Cement Manufacturers Association (CMA)

The KCP Limited Abstract The components and quantities of atmospheric emissions have been reported as the pollution indicators of large urban areas. The multiplicity and complexity of sources of atmospheric emissions in urban regions have put forward the need of this study. The speed in concretization and urbanization has put a demand on manufacturing cement in bulk quantity. This, directly and indirectly, make atmospheric CO 2 The emission may be due to raw material used in the process or due to improper combustion in the process. In this article, we to reduce carbon emissions and also the Calcium Looping Cycle system. Introduction In India, the major cement consuming sectors include: housing and real estate (65%), infrastructure (25%), and commercial and industrial development (10%) ( AEEE 2021 ). In 2021-22, India had an annual cement consumption of 379 million tons, which is expected to increase up to 550 million tons by 2025 ( Statista 2022 ). The implementation of carbon capture, use, and storage in the cement industry is a necessity, not an option, if the climate targets are to be met. Although no capture technology has reached commercial-scale demonstration in the cement sector yet, much progress has been made in the last decade. This work intends to provide a general overview of the CO capture technologies that have been evaluated so far in the cement industry at the pilot scale, and also about the current plans for future commercial demonstration (Plaza et al 2020). Globally, the main producer of cement is China (55%), followed in the far distance by India (8%). The market is expected to grow in the forthcoming decades up to 12–23% by 2050, as a result of the increasing global population and urbanization trends, coupled with infrastructure development needs ( IEA 2018, 2020 ). India’s journey towards becoming a robust economy is largely dependent on the growth of its industrial sector, with cement being the most produced commodity in it. EFFECTIVE CARBON REDUCTION TECHNIQUES FOR THE CEMENT INDUSTRY Page 13