Abstract
This study presents an overview of the economic analysis and environmental impact of natural gas conversion technologies. Published articles related to economic analysis and environmental impact of natural gas conversion technologies were reviewed and discussed. The economic analysis revealed that the capital and the operating expenditure of each of the conversion process is strongly dependent on the sophistication of the technical designs. The emerging technologies are yet to be economically viable compared to the well-established steam reforming process. However, appropriate design modifications could significantly reduce the operating expenditure and enhance the economic feasibility of the process. The environmental analysis revealed that emerging technologies such as carbon dioxide (CO2) reforming and the thermal decomposition of natural gas offer advantages of lower CO2 emissions and total environmental impact compared to the well-established steam reforming process. Appropriate design modifications such as steam reforming with carbon capture, storage and utilization, the use of an optimized catalyst in thermal decomposition, and the use of solar concentrators for heating instead of fossil fuel were found to significantly reduced the CO2 emissions of the processes. There was a dearth of literature on the economic analysis and environmental impact of photocatalytic and biochemical conversion processes, which calls for increased research attention that could facilitate a comparative analysis with the thermochemical processes.
Highlights
Natural gas is a fossil fuel-based energy resource that is abundant in nature [1,2]
Due to its vital role in the global energy mix, the International Energy Outlook in 2016 projected that the global consumption of natural gas will rise to 203 TcF in 2040 [11]
The economic analysis is usually performed as a function of the process cost which consists of the capital expenditure (CAPEX) or the investment cost and the operating expenditure (OPEX) [48]
Summary
Natural gas is a fossil fuel-based energy resource that is abundant in nature [1,2]. It is a mixture of various components, predominantly methane [3]. The use of natural gas for electric power generation offers several advantages compared to other fossil fuels [8]. It has high fuel efficiency and its cleaner compare to coal and petroleum [9]. A review reported by Gür [21] revealed the prospects of efficient electricity generation by the conversion of methane in solid oxide fuel cells. The study revealed that the electrochemical conversion of methane in solid oxide fuel offers a great potential for efficient generation of electricity [22]. The efficient conversion of natural gas to value-added products is key to its sustainable utilization. The literature considered in this review was published between 1998 and 2020
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