Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Solid waste-based low-carbon high-iron phase-belite system concrete and synergistic solid waste carbon sequestration method thereof
The invention relates to the field of building materials and concrete, in particular to solid-waste-based low-carbon high-iron phase-belite system concrete and a synergistic solid-waste carbon sequestration method of the solid-waste-based low-carbon high-iron phase-belite system concrete. In the prior art, no related patent exists in the aspects of all-solid-waste-based belite cement, all-solid-waste-based belite cement concrete, all-solid-waste-based high-iron phase-belite system cement clinker, and synergistic carbon sequestration by using solid waste and solid-waste-based high-iron phase-belite system cement clinker. In order to make up the technical blank, the invention innovatively provides an innovative preparation concept of cooperative complementary utilization and hierarchical transition of multi-source solid wastes, and firstly provides the all-solid-waste-based low-carbon high-iron-phase belite cement and the preparation method thereof. Furthermore, the invention provides a preparation method of the all-solid-waste-based low-carbon high-iron phase-belite system concrete. Furthermore, the invention also provides an all-solid-waste-based low-carbon high-iron phase-belite system concrete synergistic solid waste and carbon sequestration method.
本发明涉及建筑材料及混凝土领域,具体涉及一种固废基低碳型高铁相‑贝利特体系混凝土及其协同固废固碳方法。现有技术在全固废基贝利特水泥、全固废基贝利特水泥混凝土、全固废基高铁相‑贝利特体系水泥熟料以及利用固体废弃物和固废基高铁相‑贝利特体系水泥熟料协同固碳方面无相关专利。为了弥补上述技术空白,本发明创新型的提出了多源固废协同互补利用和层级跃迁的创新制备理念,首先提供了一种全固废基低碳型高铁相‑贝利特水泥及其制备方法。进一步的,本发明提供了一种全固废基低碳型高铁相‑贝利特体系混凝土制备方法。进一步的,本发明还提供了一种全固废基低碳型高铁相‑贝利特体系混凝土协同固废固碳方法。
Solid waste-based low-carbon high-iron phase-belite system concrete and synergistic solid waste carbon sequestration method thereof
The invention relates to the field of building materials and concrete, in particular to solid-waste-based low-carbon high-iron phase-belite system concrete and a synergistic solid-waste carbon sequestration method of the solid-waste-based low-carbon high-iron phase-belite system concrete. In the prior art, no related patent exists in the aspects of all-solid-waste-based belite cement, all-solid-waste-based belite cement concrete, all-solid-waste-based high-iron phase-belite system cement clinker, and synergistic carbon sequestration by using solid waste and solid-waste-based high-iron phase-belite system cement clinker. In order to make up the technical blank, the invention innovatively provides an innovative preparation concept of cooperative complementary utilization and hierarchical transition of multi-source solid wastes, and firstly provides the all-solid-waste-based low-carbon high-iron-phase belite cement and the preparation method thereof. Furthermore, the invention provides a preparation method of the all-solid-waste-based low-carbon high-iron phase-belite system concrete. Furthermore, the invention also provides an all-solid-waste-based low-carbon high-iron phase-belite system concrete synergistic solid waste and carbon sequestration method.
本发明涉及建筑材料及混凝土领域,具体涉及一种固废基低碳型高铁相‑贝利特体系混凝土及其协同固废固碳方法。现有技术在全固废基贝利特水泥、全固废基贝利特水泥混凝土、全固废基高铁相‑贝利特体系水泥熟料以及利用固体废弃物和固废基高铁相‑贝利特体系水泥熟料协同固碳方面无相关专利。为了弥补上述技术空白,本发明创新型的提出了多源固废协同互补利用和层级跃迁的创新制备理念,首先提供了一种全固废基低碳型高铁相‑贝利特水泥及其制备方法。进一步的,本发明提供了一种全固废基低碳型高铁相‑贝利特体系混凝土制备方法。进一步的,本发明还提供了一种全固废基低碳型高铁相‑贝利特体系混凝土协同固废固碳方法。
Solid waste-based low-carbon high-iron phase-belite system concrete and synergistic solid waste carbon sequestration method thereof
一种固废基低碳型高铁相-贝利特体系混凝土及其协同固废固碳方法
GAO YIFAN (Autor:in) / LI ZHAOFENG (Autor:in) / WANG ZICHENG (Autor:in) / WANG NANXIN (Autor:in) / SU YANXIN (Autor:in)
15.11.2022
Patent
Elektronische Ressource
Chinesisch
IPC:
C04B
Kalk
,
LIME
| Europäisches Patentamt | 2024
| Europäisches Patentamt | 2024
| Europäisches Patentamt | 2024
| Europäisches Patentamt | 2022
| Europäisches Patentamt | 2023