Investigation of mineralogical composition and technological properties of conventional brick clays

Gömze, László A.; Кулъков, С. Н.; Kurovics, Emese; Buyakov, A. S.; Buyakova, S. P.; Buzimov, A Y; Géber, Róbert; Grigoriev, M. V.; Kocserha, István; Kulkov, A. S.; Sablina, T. Yu.; Савченко, Н. Л.; Sevostyanova, I. N.; Simon, Andrea

doi:10.14382/epitoanyag-jsbcm.2018.2

Cited by 9 publications

(1 citation statement)

References 15 publications

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“…We followed the geographical resolution from this study (for countries included in world regions see SI) and utilized stock estimates for asphalt, concrete, downcycled construction minerals, primary sand and gravel, solid wood products, plastics, papers, and steel. For bricks, aluminum, copper, all other metals, flat glass, and container glass, we assumed zero C content [48,49].…”

Section: Socio-economic Materials Stocksmentioning

confidence: 99%

Society’s material stocks as carbon pool: an economy-wide quantification of global carbon stocks from 1900–2015

Kaufmann,

Wiedenhofer,

Cao

et al. 2024

Environ. Res. Lett.

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Societal activities massively alter the global carbon (C) cycle, thereby driving global climate heating. Socioeconomic material stocks – e.g., in buildings and infrastructures – have been identified as a C pool that can potentially store increasing amounts of C, thereby keeping C away from the atmosphere. However, little is known about the size, composition, distribution and development of global socioeconomic C stocks. Based on an established economy-wide C accounting approach from sociometabolic research, we consistently and comprehensively quantified the C contained in eight components of socioeconomic stocks in the period 1900-2015 at the level of nine world regions. We discern inert (aggregates & other gravel) and ‘active’ climate-relevant (i.e., biomass and fossil-fuel based) C pools. We find that global active components of socioeconomic C stocks grew by a factor of 9, from 1.9 (1.5-2.2) Pg of carbon (PgC) to 16.8 (13.7-20.2) PgC. The inert socioeconomic C stock in aggregates & other gravel amounted to 25.2 (6.1-48.0) PgC in 2015, however with high uncertainties. Absolute annual Net Additions to Stock (NAS) of active stock components was 0.49 (0.40-0.59) PgC/yr which equalled 5% of the C emissions from fossil fuel combustion and industrial processes. However, raising NAS of components with biomass feedstock that sequester C from the atmosphere comes with biodiversity and food security trade-offs. This study contributes to a holistic perspective on social and natural C stocks that acknowledges their interactions. The global socioeconomic C stock reached a geologically relevant extent (approximately the size of C in coasts) and should therefore be integrated in the assessments of the global C cycle to acknowledge the Anthropocene.

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Section: Socio-economic Materials Stocksmentioning

confidence: 99%