K. Krause scite author profile

K. Krause

5Publications

24Citation Statements Received

24Citation Statements Given

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Ruhr University Bochum

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Creating a Resource Cadaster—A Case Study of a District in the Rhine-Ruhr Metropolitan Area

2017

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Today, both resource efficiency in general and the efficient use of natural resources specifically in the building sector are major political issues. Recent studies on resource efficiency have found the "anthropogenic stock" of the building sector to outweigh natural resource stocks. To make the anthropogenic stock accessible, material quantities with their individual composition need to be estimated and extrapolated to regional level. A geographical information system (GIS) is used as tool to handle the building specific data and combine them on regional level to calculate the anthropogenic stock. The resulting resource cadaster reflects the material quantities, divided into sixteen material fractions, of a specific residential district in the Rhine-Ruhr metropolitan area-a typical urban area in Germany. The case study area was weighted in total between 103.5 kt and 93 kt, depending on the dataset. This paper offers a step-by-step description of this approach, whereby a consistent dataset was created throughout the process of data collection and validation. In order to demonstrate the broader application of the resource cadaster, the results were extrapolated to the residential building sector of the entire federal state of North Rhine-Westphalia. In highly concentrated areas, like the Rhine-Ruhr Metropolitan area, both area-wide classification of material quantities and their regional localization are necessary to make the anthropogenic stock accessible. Information about toxic substances, however, also needs to be included in the process of data collection. This method of mapping could thus provide the foundation for future (re)uses of this stock. This study offers some concrete steps in the direction of achieving a circular economy.

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Parametric excitation of backward ion cyclotron wave with a pump in the lower hybrid range

1979

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Parametric decay below the upper hybrid frequency

Albers¹,

Krause²,

Schlüter³

1977

Physics Letters A

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Modell der Recyclingfähigkeit auf Bauteilebene

et al. 2020

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Eine konsistente Kreislaufführung der zur Verfügung stehenden Ressourcen ist eine der großen Herausforderungen für das Bauen in der Zukunft. Dieser Aufsatz liefert einen Beitrag hinsichtlich der Diskussion und Weiterentwicklung der Recyclingfähigkeit im Bauwesen. Es wird ein Modell vorgestellt, das über die reine Betrachtung von Baustoffen hinausgeht und die Recyclingfähigkeit von bestehenden oder neu zu errichtenden Baukonstruktionen insgesamt beschreibt. Auf diese Weise rücken Aspekte der Fügung und Lösbarkeit der einzelnen Baustoffe sowie Errichtungs‐ und Rückbauprozesse in den Vordergrund. Bei der Entwicklung des Modells wurde darauf geachtet, dass seine Struktur kompatibel ist mit bestehenden Klassifizierungen und Kategorien und an bestehende Rahmenbedingungen und Methoden anknüpft. Das Modell bietet mittelfristig eine Grundlage für eine ganzheitliche Entwicklung und Diskussion der Kreislaufführung im Bauwesen und soll langfristig einen Beitrag zur Entwicklung eines Nachweisverfahrens zur Abbildung einer nachhaltigen Nutzung natürlicher Ressourcen liefern.

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Parametric decay near the lower hybrid frequency and its influence on ion temperature

Krause¹,

Luthen²,

Schlüter³

1980

Plasma Phys.

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K. Krause

Creating a Resource Cadaster—A Case Study of a District in the Rhine-Ruhr Metropolitan Area

Parametric excitation of backward ion cyclotron wave with a pump in the lower hybrid range

Parametric decay below the upper hybrid frequency

Modell der Recyclingfähigkeit auf Bauteilebene

Parametric decay near the lower hybrid frequency and its influence on ion temperature

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