Haider Al-Fedhly | University of Windsor (original) (raw)
Papers by Haider Al-Fedhly
International Journal of Industry and Sustainable Development, 2020
Dealing with complex systems often involves a layering (e.g.: hierarchical) representation that i... more Dealing with complex systems often involves a layering (e.g.: hierarchical) representation that isprevalent throughout engineering. This layering appears in various disciplines in a variety of forms. Concurrentdesign refers to a generalized methodology for mapping from the functional requirements and conceptual modelto blueprints in various domains. Cyber-Physical, hence complex, system include mechanical, electrical,sensors, computer, data, user interface, and external factors. The system is capable of acquiring historical data,receiving real-time sensory status, adapt accordingly while interacting with the environment. The purpose of thispaper is to introduce a novel design methodology approach for smart complex systems such as cyber-physicalproducts and machines. The potential impact of this methodology is to provide a common design approach forany smart system. It can also be used to calculate system complexity in the context of the coupling index.Additionally, it can reduce the...
Customer satisfaction is the ultimate goal of the supply chain. At the same time, business succe... more Customer satisfaction is the ultimate goal of the supply chain. At the same time, business success relies on the income made from offering service. With increasing competition, complexity, higher variety and advancing technology; supply chain management SCM is becoming challenging. Many tools have been commercialised to assist in the analysis, design, management, and evaluation of supply chains (SC). Simulation software is one of common manager’s aids that facilitates the modelling and calculation of more complicated situations. Firstly, demand have been defined based on the literature to develop an appropriate concept. Complex elements of external and internal variables affect the SC performance especially at service level. The purpose of this research is to analyse different aspects of demand then to develop a demand agent that is able to simulate a wide range of real life demand cases within the context of supply. It has been utilized as a development and modelling environment f...
Human-centric Computing and Information Sciences
The Vehicular Ad-Hoc Network (VANET) is a subset of the wireless network. It is made from the Mob... more The Vehicular Ad-Hoc Network (VANET) is a subset of the wireless network. It is made from the Mobile Ad-Hoc Network (MANET) principle, through which vehicles within communication range can wirelessly exchange traffic-related data and other supplemental information under a transportation system . The aim of VANET is to enhance navigation and transportation systems to increase trustworthiness and safety in the transportation environment. VANETs are efficient as long as they deliver travel efficiency and safety through real-time information assistance by launching connections vehicle to vehicle (V2V) and vehicle to road-side infrastructure (V2I) that can significantly enhance the driving experience through smart controls and offer higher relaxation and travel experience for travelers .
Conferances by Haider Al-Fedhly
Carbon Footprint Estimation for Oil Production: Iraq Case Study for The Utilization of Waste Gas in Generating Electricity, 2019
Oil is the main power resource on earth since its discovery. The process of oil extrusion differs... more Oil is the main power resource on earth since its discovery. The process of oil extrusion differs depending on the physical nature and the accessibility of the reserve battery. In Iraq as a case study, the production of oil is easier, and more cost-effective as a result, relatively due to its high pressure which makes oil emerge to the surface with minimum efforts compared to other deep reserves. Oil production is always connected to high waste. In this study case, the main issues addressed are the waste of oil production and the associated gas as a co-product. Associated gas is a blend of hydrocarbons dissolved in the oil under high-pressure underground reservoirs. It is naturally released when crude oil is brought to the surface under low pressure. On the other side, Iraq mainly depends on crude oil to generate electricity.
The aim of this study is to estimate the carbon footprint of crude oil production in Iraq. It considers the associated gas a part of the product lifecycle in order to propose an alternative energy utilization solution that can reduce energy waste as well as the carbon footprint. The energy estimation is then used to substitute the equivalent generated electricity from fossil fuel which is the mail-adopted method in Iraq.
Basic mathematics is used to estimate the potential energy of the flare gas in order to evaluate the energy equivalent losses. Umberto software is used to estimate the carbon footprint for both flared gas and electricity generation based on kWh.
While the flared gas can be reprocessed to avoid energy waste, it has its own drawbacks. The main addressed drawback of this solution is that the gas needs to be liquefied in order to be efficiently transported. This implies high energy consumption as well as carbon dioxide emissions in both processing and transportation as a result.
The outcome of this study is to utilize flared gas in generating electricity instead of the adopted method of using fossil fuel. This solution potentially saves about 50 million tons of carbon dioxide annually as per today’s production rates.
International Journal of Industry and Sustainable Development, 2020
Dealing with complex systems often involves a layering (e.g.: hierarchical) representation that i... more Dealing with complex systems often involves a layering (e.g.: hierarchical) representation that isprevalent throughout engineering. This layering appears in various disciplines in a variety of forms. Concurrentdesign refers to a generalized methodology for mapping from the functional requirements and conceptual modelto blueprints in various domains. Cyber-Physical, hence complex, system include mechanical, electrical,sensors, computer, data, user interface, and external factors. The system is capable of acquiring historical data,receiving real-time sensory status, adapt accordingly while interacting with the environment. The purpose of thispaper is to introduce a novel design methodology approach for smart complex systems such as cyber-physicalproducts and machines. The potential impact of this methodology is to provide a common design approach forany smart system. It can also be used to calculate system complexity in the context of the coupling index.Additionally, it can reduce the...
Customer satisfaction is the ultimate goal of the supply chain. At the same time, business succe... more Customer satisfaction is the ultimate goal of the supply chain. At the same time, business success relies on the income made from offering service. With increasing competition, complexity, higher variety and advancing technology; supply chain management SCM is becoming challenging. Many tools have been commercialised to assist in the analysis, design, management, and evaluation of supply chains (SC). Simulation software is one of common manager’s aids that facilitates the modelling and calculation of more complicated situations. Firstly, demand have been defined based on the literature to develop an appropriate concept. Complex elements of external and internal variables affect the SC performance especially at service level. The purpose of this research is to analyse different aspects of demand then to develop a demand agent that is able to simulate a wide range of real life demand cases within the context of supply. It has been utilized as a development and modelling environment f...
Human-centric Computing and Information Sciences
The Vehicular Ad-Hoc Network (VANET) is a subset of the wireless network. It is made from the Mob... more The Vehicular Ad-Hoc Network (VANET) is a subset of the wireless network. It is made from the Mobile Ad-Hoc Network (MANET) principle, through which vehicles within communication range can wirelessly exchange traffic-related data and other supplemental information under a transportation system . The aim of VANET is to enhance navigation and transportation systems to increase trustworthiness and safety in the transportation environment. VANETs are efficient as long as they deliver travel efficiency and safety through real-time information assistance by launching connections vehicle to vehicle (V2V) and vehicle to road-side infrastructure (V2I) that can significantly enhance the driving experience through smart controls and offer higher relaxation and travel experience for travelers .
Carbon Footprint Estimation for Oil Production: Iraq Case Study for The Utilization of Waste Gas in Generating Electricity, 2019
Oil is the main power resource on earth since its discovery. The process of oil extrusion differs... more Oil is the main power resource on earth since its discovery. The process of oil extrusion differs depending on the physical nature and the accessibility of the reserve battery. In Iraq as a case study, the production of oil is easier, and more cost-effective as a result, relatively due to its high pressure which makes oil emerge to the surface with minimum efforts compared to other deep reserves. Oil production is always connected to high waste. In this study case, the main issues addressed are the waste of oil production and the associated gas as a co-product. Associated gas is a blend of hydrocarbons dissolved in the oil under high-pressure underground reservoirs. It is naturally released when crude oil is brought to the surface under low pressure. On the other side, Iraq mainly depends on crude oil to generate electricity.
The aim of this study is to estimate the carbon footprint of crude oil production in Iraq. It considers the associated gas a part of the product lifecycle in order to propose an alternative energy utilization solution that can reduce energy waste as well as the carbon footprint. The energy estimation is then used to substitute the equivalent generated electricity from fossil fuel which is the mail-adopted method in Iraq.
Basic mathematics is used to estimate the potential energy of the flare gas in order to evaluate the energy equivalent losses. Umberto software is used to estimate the carbon footprint for both flared gas and electricity generation based on kWh.
While the flared gas can be reprocessed to avoid energy waste, it has its own drawbacks. The main addressed drawback of this solution is that the gas needs to be liquefied in order to be efficiently transported. This implies high energy consumption as well as carbon dioxide emissions in both processing and transportation as a result.
The outcome of this study is to utilize flared gas in generating electricity instead of the adopted method of using fossil fuel. This solution potentially saves about 50 million tons of carbon dioxide annually as per today’s production rates.