In a recent interview with Corpradar, Mr. Rohit Vohra, CEO of Jindal Panther Cement, provided a valuable information on the manufacturing process, environment impact, and the latest advancements in cement technology.
Jindal Cement is addressing the challenge of reducing CO2 emissions in its production process through various initiatives and technologies. They are implementing measures to achieve carbon neutrality and promote sustainable production. They are also exploring the use of alternative fuels and raw materials, such as biomass and waste-derived fuels, to replace traditional fossil fuels. These initiatives contribute to a significant reduction in CO2 emissions.
To reduce CO2 emissions, Cement companies can invest in advanced technologies such as carbon capture and storage (CCS) systems, which capture and store carbon dioxide emitted during the cement manufacturing process.
Jindal Panther Cement offers eco-friendly cement products that include Portland Slag Cement (PSC), Portland Composite Cement (PCC), and Ground-granulated blast-furnace slag (GGBS).
These products have key advantages and characteristics:
Portland Slag Cement (PSC): PSC is a blended cement that incorporates granulated blast furnace slag, which is a by-product of iron production. PSC offers enhanced durability, reduced heat of hydration, improved workability, and higher resistance to chloride and sulfate attacks compared to ordinary Portland cement (OPC).
Portland Composite Cement (PCC): PCC is a combination of OPC and supplementary cementitious materials such as fly ash, silica fume, and slag. It provides higher compressive strength, improved durability, and reduced permeability. PCC is suitable for a wide range of construction applications.
Ground-granulated blast-furnace slag (GGBS): GGBS is a by-product of the iron-making industry and is used as a partial replacement for OPC in cement production. It improves the workability of concrete, reduces heat of hydration, enhances long-term strength, and offers resistance to alkali-silica reaction.
Jindal Panther Cement plans to expand its production capacity while maintaining an eco-friendly approach. They aim to meet the increasing demand for sustainable construction materials by investing in new production facilities and adopting advanced technologies. Jindal Cement also plans to continue its research and development efforts to further innovate and enhance the sustainability of their cement products.
In terms of clean energy usage in logistics, Jindal Cement is taking steps to incorporate sustainable alternatives. They are exploring the adoption of electric or hydrogen-powered transport in their supply chain. Jindal Cement is likely to have partnerships or collaborations in place with relevant stakeholders to achieve this goal, such as electric vehicle manufacturers, hydrogen infrastructure providers, and logistics service providers specializing in sustainable transportation.
To minimize waste and maximize resource efficiency in its manufacturing processes, Jindal Cement has implemented steps for material reclamation and optimizing raw material selection. They focus on minimizing waste generation and maximizing the utilization of raw materials, including the utilization of by-products and alternative materials in cement production. This approach helps reduce environmental impact and promotes resource conservation.
The brand is embracing automation, digital technologies, and data analysis to increase efficiency and optimize production operations. They are likely implementing sensors, remote diagnostics, and intelligent control systems to monitor and control various aspects of their production processes. These technologies enable real-time monitoring, predictive maintenance, and continuous optimization, leading to improved efficiency and productivity.
In terms of cement traceability, They are likely to use technologies such as blockchain or unique identifiers to track and monitor the movement of cement from production to delivery. This brings benefits in terms of monitoring the quality and environmental performance of the cement, ensuring compliance with standards, and facilitating targeted improvements.