Utilizing Carbonated Reclaimed Water as Concrete Mixing Water: Improved CO<sub>2</sub> Uptake and Compressive Strength. [PDF]
Materials (Basel)Moon H +6 more
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Analysis of CHP plant in cement production industries for optimization of energy consumption
, 2019 Mehran Alipour, Zahra Baniamerian
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Multi-Dimensional Assessment of Low-Carbon Engineering Cement-Based Composites Based on Rheological, Mechanical and Sustainability Factors. [PDF]
Materials (Basel)Jiang Z +5 more
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Clam Shell Powder as Cement Substitution in Concrete Production
Afagh Malek +6 more
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Mechanical performance of sustainable concrete containing industrial waste admixtures of SF, FA, CCI, and crushed quartz at different water-binder ratios. [PDF]
Sci RepAhmad SSE, Graf AAA, Bneni MK.
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Synergistic effects of rice husk ash and extracted microsilica on the performance of high-strength concrete. [PDF]
Sci RepUllah MF, Tang H, Ullah A, Khan K.
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Influence of ageing of graphene oxide on the properties and morphology of cement mortar. [PDF]
Sci RepGanesh S +3 more
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Investigation of the Hydration and Solidification Effect of Peanut Ash Cement-Based Stabilizer in Soft Clay Treatment. [PDF]
Materials (Basel)Qiu Y, Fan Q, Zhang K.
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Decarbonizing cement production
Joule, 2021Paul Fennell is a professor of clean energy at the Department of Chemical Engineering, Imperial College London. His work encompasses the decarbonization and re-thinking of industrial processes, including the production of iron and steel and cement manufacture. He also works in the broader field of industrial decarbonization, including synergies between
Paul S. Fennell +2 more
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