ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

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Digitales Nachhaltigkeitsmanagement in Unternehmen : ein serviceorientierter Ansatz zur Entwicklung einer Plattform für datengestütztes Nachhaltigkeitsdatenmanagement (2022)

Geibler, Justus von ; Brandt, Julia ; Waltersmann, Lara ; [et al.]

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Publication Date: 2023-12-08

Description: Die Stärkung der Digitalisierung im Nachhaltigkeitsmanagement und das Schaffen einer einheitlichen sowie konsistenten Datenbasis können Unternehmen maßgeblich unterstützen, steigenden Nachhaltigkeitsanforderungen zu entsprechen und die Transparenz zur Nachhaltigkeit des Wirtschaftens zu gewährleisten. Dieser Beitrag stellt Anforderungen und einen serviceorientierten Ansatz zur Entwicklung einer Plattform für datengestütztes Nachhaltigkeitsmanagement in produzierenden Unternehmen vor.

Keywords: ddc:330

Repository Name: Wuppertal Institut für Klima, Umwelt, Energie

Language: German

Type: article , doc-type:article

Format: application/pdf

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Regional carbon footprints of households: a German case study (2015)

Miehe, Robert ; Scheumann, Rene ; Jones, Christopher M. ; [et al.]

Springer

In: Environment, Development and Sustainability. 2015; 18(2): 577-591. Published 2015 Feb 26. doi: 10.1007/s10668-015-9649-7.

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Publication Date: 2015-02-26

Print ISSN: 1387-585X

Electronic ISSN: 1573-2975

Topics: Energy, Environment Protection, Nuclear Power Engineering , Sociology

Published by Springer

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Tackling xEV Battery Chemistry in View of Raw Material Supply Shortfalls (2020)

Karabelli, Duygu ; Kiemel, Steffen ; Singh, Soumya ; [et al.]

Frontiers Media

In: Frontiers in Energy Research. 2020; 8: Published 2020 Nov 24. doi: 10.3389/fenrg.2020.594857.

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Publication Date: 2020-11-24

Description: The growing number of Electric Vehicles poses a serious challenge at the end-of-life for battery manufacturers and recyclers. Manufacturers need access to strategic or critical materials for the production of a battery system. Recycling of end-of-life electric vehicle batteries may ensure a constant supply of critical materials, thereby closing the material cycle in the context of a circular economy. However, the resource-use per cell and thus its chemistry is constantly changing, due to supply disruption or sharply rising costs of certain raw materials along with higher performance expectations from electric vehicle-batteries. It is vital to further explore the nickel-rich cathodes, as they promise to overcome the resource and cost problems. With this study, we aim to analyze the expected development of dominant cell chemistries of Lithium-Ion Batteries until 2030, followed by an analysis of the raw materials availability. This is accomplished with the help of research studies and additional experts’ survey which defines the scenarios to estimate the battery chemistry evolution and the effect it has on a circular economy. In our results, we will discuss the annual demand for global e-mobility by 2030 and the impact of Nickel-Manganese-Cobalt based cathode chemistries on a sustainable economy. Estimations beyond 2030 are subject to high uncertainty due to the potential market penetration of innovative technologies that are currently under research (e.g. solid-state Lithium-Ion and/or sodium-based batteries).

Electronic ISSN: 2296-598X

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by Frontiers Media

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Market Perspectives and Future Fields of Application of Odor Detection Biosensors within the Biological Transformation—A Systematic Analysis (2021)

Full, Johannes ; Baumgarten, Yannick ; Delbrück, Lukas ; [et al.]

Molecular Diversity Preservation International

In: Biosensors. 2021; 11(3): 93. Published 2021 Mar 23. doi: 10.3390/bios11030093.

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Publication Date: 2021-03-23

Description: The technological advantages that biosensors have over conventional technical sensors for odor detection and the role they play in the biological transformation have not yet been comprehensively analyzed. However, this is necessary for assessing their suitability for specific fields of application as well as their improvement and development goals. An overview of biological basics of olfactory systems is given and different odor sensor technologies are described and classified in this paper. Specific market potentials of biosensors for odor detection are identified by applying a tailored methodology that enables the derivation and systematic comparison of both the performance profiles of biosensors as well as the requirement profiles for various application fields. Therefore, the fulfillment of defined requirements is evaluated for biosensors by means of 16 selected technical criteria in order to determine a specific performance profile. Further, a selection of application fields, namely healthcare, food industry, agriculture, cosmetics, safety applications, environmental monitoring for odor detection sensors is derived to compare the importance of the criteria for each of the fields, leading to market-specific requirement profiles. The analysis reveals that the requirement criteria considered to be the most important ones across all application fields are high specificity, high selectivity, high repeat accuracy, high resolution, high accuracy, and high sensitivity. All these criteria, except for the repeat accuracy, can potentially be better met by biosensors than by technical sensors, according to the results obtained. Therefore, biosensor technology in general has a high application potential for all the areas of application under consideration. Health and safety applications especially are considered to have high potential for biosensors due to their correspondence between requirement and performance profiles. Special attention is paid to new areas of application that require multi-sensing capability. Application scenarios for multi-sensing biosensors are therefore derived. Moreover, the role of biosensors within the biological transformation is discussed.

Electronic ISSN: 2079-6374

Topics: Biology

Published by Molecular Diversity Preservation International

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Market Perspectives and Future Fields of Application of Odor Detection Biosensors—A Systematic Analysis (2020)

Full, Johannes ; Delbrück, Lukas ; Sauer, Alexander ; [et al.]

Molecular Diversity Preservation International

In: Proceedings. 2020; 60(1): 40. Published 2020 Nov 24. doi: 10.3390/iecb2020-07029.

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Publication Date: 2020-11-24

Description: The technological advantages that biosensors have over conventional technical sensors for odor detection have not yet been comprehensively analyzed. However, this is necessary for assessing their suitability for specific fields of application as well as their improvement and development goals. In this paper specific market potentials of biosensors for odor detection are identified by applying a tailored methodology that enables the derivation and systematic comparison of both the performance profiles of biosensors as well as the requirement profiles for various application fields. Therefore, the fulfillment of defined requirements is evaluated for biosensors by means of 16 selected technical criteria in order to determine a specific performance profile. Further, a selection of application fields for odor detection sensors is derived to compare the importance of the criteria for each of the fields, leading to market-specific requirement profiles. The analysis reveals that the requirement criteria considered to be the most important ones across all application fields are high specificity, high selectivity, high repeat accuracy, high resolution, high accuracy, and high sensitivity. All these criteria, except for the repeat accuracy, can potentially be better met by biosensors than by technical sensors, according to the results obtained. Therefore, biosensor technology in general has a high application potential for all the areas of application under consideration. Health and safety applications especially are considered to have high potential for biosensors due to their correspondence between requirement and performance profiles.

Electronic ISSN: 2504-3900

Topics: Technology

Published by Molecular Diversity Preservation International

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A New Perspective for Climate Change Mitigation—Introducing Carbon-Negative Hydrogen Production from Biomass with Carbon Capture and Storage (HyBECCS) (2021)

Full, Johannes ; Merseburg, Steffen ; Miehe, Robert ; [et al.]

Molecular Diversity Preservation International

In: Sustainability. 2021; 13(7): 4026. Published 2021 Apr 05. doi: 10.3390/su13074026.

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Publication Date: 2021-04-05

Description: The greatest lever for advancing climate adaptation and mitigation is the defossilization of energy systems. A key opportunity to replace fossil fuels across sectors is the use of renewable hydrogen. In this context, the main political and social push is currently on climate neutral hydrogen (H2) production through electrolysis using renewable electricity. Another climate neutral possibility that has recently gained importance is biohydrogen production from biogenic residual and waste materials. This paper introduces for the first time a novel concept for the production of hydrogen with net negative emissions. The derived concept combines biohydrogen production using biotechnological or thermochemical processes with carbon dioxide (CO2) capture and storage. Various process combinations referred to this basic approach are defined as HyBECCS (Hydrogen Bioenergy with Carbon Capture and Storage) and described in this paper. The technical principles and resulting advantages of the novel concept are systematically derived and compared with other Negative Emission Technologies (NET). These include the high concentration and purity of the CO2 to be captured compared to Direct Air Carbon Capture (DAC) and Post-combustion Carbon Capture (PCC) as well as the emission-free use of hydrogen resulting in a higher possible CO2 capture rate compared to hydrocarbon-based biofuels generated with Bioenergy with Carbon Capture and Storage (BECCS) technologies. Further, the role of carbon-negative hydrogen in future energy systems is analyzed, taking into account key societal and technological drivers against the background of climate adaptation and mitigation. For this purpose, taking the example of the Federal Republic of Germany, the ecological impacts are estimated, and an economic assessment is made. For the production and use of carbon-negative hydrogen, a saving potential of 8.49–17.06 MtCO2,eq/a is estimated for the year 2030 in Germany. The production costs for carbon-negative hydrogen would have to be below 4.30 € per kg in a worst-case scenario and below 10.44 € in a best-case scenario in order to be competitive in Germany, taking into account hydrogen market forecasts.

Electronic ISSN: 2071-1050

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by Molecular Diversity Preservation International

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