Exergy life cycle assesment of Ni-based catalyst synthesis processes
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Within the life cycle assessment, exergy analysis is one of the specific approaches to evaluate impacts on the environment through the quality of energy which is degraded during the production process [1]. Exergy can be described as a measure of resources depletion and it can be used to evaluate the process efficiency. Comparative assessment of product and processes through life cycle assessment is often used to identify the differences and environmental hotspots. This research applies exergy life cycle assessment to compare different Ni-based catalysts synthesis processes. In previous research [2,3] the authors compared novel Ni-Pd/Al2O3 catalyst synthesis processes with other ones from environmental and performance point of view. Idea of this research is to calculate the impacts on the environment by the total exergy consumption of Ni-based catalyst processes and to compare these results with the results from previous research. Compared with other Ni-based catalyst synthesis processe...s, the assessment results confirm the previous findings that the novel Ni-Pd/Al2O3 catalyst synthesis process has the smallest environmental impact. Furthermore, exergy life cycle assessment provided insight into impacts on the non-renewable and renewable resources.
Ključne reči:
exergy / life cycle assessment / Ni-based catalystsIzvor:
Proceedings of the 24th International Symposium on Analytical and Environmental Problems Szeged, Hungary October 8-9, 2018, 2018, 5-5Izdavač:
- University of Szeged
Finansiranje / projekti:
- Inovativna sinergija nus-produkata, minimizacije otpada i čistije proizvodnje u metalurgiji (RS-34033)
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Institucija/grupa
Inovacioni centar / Innovation CentreTY - CONF AU - Agarski, Boris AU - Nikolić, Vesna AU - Kamberović, Željko AU - Anđić, Zoran AU - Kosec, Borut AU - Budak, Igor PY - 2018 UR - http://cherry.chem.bg.ac.rs/handle/123456789/5052 AB - Within the life cycle assessment, exergy analysis is one of the specific approaches to evaluate impacts on the environment through the quality of energy which is degraded during the production process [1]. Exergy can be described as a measure of resources depletion and it can be used to evaluate the process efficiency. Comparative assessment of product and processes through life cycle assessment is often used to identify the differences and environmental hotspots. This research applies exergy life cycle assessment to compare different Ni-based catalysts synthesis processes. In previous research [2,3] the authors compared novel Ni-Pd/Al2O3 catalyst synthesis processes with other ones from environmental and performance point of view. Idea of this research is to calculate the impacts on the environment by the total exergy consumption of Ni-based catalyst processes and to compare these results with the results from previous research. Compared with other Ni-based catalyst synthesis processes, the assessment results confirm the previous findings that the novel Ni-Pd/Al2O3 catalyst synthesis process has the smallest environmental impact. Furthermore, exergy life cycle assessment provided insight into impacts on the non-renewable and renewable resources. PB - University of Szeged C3 - Proceedings of the 24th International Symposium on Analytical and Environmental Problems Szeged, Hungary October 8-9, 2018 T1 - Exergy life cycle assesment of Ni-based catalyst synthesis processes SP - 5 EP - 5 UR - https://hdl.handle.net/21.15107/rcub_cherry_5052 ER -
@conference{ author = "Agarski, Boris and Nikolić, Vesna and Kamberović, Željko and Anđić, Zoran and Kosec, Borut and Budak, Igor", year = "2018", abstract = "Within the life cycle assessment, exergy analysis is one of the specific approaches to evaluate impacts on the environment through the quality of energy which is degraded during the production process [1]. Exergy can be described as a measure of resources depletion and it can be used to evaluate the process efficiency. Comparative assessment of product and processes through life cycle assessment is often used to identify the differences and environmental hotspots. This research applies exergy life cycle assessment to compare different Ni-based catalysts synthesis processes. In previous research [2,3] the authors compared novel Ni-Pd/Al2O3 catalyst synthesis processes with other ones from environmental and performance point of view. Idea of this research is to calculate the impacts on the environment by the total exergy consumption of Ni-based catalyst processes and to compare these results with the results from previous research. Compared with other Ni-based catalyst synthesis processes, the assessment results confirm the previous findings that the novel Ni-Pd/Al2O3 catalyst synthesis process has the smallest environmental impact. Furthermore, exergy life cycle assessment provided insight into impacts on the non-renewable and renewable resources.", publisher = "University of Szeged", journal = "Proceedings of the 24th International Symposium on Analytical and Environmental Problems Szeged, Hungary October 8-9, 2018", title = "Exergy life cycle assesment of Ni-based catalyst synthesis processes", pages = "5-5", url = "https://hdl.handle.net/21.15107/rcub_cherry_5052" }
Agarski, B., Nikolić, V., Kamberović, Ž., Anđić, Z., Kosec, B.,& Budak, I.. (2018). Exergy life cycle assesment of Ni-based catalyst synthesis processes. in Proceedings of the 24th International Symposium on Analytical and Environmental Problems Szeged, Hungary October 8-9, 2018 University of Szeged., 5-5. https://hdl.handle.net/21.15107/rcub_cherry_5052
Agarski B, Nikolić V, Kamberović Ž, Anđić Z, Kosec B, Budak I. Exergy life cycle assesment of Ni-based catalyst synthesis processes. in Proceedings of the 24th International Symposium on Analytical and Environmental Problems Szeged, Hungary October 8-9, 2018. 2018;:5-5. https://hdl.handle.net/21.15107/rcub_cherry_5052 .
Agarski, Boris, Nikolić, Vesna, Kamberović, Željko, Anđić, Zoran, Kosec, Borut, Budak, Igor, "Exergy life cycle assesment of Ni-based catalyst synthesis processes" in Proceedings of the 24th International Symposium on Analytical and Environmental Problems Szeged, Hungary October 8-9, 2018 (2018):5-5, https://hdl.handle.net/21.15107/rcub_cherry_5052 .