Ali Zare
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View article: Pollen hydration and its induced effects on human bronchial epithelial cells: A comparative analysis of three species
Pollen hydration and its induced effects on human bronchial epithelial cells: A comparative analysis of three species Open
Pollen-induced allergic diseases are on the rise globally with recent studies pointing towards climate change co-factors potentially influencing pollen seasons and pollen load. This study investigated the hydration-induced rupturing behavi…
View article: Utilizing Artificial Intelligence (AI) for the optimal design of geothermal cogeneration systems in zero energy building
Utilizing Artificial Intelligence (AI) for the optimal design of geothermal cogeneration systems in zero energy building Open
This research investigates the design and optimization of energy consumption for a five-story residential building in Copenhagen, Denmark, comprising ten units of 100 square meters each. The primary objective is to achieve the Zero Energy …
View article: Simulation of pollen–humidity interactions and origin of airborne sub-pollen particles
Simulation of pollen–humidity interactions and origin of airborne sub-pollen particles Open
Airborne pollen can break down into sub-pollen particles (SPPs) due to osmotic forces, which can penetrate deep into the respiratory system, triggering heightened allergic responses. This study aimed to simulate pollen-humidity interaction…
View article: A Comprehensive Study on Hydrogen Production via Waste Heat Recovery of Gas Turbine Cycles in Cogeneration Power‐Hydrogen Layouts: 4E Study and Optimization
A Comprehensive Study on Hydrogen Production via Waste Heat Recovery of Gas Turbine Cycles in Cogeneration Power‐Hydrogen Layouts: 4E Study and Optimization Open
The efficient utilization of waste energy in gas turbine (GT) cycles (GTCs) is a crucial aspect of sustainable energy production. While previous studies have explored various aspects of waste energy recovery, a comparative analysis of diff…
View article: Waste heat recovery of a combined internal combustion engine and inverse brayton cycle for hydrogen and freshwater outputs: 4E optimization and comparison
Waste heat recovery of a combined internal combustion engine and inverse brayton cycle for hydrogen and freshwater outputs: 4E optimization and comparison Open
In power plants, internal combustion engines (ICEs) continue to serve as a prevalent source of power generation. Despite advancements in ICE performance over the past decade, significant amounts of energy are still wasted through exhaust g…
View article: The Impact of Water Injection and Hydrogen Fuel on Performance and Emissions in a Hydrogen/Diesel Dual-Fuel Engine
The Impact of Water Injection and Hydrogen Fuel on Performance and Emissions in a Hydrogen/Diesel Dual-Fuel Engine Open
As the need for alternative energy sources and reduced emissions grows, proven technologies are often sidelined in favour of emerging solutions that lack the infrastructure for mass adoption. This study explores a transitional approach by …
View article: Water desalination using waste heat recovery of thermal power plant in tropical climate; optimization by AI
Water desalination using waste heat recovery of thermal power plant in tropical climate; optimization by AI Open
The primary objective of the current research is to address the pressing issue of water scarcity in Khuzestan Province, Iran, specifically targeting the Khorramshahr gas power plant. The proposed redesign incorporates a Multi-Effect Distil…
View article: A Comprehensive Study on Hydrogen Production via Waste Heat Recovery of a Natural Gas-Fueled Internal Combustion Engine in Cogeneration Power-Hydrogen Layouts: 4E Study and Optimization
A Comprehensive Study on Hydrogen Production via Waste Heat Recovery of a Natural Gas-Fueled Internal Combustion Engine in Cogeneration Power-Hydrogen Layouts: 4E Study and Optimization Open
Internal combustion engines (ICEs) are one of the significant sources of wasted energy, with approximately 65% of their input energy being wasted and dissipated into the environment. Given their wide usage globally, it is necessary to find…
View article: Waste heat recovery of a combined Brayton and inverse Brayton cycle for gas turbine based multi-generation hydrogen and freshwater purposes: 4E comparison with a simple coupled Brayton and inverse Brayton cycle
Waste heat recovery of a combined Brayton and inverse Brayton cycle for gas turbine based multi-generation hydrogen and freshwater purposes: 4E comparison with a simple coupled Brayton and inverse Brayton cycle Open
Using gas turbine cycles in power generation layouts can lead to a significant amount of waste energy. The combined Brayton and inverse Brayton cycle (IBC), which are used in such systems, has a considerable amount of waste energy in the h…
View article: Energy and exergy-economic performance comparison of wind, solar pond, and ocean thermal energy conversion systems for green hydrogen production
Energy and exergy-economic performance comparison of wind, solar pond, and ocean thermal energy conversion systems for green hydrogen production Open
The necessity of energy solutions that are economically viable, ecologically sustainable and environmentally friendly has become fundamental to economic and societal advancement of nations. In this context, renewable energy sources emerge …
View article: 4E Study and Best Performance Analysis of a Hydrogen Multi-Generation Layout by Waste Energy Recovery of Combined SOFC-GT-ORC
4E Study and Best Performance Analysis of a Hydrogen Multi-Generation Layout by Waste Energy Recovery of Combined SOFC-GT-ORC Open
Different approaches have been suggested for the waste heat recovery of high-temperature exhausted gas of a solid oxide fuel cell (SOFC). In such systems, mostly gas turbine (GT) and organic Rankine cycle (ORC) are added as bottoming syste…
View article: Performance, emissions and economic analyses of hydrogen fuel cell vehicles
Performance, emissions and economic analyses of hydrogen fuel cell vehicles Open
The transport sector is considered to be a significant contributor to greenhouse gas emissions, as this sector emits about one-fourth of global CO2 emissions. Transport emissions contribute toward climate change and have been linked to adv…
View article: 4E optimization comparison of different bottoming systems for waste heat recovery of gas turbine cycles, internal combustion engines, and solid oxide fuel cells in power-hydrogen production systems
4E optimization comparison of different bottoming systems for waste heat recovery of gas turbine cycles, internal combustion engines, and solid oxide fuel cells in power-hydrogen production systems Open
Gas turbine cycles (GTC), internal combustion engines (ICE), and solid oxide fuel cells (SOFC) are three important sources of waste energy, and although some studies have been done about their waste heat recovery (WHR) systems individually…
View article: 4E comparison and optimization of natural gas or solar-powered combined gas turbine cycle and inverse Brayton cycle in hydrogen and freshwater multi-generation systems
4E comparison and optimization of natural gas or solar-powered combined gas turbine cycle and inverse Brayton cycle in hydrogen and freshwater multi-generation systems Open
Replacing fossil fuel-based systems with renewable energy resources is a method to enhance the performance of the layout and reduce environmental pollution. The gas turbine cycle (GTC) is one of the main sources of consuming natural gas (N…
View article: Monitoring of thermo-cycles in fibre laser welding of duplex stainless steel 2205 sheets and its correlation with microstructures and mechanical properties
Monitoring of thermo-cycles in fibre laser welding of duplex stainless steel 2205 sheets and its correlation with microstructures and mechanical properties Open
The study reports the influence of change in the heat supplied (43 J mm −1 to 18.5 J mm −1 ) on the microstructures as well as mechanical properties of weld joints obtained by welding of Duplex stainless steel 2205 using fibre laser. In-pr…
View article: Effects of oxygen addition on thermal and pollutant emission characteristics of a cylindrical furnace fueled with 1-Hexanol–biodiesel–diesel blends
Effects of oxygen addition on thermal and pollutant emission characteristics of a cylindrical furnace fueled with 1-Hexanol–biodiesel–diesel blends Open
This study aims to investigate the combined effects of oxygen addition to inlet air and utilization of 1-Hexanol, biodiesel, and diesel blends on the thermal and emission characteristics of a cylindrical furnace. The design of experiments …
View article: Hazardous particles during diesel engine cold-start and warm-up: Characterisation of particulate mass and number under the impact of biofuel and lubricating oil
Hazardous particles during diesel engine cold-start and warm-up: Characterisation of particulate mass and number under the impact of biofuel and lubricating oil Open
The increasing share of using biofuels in vehicles (mandated by current regulations) leads to a reduction in particle size, resulting in increased particle toxicity. However, existing regulations disregarded small particles (sub-23 nm) tha…
View article: Investigation and impact assessment of soybean biodiesel, methyl oleate, and diesel blends on CRDI performance and emissions
Investigation and impact assessment of soybean biodiesel, methyl oleate, and diesel blends on CRDI performance and emissions Open
In the present study, a binary biofuel blend was prepared by blending soy methyl ester (SME100) and methyl oleate (MO) SME50-M50 with diesel. The physiochemical properties of blended fuels were also investigated. The performance and emissi…
View article: Advancements in hydrogen production, storage, distribution and refuelling for a sustainable transport sector: Hydrogen fuel cell vehicles
Advancements in hydrogen production, storage, distribution and refuelling for a sustainable transport sector: Hydrogen fuel cell vehicles Open
Hydrogen is considered as a promising fuel in the 21st century due to zero tailpipe CO2 emissions from hydrogen-powered vehicles. The use of hydrogen as fuel in vehicles can play an important role in decarbonising the transport sector and …
View article: Emission Reduction and Performance Enhancement of CI Engine Propelled by Neem Biodiesel-Neem Oil-Decanol-Diesel Blends at High Injection Pressure
Emission Reduction and Performance Enhancement of CI Engine Propelled by Neem Biodiesel-Neem Oil-Decanol-Diesel Blends at High Injection Pressure Open
Diesel emissions have resulted in air pollution, which is harmful to the sustaining of life. The concerns of energy security and poor air quality have propelled researchers to seek alternate and environment-friendly fuels for the transport…
View article: Engine performance characteristics using microalgae derived dioctyl phthalate biofuel during cold, preheated and hot engine operation
Engine performance characteristics using microalgae derived dioctyl phthalate biofuel during cold, preheated and hot engine operation Open
This study presents a comprehensive analysis of the engine performance parameters during different temperature-based operating conditions: cold, preheated and hot. Novel blends of Di-octyl Phthalate (DOP) and diesel were prepared by using …
View article: Particulate emissions and soot characterisation of diesel engine exhaust for steady-state operating condition using dioctyl phthalate blends with diesel
Particulate emissions and soot characterisation of diesel engine exhaust for steady-state operating condition using dioctyl phthalate blends with diesel Open
The study investigates the particulate emission and soot characterisation of particles originating from a six-cylinder common-rail direct injection (CRDI), turbocharged diesel engine. The experiments were conducted using steady-state opera…