Jeong Gook Jang scite author profile

The cement industry is facing numerous challenges in the 21st century due to depleting natural fuel resources, shortage of raw materials, exponentially increasing cement demand and climate linked environmental concerns. Every tonne of ordinary Portland cement (OPC) produced releases an equivalent amount of carbon dioxide to the atmosphere. In this regard, cement manufactured from locally available minerals and industrial wastes that can be blended with OPC as substitute, or full replacement with novel clinkers to reduce the energy requirements is strongly desirable. Reduction in energy consumption and carbon emissions during cement manufacturing can be achieved by introducing alternative cements. The potential of alternative cements as a replacement of conventional OPC can only be fully realized through detailed investigation of binder properties with modern technologies. Seven prominent alternative cement types are considered in this study and their current position compared to OPC has been discussed. The study provides a comprehensive analysis of options for future cements, and an up-to-date summary of the different alternative fuels and binders that can be used in cement production to mitigate carbon dioxide emissions. In addition, the practicalities and benefits of producing the low-cost materials to meet the increasing cement demand are discussed.

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Highly proton conductive, dense polybenzimidazole membranes with low permeability to vanadium and enhanced H₂SO₄absorption capability for use in vanadium redox flow batteries

Jang

et al. 2016

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Microstructural densification and CO2 uptake promoted by the carbonation curing of belite-rich Portland cement

Jang

Lee

2016

Cement and Concrete Research

271

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Jeong Gook Jang

Shrinkage characteristics of alkali-activated fly ash/slag paste and mortar at early ages

Fresh and hardened properties of alkali-activated fly ash/slag pastes with superplasticizers

Recent Progress in Green Cement Technology Utilizing Low-Carbon Emission Fuels and Raw Materials: A Review

Highly proton conductive, dense polybenzimidazole membranes with low permeability to vanadium and enhanced H₂SO₄absorption capability for use in vanadium redox flow batteries

Microstructural densification and CO2 uptake promoted by the carbonation curing of belite-rich Portland cement

Contact Info

Product

Resources

About

Jeong Gook Jang

Shrinkage characteristics of alkali-activated fly ash/slag paste and mortar at early ages

Fresh and hardened properties of alkali-activated fly ash/slag pastes with superplasticizers

Recent Progress in Green Cement Technology Utilizing Low-Carbon Emission Fuels and Raw Materials: A Review

Highly proton conductive, dense polybenzimidazole membranes with low permeability to vanadium and enhanced H2SO4absorption capability for use in vanadium redox flow batteries

Microstructural densification and CO2 uptake promoted by the carbonation curing of belite-rich Portland cement

Contact Info

Product

Resources

About

Highly proton conductive, dense polybenzimidazole membranes with low permeability to vanadium and enhanced H₂SO₄absorption capability for use in vanadium redox flow batteries