid and Liquid Desiccant Dehumidification Options for Room Air-Conditioning and Drying Applications. Sustainability 2020, 12, 10582 .
AMA StyleB. Naik, Mullapudi Joshi, P. Muthukumar, Muhammad Sultan, Takahiko Miyazaki, Redmond Shamshiri, Hadeed Ashraf. Investigating Solid and Liquid Desiccant Dehumidification Options for Room Air-Conditioning and Drying Applications. Sustainability. 2020; 12 (24):10582.
Chicago/Turabian StyleB. Naik; Mullapudi Joshi; P. Muthukumar; Muhammad Sultan; Takahiko Miyazaki; Redmond Shamshiri; Hadeed Ashraf. 2020. "Investigating Solid and Liquid Desiccant Dehumidification Options for Room Air-Conditioning and Drying Applications." Sustainability 12, no. 24: 10582.
Okra possesses a short shelf-life which limits its marketability, thereby, the present study investigates the individual and combined effect of 1-methylcyclopropene (1-MCP) and modified atmosphere packaging (MAP) on the postharvest storage life of okra. The treated/ untreated okra samples were stored at ambient (i.e., 27 °C) and low (i.e., 7 °C) temperatures for eight and 20 days, respectively. Results revealed that the 1-MCP and/or MAP treatment successfully inhibited fruit softening, reduction in mucilage viscosity, and color degradation (hue angle, ∆E, and BI) in the product resulting in a longer period of shelf-life. However, MAP with or without 1-MCP was more effective to reduce weight loss in okra stored at both ambient and cold storage conditions. Additionally, ascorbic acid and total antioxidants were also retained in 1-MCP with MAP during cold storage. The 1-MCP in combination with MAP effectively suppressed respiration rate and ethylene production for four days and eight days at 27 °C and 7 °C temperature conditions, respectively. According to the results, relatively less chilling injury stress also resulted when 1-MCP combined with MAP. The combined treatment of okra pods with 1-MCP and MAP maintained the visual quality of the product in terms of overall acceptability for four days at 20 °C and 20 days at 7 °C.
Rabia Kanwal; Hadeed Ashraf; Muhammad Sultan; Irrum Babu; Zarina Yasmin; Muhammad Nadeem; Muhammad Asghar; Redmond R. Shamshiri; Sobhy M. Ibrahim; Nisar Ahmad; Muhammad A. Imran; Yuguang Zhou; Riaz Ahmad. Effect of 1-Methyl Cyclopropane and Modified Atmosphere Packaging on the Storage of Okra (Abelmoschus esculentus L.): Theory and Experiments. Sustainability 2020, 12, 7547 .
AMA StyleRabia Kanwal, Hadeed Ashraf, Muhammad Sultan, Irrum Babu, Zarina Yasmin, Muhammad Nadeem, Muhammad Asghar, Redmond R. Shamshiri, Sobhy M. Ibrahim, Nisar Ahmad, Muhammad A. Imran, Yuguang Zhou, Riaz Ahmad. Effect of 1-Methyl Cyclopropane and Modified Atmosphere Packaging on the Storage of Okra (Abelmoschus esculentus L.): Theory and Experiments. Sustainability. 2020; 12 (18):7547.
Chicago/Turabian StyleRabia Kanwal; Hadeed Ashraf; Muhammad Sultan; Irrum Babu; Zarina Yasmin; Muhammad Nadeem; Muhammad Asghar; Redmond R. Shamshiri; Sobhy M. Ibrahim; Nisar Ahmad; Muhammad A. Imran; Yuguang Zhou; Riaz Ahmad. 2020. "Effect of 1-Methyl Cyclopropane and Modified Atmosphere Packaging on the Storage of Okra (Abelmoschus esculentus L.): Theory and Experiments." Sustainability 12, no. 18: 7547.
In the 21st century, the poultry sector is a vital concern for the developing economies including Pakistan. The summer conditions of the city of Multan (Pakistan) are not comfortable for poultry birds. Conventionally, swamp coolers are used in the poultry sheds/houses of the city, which are not efficient enough, whereas compressor-based systems are not economical. Therefore, this study is aimed to explore a low-cost air-conditioning (AC) option from the viewpoint of heat stress in poultry birds. In this regard, the study investigates the applicability of three evaporative cooling (EC) options, i.e., direct EC (DEC), indirect EC (IEC), and Maisotsenko-cycle EC (MEC). Performance of the EC systems is investigated using wet-bulb effectiveness (WBE) for the climatic conditions of Multan. Heat stress is investigated as a function of poultry weight. Thermal comfort of the poultry birds is calculated in terms of temperature-humidity index (THI) corresponding to the ambient and output conditions. The heat production from the poultry birds is calculated using the Pederson model (available in the literature) at various temperatures. The results indicate a maximum temperature gradient of 10.2 °C (MEC system), 9 °C (DEC system), and 6.5 °C (IEC systems) is achieved. However, in the monsoon/rainfall season, the performance of the EC systems is significantly reduced due to higher relative humidity in ambient air.
Hafiz Raza; Hadeed Ashraf; Khawar Shahzad; Muhammad Sultan; Takahiko Miyazaki; Muhammad Usman; Redmond Shamshiri; Yuguang Zhou; Riaz Ahmad. Investigating Applicability of Evaporative Cooling Systems for Thermal Comfort of Poultry Birds in Pakistan. Applied Sciences 2020, 10, 4445 .
AMA StyleHafiz Raza, Hadeed Ashraf, Khawar Shahzad, Muhammad Sultan, Takahiko Miyazaki, Muhammad Usman, Redmond Shamshiri, Yuguang Zhou, Riaz Ahmad. Investigating Applicability of Evaporative Cooling Systems for Thermal Comfort of Poultry Birds in Pakistan. Applied Sciences. 2020; 10 (13):4445.
Chicago/Turabian StyleHafiz Raza; Hadeed Ashraf; Khawar Shahzad; Muhammad Sultan; Takahiko Miyazaki; Muhammad Usman; Redmond Shamshiri; Yuguang Zhou; Riaz Ahmad. 2020. "Investigating Applicability of Evaporative Cooling Systems for Thermal Comfort of Poultry Birds in Pakistan." Applied Sciences 10, no. 13: 4445.
This study provides comprehensive details of evaporative cooling options for building air-conditioning (AC) in Multan (Pakistan). Standalone evaporative cooling and standalone vapor compression AC (VCAC) systems are commonly used in Pakistan. Therefore, seven AC system configurations comprising of direct evaporative cooling (DEC), indirect evaporative cooling (IEC), VCAC, and their possible combinations, are explored for the climatic conditions of Multan. The study aims to explore the optimum AC system configuration for the building AC from the viewpoints of cooling capacity, system performance, energy consumption, and CO2 emissions. A simulation model was designed in DesignBuilder and simulated using EnergyPlus in order to optimize the applicability of the proposed systems. The standalone VCAC and hybrid IEC-VCAC & IEC-DEC-VCAC system configurations could achieve the desired human thermal comfort. The standalone DEC resulted in a maximum COP of 4.5, whereas, it was 2.1 in case of the hybrid IEC-DEC-VCAC system. The hybrid IEC-DEC-VCAC system achieved maximum temperature gradient (21 °C) and relatively less CO2 emissions as compared to standalone VCAC. In addition, it provided maximum cooling capacity (184 kW for work input of 100 kW), which is 85% higher than the standalone DEC system. Furthermore, it achieved neutral to slightly cool human thermal comfort i.e., 0 to −1 predicted mean vote and 30% of predicted percentage dissatisfied. Thus, the study concludes the hybrid IEC-DEC-VCAC as an optimum configuration for building AC in Multan.
Shazia Noor; Hadeed Ashraf; Muhammad Sultan; Zahid Mahmood Khan. Evaporative Cooling Options for Building Air-Conditioning: A Comprehensive Study for Climatic Conditions of Multan (Pakistan). Energies 2020, 13, 3061 .
AMA StyleShazia Noor, Hadeed Ashraf, Muhammad Sultan, Zahid Mahmood Khan. Evaporative Cooling Options for Building Air-Conditioning: A Comprehensive Study for Climatic Conditions of Multan (Pakistan). Energies. 2020; 13 (12):3061.
Chicago/Turabian StyleShazia Noor; Hadeed Ashraf; Muhammad Sultan; Zahid Mahmood Khan. 2020. "Evaporative Cooling Options for Building Air-Conditioning: A Comprehensive Study for Climatic Conditions of Multan (Pakistan)." Energies 13, no. 12: 3061.