Life Cycle Assessment of Solid Recovered Fuel Gasification in the State of Qatar

Al-Moftah, Ahmad Mohamed S. H.; Marsh, Richard; Steer, Julian Mark

doi:10.3390/chemengineering5040081

Cited by 8 publications

(3 citation statements)

References 29 publications

(51 reference statements)

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“…Preliminary laboratory-scale studies on understanding the thermal decomposition behavior of plastic and nonrecyclable waste have been undertaken with promising results for upscaling technologies [29]. Subsequently, the lifecycle assessment of solid-recovered-fuels gasification in Qatar has shown immense promise due to reduced environmental impacts and dependence on natural gas for electricity generation, which is in line with Qatar's National Vision 2030 [30]. On the other hand, research points to the fact that these interventions need to be part of a broader energy systems transformation, such as improving energy-efficient buildings (which are necessary for Qatar due to rising energy demand).…”

Section: Energymentioning

confidence: 98%

Waste Management in Qatar: A Systematic Literature Review and Recommendations for System Strengthening

et al. 2022

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Billions of tons of waste are generated annually, with the amount of waste rapidly increasing and its management expected to worsen. Qatar is a small and wealthy country in the Arabian Peninsula that is undergoing enormous economic and urban development. This study presents the results of a systematic literature review on waste management in Qatar and offers recommendations for system strengthening based on an analysis of the available evidence. The PRISMA guidelines were followed to review literature from the ProQuest and SCOPUS platforms, from which 82 unique publications were analyzed according to ten themes. The results draw upon diverse disciplinary and research focus areas related to waste management, ranging from the generation of value-added products from wastes to the role of religion in waste management awareness. The main recommendations emerging from the available evidence include the need for a holistic approach to address increasing waste generation, which must include diverse stakeholders such as government entities, researchers, and broad community representation for decision making as well as raising awareness for behavior change. Additionally, the main waste types, including construction, food, plastic, and electronic wastes, require specific attention since the cause of generation and type of management varies accordingly. The rise of interest in improving waste management, in particular to work toward meeting the targets of the Qatar National Vision and the National Development Strategy should bring about positive outcomes for strengthening waste management systems.

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Section: Energymentioning

confidence: 98%

Waste Management in Qatar: A Systematic Literature Review and Recommendations for System Strengthening

et al. 2022

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“…Al-Moftah et al [20] has studied in his work the life cycle assessment (LCA) of SRF gasification in an updraft unit as alternative replacement for natural gas. The LCA analysis had shown very promising scenarios with positive environmental impact.…”

Section: Gasification Process and Producer Gas Qualitymentioning

confidence: 99%

Evaluation and Safety Assessment of Biomass-/Waste-Generated Producer Gas

Čespiva

Skřínský

Vereš

et al. 2022

WIT Transactions on Ecology and the Environment

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The production of synthetic gas and alternative liquid fuels, based on renewable and waste source materials, is an emerging topic. With growing energy demand and increasing CO2 concentration within the atmosphere, caused by excessive fossil fuels combustion, alternative ways of energy utilisation, storage and transformation are intensely being sought and developed. Combining technologies of gasification and Fischer-Tropsch catalytic synthesis of biomass/waste materials can provide not only a possibility to replace fossil fuels extraction, but it can partially solve the issue of growing amounts of unprocessed waste materials. The 200 kW power input technology for gasification of biomass/waste materials with sliding bed, cross/updraft reactor was used to perform experimental measurements of conversion of waste materials into producer gas. This gas, with potential to be used as a source gas for catalytic synthesis was examined from quality and safety points of view. The composition and suitability for its utilisation was evaluated, as well as safety assessment in terms of its explosivity was determined. The latter mentioned was carried out in 1 m 3 spherical explosion vessel to determine pressure rise during the explosion of the producer gas. The results showed interesting differences between measured data and mathematical model, probably caused by the presence of other substances, such as tar compound, solid particles and other pollutants.

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“…Moreover, SRF has become important to the global energy transition, mainly due to the goals assumed by countries in the Paris Agreement to reduce CO 2 emissions. For instance, using SRF gasification can reduce the environmental impact of MSW landfills and the reliance on natural gas in electricity generation [20]. Incineration plants as well as industrial coincineration plants have exploited the potential of SRF to fulfill their own heat/electricity demand or somewhere else, which can also benefit economically from placing electricity in the national grid [21].…”

Section: Introductionmentioning

confidence: 99%

Production of Solid Recovered Fuel from the Rejected Fraction of Recyclable Materials from Waste Picker Cooperatives: A Case Study in Brazil

Piaia

Cavali

Nadaleti

et al. 2023

Biomass

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This study evaluated the feasibility of producing solid recovered fuel (SRF) from rejected waste from waste picker cooperatives (WPC). Three scenarios using different SRF and petroleum coke proportions in cement kilns were assessed. The samples of rejected waste from WPC were obtained in the city of Florianópolis, Brazil, and their physical and chemical characteristics were determined. Furthermore, the avoided atmospheric emissions by replacing conventional cement fuel with SRF and the costs to implement a SRF facility were estimated. According to the results, 60.29% of the waste from WPC could be used for energy recovery. Out of the materials eligible to produce SRF, 75.26% are made up of plastic packaging and paper. Concerning atmospheric emissions, replacing petroleum coke with SRF for direct feeding into the clinker kiln contributed to a reduction of 4.83%, 14.73%, and 13.37% in the atmospheric emissions for Scenario 1, Scenario 2, and Scenario 3, respectively. Furthermore, considering two hypothetical SRF industrial plants with capacities of 522 and 720 t/day, each ton of SRF produced would cost about USD 6.00, representing a decrease of 35 times in the costs when compared to petroleum coke. Therefore, SRF from the rejected fraction of WPC could be an alternative waste-to-energy approach.

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Life Cycle Assessment of Solid Recovered Fuel Gasification in the State of Qatar

Cited by 8 publications

References 29 publications

Waste Management in Qatar: A Systematic Literature Review and Recommendations for System Strengthening

Waste Management in Qatar: A Systematic Literature Review and Recommendations for System Strengthening

Evaluation and Safety Assessment of Biomass-/Waste-Generated Producer Gas

Production of Solid Recovered Fuel from the Rejected Fraction of Recyclable Materials from Waste Picker Cooperatives: A Case Study in Brazil

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