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Digitisation can be the strong pillar of innovation & sustainability

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Neeraj Akhoury, CEO India LafargeHolcim,and MD & CEO of Ambuja Cements Limited

How is the adoption rate of technology in the cement industry? Why do you think it is important for cement players to embrace technology?

The world has been witnessing a technological and digital transformation and the cement industry is not an exception. Like any other industry, cement companies too need to fast-track digital adoption to deliver long-term and sustainable value propositions.

Often known to be contributors to environment pollution, the adoption of technology by cement companies can help ensure efficiencies in manufacturing and supply chain. Furthermore, digital technology and digitisation can be the strong pillars of innovation and sustainability.

Technology is also a great enabler for the industry to move in the right direction as far as race towards net zero carbon emission is considered. The increased focus of the industry on achieving carbon neutrality and energy efficiency can be achieved through embracing a two-pronged approach: digitalisation and innovation.

In an ever-evolving business environment, organisations which embrace technology and remain focused on digital innovation, intelligent use of data and excellence in customer services can lead the way.

At Ambuja Cement and ACC, we have been harnessing digital technologies across the curve, from targeting increase in operational efficiencies to strategic data-driven decision-making that is helping us continue in our endeavour to be an innovative and responsible organisation by building sustainable, innovative and differentiated solutions.

What are the various digital/IT technologies deployed at your company? What was the objective behind the implementation?

Over the last few years, Ambuja Cement and ACC have increasingly focused on transforming their business by leveraging IT and digital interventions. We are continually investing in digital assets to step up the level of automation in our operations. Artificial Intelligence, big data, cloud, and systems integration are some of the new technology horizons that we are currently focusing on.

The digital transformation journey is a major part of strategic planning. Digitalisation has been initiated in the following areas??perational excellence, controls and compliance, and culture. The key focus was to implement digital tools in various parts of operations. We strongly feel that digitalisation will not just help in providing competitive advantage but would also help in creating a sustainable growth journey in the coming years.

Our ??lants of Tomorrow??initiative is a testament to our focus on digitisation in manufacturing, where technical information systems record minute-by-minute data from all key assets at the plants. This has enabled us to improve operations, generate automatic alerts, and has also laid the foundation for implementing Industrial Internet of Things (??IoT?? use cases.

Another Plants of Tomorrow initiative is PACT – the Performance and Collaboration Tool ??which effectively focuses operational decisions based on data about weekly operations, monthly performances, projects and actions. The business benefits of PACT are immense ??much time is saved as decisions are made quickly and with data transparency, targets are consistently achieved. PACT is another step paving the way to a digital future.

How have Ambuja Cement and ACC benefited from IT initiatives?

Both Ambuja Cement and ACC have accelerated our focus on digitisation to enhance customer experience. We have developed apps such as the Dealer Connect App and Concrete Club App for connecting dealers, and construction professionals such as architects and engineers.

Both companies have already implemented tools such as Distributed Control System (DCS), Tool Location System (TLS) and Supervisory Control and Data Acquisition (SCADA) to increase plant efficiency and uptime.

Launched almost a year ago, another innovation – the Remote Troubleshooting Tool using Smart Glass Technology has proven to be a delight for site engineers. This two-way tool ensures timely and expert support to plants, especially during this pandemic where this tool has been considered a boon.

Digital Eye is another technology utilised by both companies to digitally monitor factory and plant operations using drones and video analytics to operate effectively and increase safety.

What is the objective behind the ??lants of Tomorrow??initiative?

Our ??lants of Tomorrow??initiative has been a great example of our focus on digitisation in manufacturing and we will continue our momentum of technology and digital adoption. We are focused on digitalisation through the ??lants of tomorrow??initiative.

We implemented Technical Information Systems (TIS) that records minute-by-minute data from all key assets at the plants. Performance And Collaboration Tool (PACT), a cross platform dashboard/decision support system to view critical parameters from TIS data, collaborate and take actions on alerts, has also been implemented at all plants.

EDGE AI has been implemented in some of our plants as an advanced analytics platform to facilitate integration of all Machine Learning (ML) and Artificial Intelligence (AI) initiatives.

This has helped improve operations, generating automatic alerts and has laid the foundation for implementing Industrial Internet of Things (IIoT) use cases. We also piloted the use of AI/ML into predicting cement strength, fineness and predictive maintenance of critical equipment like Vertical Roller Mill (VRM).

How is the ??lants of Tomorrow??initiative enabling efficiency at the supply chain level and manufacturing level?

??lants of Tomorrow??certified operation promises 15 to 20 percent more operational efficiency compared to a conventional cement plant. Both companies have also piloted the use of ??rtificial Intelligence/Machine Learning??(??I/ML?? into predicting cement strength and quality. Within logistics, we have launched an integrated planning tool that enables demand consolidation, constraint-based supply plan and network optimisation. We want to ensure a seamless end-to-end process and with this aim, we have also adopted supply chain automation.

Through this, we aim to create a supply chain mechanism, which is agile, cost competitive and sustainable, leading to customer delight. In order to enhance asset optimisation and ensure higher plant availability we implemented tools such as Distributed Control System (DCS), Tool Location System (TLS) and Supervisory Control and Data Acquisition (SCADA) which are expected to enhance plant efficiency and increase uptime.

We have also introduced Internet of Things (IoT) across the manufacturing value chain along with usage of artificial intelligence and machine learning under the project EDGE to facilitate rapid deployment of predictive models and seamless connectivity with plant data sources.

There are multiple initiatives which have been picked up on predictive quality (cement fineness, cement quality) and predictive maintenance (VRM failure, refractory life). These initiatives hugely help in optimising energy consumption per tonne of cement enabling cost management.

Apart from operations, both companies also realised the need of digital implementation in the Supply chain Management, and thus have implemented Blue Yonder Luminate Planning for supply chain transformation and digitalization. In order to leverage the power of analytics in logistics planning, we launched the Transport Analytics Center (TAC) in March 2020, which ensured allowing operational teams with real-time data on distribution safety, cost optimisation and efficiency improvement.

Please elaborate on the process. Was it done in a phased manner? How much time did it take? Were there any hurdles?

Technology adoption is a gradual process and over the years, we have implemented several cutting-edge solutions to deliver efficiency. However, over the last year we have witnessed an acceleration in adopting and embracing technology, like never before.

In my opinion, any new concept comes with challenges, and to ensure the adoption of digital solutions is seamless, we train our employees to help them adapt to technologies. SAIL, our e-learning platform, has custom curated content and modules which has aided our employees to harness digital technology to upgrade their knowledge and skill set to meet the industry requirements.

Kindly provide project cost/allocation of budget for technologies deployed.

As mentioned earlier, we are investing in digital technologies and solutions for efficient manufacturing, and to deliver value to our stakeholders. Similarly, going forward, we will keep the momentum going to expand our portfolio driven by innovation, and stay ahead of the curve, with responsibility and resilience.

How are new processes better than old methods? What key benefits were achieved?

These new processes have helped us collaborate better with suppliers, governments, industry bodies, businesses, and find new ways to innovate and create positive change. As mentioned earlier, ??lants of Tomorrow??certified operation promises 15 to 20 percent more operational efficiency compared to a conventional cement plant.

Modernising our supply chain has helped us improve operations, customer service, cost optimisation and organisational profitability. During the last year, our investment in digital capabilities has supported the introduction of real-time journey visibility and tracking. We now have integrated dashboards and in-time data which provide key insights into our business.

The initiative will maximise EBITDA by effectively using technology for capacity utilisation improvement, shift from low to high EBITDA markets, and enable cost optimisation and improved customer services.

The digital tools have also improved workforce mobility. Enforcing integrated planning and workforce management has enabled optimisation and key efficiencies in the business for planning and scheduling to meet the demands.

Moreover, technology aided the skilling and development of our employees in a remote working model. Our e-learning platform SAIL was leveraged to create a relevant and agile workforce.

As we continue on a path of digitisation, we aim to leverage technology and network optimisation tools to deliver a sustainable competitive edge.

How was the upskilling done? Were there any challenges?

At ACC, we offer our teams a defined talent value proposition to enrich and fulfil their aspirations so that they can realise their true potential to ??ake a difference??

As previously mentioned, we have developed an in-house digital learning platform ??AIL??for our employees to meet their learning and development needs. The content was customised keeping in mind the current scenario, to help our workforce understand how to leverage digital technology for a new world order.

The majority of training programmes conducted on SAIL during 2020 included physical and virtual sessions on functional skill development, soft skill development and other modules relevant for personal and professional growth of employees.

Along with scalability & reach, how to keep employees connected and engaged and keep the learning going in the organization were our important challenges.

The need to reach out to employees and teams dispersed across the country, and to make learning available and accessible for all was always a challenge. The learning experience platform addressed this issue, as today we have 7000+ registered users across ACC, Ambuja, LHGH & HSSA all part of LafargeHolcim India workforce.

How has IT played an important role in expanding your footprints in India/abroad? Do you think it helped you to compete with others in the market?

Being part of a global cement major, Holcim group, we are consistently leveraging the Technology Know How (??KH?? of the Company, in terms of access to best-in-class testing processes for upgradation of local labs, new ideas on specially formulated innovative cement products and bringing global brands like ECOPact, the Green Concrete, to the Indian market.

Through these technologies, we are innovating more than ever and investing in our people, cutting-edge solutions and operations to develop products that take advantage of emerging trends in the industry.

Accelerated adoption of technology and imbibing it in our business practices has helped us progress well on our sustainability agenda. We are working intensively at our plants, to further reduce our CO2 emissions. We are investing to improve the energy efficiency of our production facilities. Supported by technology, we aim to use alternate raw materials and fuels and replace CO2 intensive clinker in our cement with waste derived resources such as fly ash and slag.

Using advanced technology, we will continue to develop a robust line of sustainable and innovative solutions at par with international quality standards.

How has Covid-19 emerged as a need for IT implementation in the cement industry? What initiatives did your company take during Covid times to achieve better efficiency even during lack of resources?

As a leading player in India?? building materials business, we are aware of the forces shaping our industry and technology is one of the factors.

Although the disruption brought about by Covid-19 created short-term challenges, it also created medium-term opportunities. During the year, our core focus remained on ??ealth, Cost and Cash?? Our operations continued to pave the way for business continuity, innovation, and resilience.

During the Pandemic we launched innovative products to keep our commitment on building a sustainable living for the future. With the ability to predict market requirements and identify consumer preferences we launched products backed by extensive research.

Our aim is to provide customers with solutions that not only enhance durability but are environment friendly. The expansion of our portfolio with the launch of ECOPact, ACC Thermofillcrete, ACC Suraksha NX Antiwashout Concrete, and ACC ADMIX will unveil possibilities for new-age construction. By developing these cutting-edge building solutions, we aim to drive efficiency and deliver better value for commercial as well as individual customers.

What are your future plans in terms of IT implementation and overall company goals?

We will continue to invest in digital assets to upgrade our levels of automation in our operations. As an industry leader we are looking at ‘Plants of Tomorrow??as a big opportunity and responsibility to place India on the map of global cement manufacturing. This path-breaking project will lead to transformative outcomes not just in terms of operational and financial gains but also make cement manufacturing in the country environmentally sustainable and create a safe work environment for our colleagues across all our plants.

Concrete

Smart Cement Plants

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By integrating advanced technologies like IoT and AI, cement plants are transforming into highly efficient and interconnected systems. ICR explores how these innovations enable real-time monitoring and predictive maintenance, significantly reducing downtime and operational costs.

The cement industry, traditionally known for its reliance on heavy machinery and manual processes, is undergoing a significant digital transformation. This shift is driven by advancements in technology that promise to enhance efficiency, reduce costs, and improve overall production quality. Key trends include the adoption of the Internet of Things (IoT), which enables real-time monitoring and control of production processes through interconnected devices. Artificial Intelligence (AI) and Machine Learning (ML) are being utilised to optimise operations, predict maintenance needs, and minimise downtime by analysing vast amounts of data. Additionally, the integration of Big Data analytics allows for more informed decision-making by providing insights into production trends and potential areas for improvement.
“One of the key advantages of integrating data across our systems is the ability to have a more transparent, agile, and integrated supply and logistics chain. With the implementation of Oracle Logistics Management Solution, we have been able to overcome challenges related to consignment locations and truck movements, providing real-time visibility into our operations. This has also led to operational efficiency improvements and the ability to predict consignment delivery times, which we share with our customers, enhancing their experience” says Arun Shukla, President and Director, JK Lakshmi Cement.
According to BlueWeave Consultancy, during the forecast period between 2023 and 2029, the size of India cement market is projected to grow at a CAGR of 9.05 per cent reaching a value of US$ 49.24 billion by 2029. Major growth drivers for the India cement market include the growing need from construction and infrastructure sectors and rising governmental initiatives and investments in expansive infrastructure ventures encompassing highways, railways, airports, and public edifices.

Importance of Digitalisation
Digitalisation in cement manufacturing is crucial for several reasons:

  • Enhanced efficiency: Digital tools streamline production processes, reducing waste and improving the precision of operations. This leads to higher output and better resource utilisation.
  • Predictive maintenance: By leveraging AI and IoT, cement plants can predict equipment failures before they occur, minimising unplanned downtime and extending the lifespan of machinery.
  • Energy optimisation: Digital technologies enable the monitoring and optimisation of energy consumption, leading to significant cost savings and a reduced carbon footprint.

This aligns with global sustainability goals and regulatory requirements.

Quality control: Advanced sensors and data analytics ensure consistent product quality by closely monitoring and adjusting the production parameters in real time.
Safety improvements: Automation and robotics reduce the need for human intervention in hazardous environments, enhancing worker safety and reducing the risk of accidents.
Competitive advantage: Companies that embrace digitalisation can respond more quickly to market changes, innovate faster, and provide better customer service, giving them a competitive edge in the industry.
Digital transformation is reshaping the cement industry by driving efficiency, enhancing product quality, and promoting sustainability. As the industry continues to evolve, the adoption of digital technologies will be essential for maintaining competitiveness and achieving long-term success.

Key technologies driving digitalisation
The digital transformation of the cement industry is powered by a suite of advanced technologies that enhance efficiency, improve product quality, and drive sustainability. Here are some of the key technologies making a significant impact:
IoT refers to a network of interconnected devices that communicate and exchange data in real time. In the cement industry, IoT applications are revolutionising operations by enabling real-time monitoring and control of production processes. Sensors embedded in equipment collect data on various parameters such as temperature, pressure, and vibration. This data is then transmitted to a central system where it is analysed to optimise performance. For instance, IoT-enabled predictive maintenance systems can detect anomalies and predict equipment failures before they occur, minimising downtime and reducing maintenance costs. Additionally, IoT helps in energy management by monitoring consumption patterns and identifying opportunities for energy savings.
AI and ML in process optimisation are pivotal in enhancing process optimisation in the cement industry. AI algorithms analyse vast amounts of data generated from production processes to identify patterns and insights that human operators might overlook. ML models continuously learn from this data, improving their accuracy and effectiveness over time. These technologies enable real-time adjustments to production parameters, ensuring optimal performance and product quality. For example, AI-driven systems can automatically adjust the
mix of raw materials to produce cement with consistent properties, reducing waste and improving efficiency. AI and ML also play a crucial role in predictive maintenance, forecasting potential issues based on historical data and preventing costly equipment failures.
Tushar Kulkarni, Head – Solutions, Innomotics India, says, “Adoption of artificial intelligence (AI) will significantly help cement plants in their efforts towards innovation, efficiency and sustainability goals through improved process optimisation and increased productivity.”
“The Innomotics Digi-Suite (AI-based) is positioned to support the cement industry in this endeavour. Built on microservices architecture, Digi-Suite offers flexible self-learning AI based solutions which can be customised or tailor-made in accordance with plant / customer requirements. It enables customers to implement their digitalisation strategies in a stepwise manner and scale it up to an entire plant or multiple plants. Through this platform, customers can monitor and manage processes centrally. This approach provides guidance for company-wide process standardisation, knowledge sharing and optimum utilisation of expert resources,” he adds.
Big Data analytics involves processing and analysing large volumes of data to extract meaningful insights. In the cement industry, Big Data analytics is used for predictive maintenance and strategic decision-making. By analysing data from various sources such as sensors, machinery logs, and production records, companies can predict equipment failures and schedule maintenance activities proactively. This approach minimises unplanned downtime and extends the lifespan of critical assets. Furthermore, Big Data analytics helps in optimising supply chain management, inventory control, and production planning by providing actionable insights into trends and patterns. Decision-makers can leverage these insights to make informed choices that enhance operational efficiency and competitiveness.
Arun Attri, Chief Information Officer, Wonder Cement, says, “The advantages of data integration are substantial. By leveraging integrated data,
we build a single source of truth, we can identify patterns, optimise processes, and implement strategic initiatives that drive overall business growth. This approach not only enhances operational efficiency but also strengthens our relationships with all stakeholders by providing a clear and consistent view of our operations.”
“By establishing a single source of truth, we ensure that all stakeholders, both internal and external, have access to consistent and accurate data. This unified data repository enhances visibility into our operations, improves decision-making, and enables comprehensive analyses. For internal stakeholders, such as our production, quality and maintenance teams, this means having reliable data to optimise processes and schedule maintenance effectively. For external stakeholders, including suppliers and customers, it ensures transparency and trust, as they can rely on the accuracy of the information provided,” he adds.
Cloud computing offers a scalable and flexible solution for data storage and access, playing a vital role in the digitalisation of the cement industry. By storing data in the cloud, companies can easily access and share information across different locations and departments. Cloud-based platforms facilitate real-time collaboration and data sharing, enabling seamless integration of various digital tools and systems. Additionally, cloud computing provides robust data security and backup solutions, ensuring that critical information is protected and can be recovered in case of data loss. The scalability of cloud services allows cement manufacturers to handle the increasing volume of data generated by IoT devices and other digital technologies, supporting their growth and innovation initiatives.

Digital twin technology
Digital twin technology involves creating a virtual replica of a physical asset, process, or system. This digital counterpart is continuously updated with real-time data from sensors and other sources, mirroring the physical entity’s performance, behaviour and condition. In the cement industry, digital twins
offer numerous benefits. They enable real-time monitoring and analysis, allowing operators to visualise and understand complex processes in detail. This enhanced visibility helps in optimising production, improving efficiency, and reducing downtime. Digital twins also facilitate predictive maintenance by simulating various scenarios and identifying potential issues before they occur, thereby extending the lifespan of equipment and minimising maintenance costs. Moreover, they support data-driven decision-making by providing comprehensive insights into operations, leading to better resource management and increased productivity.
Tarun Mishra, Founder and CEO, Covacsis, explains, “Different plant data reside within the walls of individual plants. Comparing micro economic performance across plants is impossible. Covacsis’ IPF is designed to aggregate multiple plant’s data at unified enterprise datalike (historian) which then further used for relative baselining and relative performance analysis across same and similar asset base or product or processes.”
“Data plays the most important role in any algorithm. Big data and fast data are only adding to the logistics performance of any algorithm and platform. Covacsis is a decade old and most mature platform in the world. Covacsis’ SaaS infrastructure is already handling more than 350 billion of cement process and operation data on a daily basis with a compounding daily growth rate of 1 per cent. This provides a significant advantage to Covacsis towards building algorithms and ensuring the value efficacy of these algorithms for the industry,” he elaborates.
The implementation of digital twins in cement plants involves several steps. First, detailed models of the plant’s equipment, processes, and systems are created using data from various sources such as sensors, historical records, and engineering specifications. These models are then integrated into a digital platform that continuously collects and analyses real-time data from the physical plant. For instance, a digital twin of a cement kiln can monitor temperature, pressure, and other critical parameters, allowing operators to optimise the combustion process and improve energy efficiency.
Similarly, digital twins of grinding mills can help in adjusting operational parameters to achieve optimal particle size distribution and improve cement quality. The integration of digital twins with other digital technologies such as IoT, AI and Big Data analytics enhances their capabilities, providing a comprehensive and dynamic view of the entire production process. As a result, cement plants can achieve significant improvements in operational efficiency, product quality and sustainability.

Automation in cement production
Automation plays a pivotal role in enhancing productivity within the cement industry by streamlining operations and reducing the reliance on manual labor. Automated systems and machinery can perform repetitive and complex tasks with higher precision and consistency than human workers. This leads to significant improvements in operational efficiency and throughput. For instance, automated material handling systems can manage the movement and storage of raw materials and finished products more effectively, minimising delays and reducing handling costs.
Automated process control systems enable real-time monitoring and adjustments of production parameters, ensuring optimal performance and reducing waste. Additionally, automation helps in maintaining consistent product quality by minimising human errors and variations in the manufacturing process. Overall, the integration of automation technologies results in faster production cycles, lower operational costs, and increased competitiveness in the market.
The introduction of automation in the cement industry has a profound impact on workforce skills and safety. As automation takes over routine and hazardous tasks, the demand for manual labour decreases, and the focus shifts to more technical and supervisory roles. Workers are required to develop new skills in operating and maintaining automated systems, as well as in data analysis and problem-solving. This shift necessitates continuous training and upskilling to ensure the workforce can effectively manage and leverage advanced technologies.
On the safety front, automation significantly enhances worker safety by reducing their exposure to dangerous environments and tasks. Automated systems can handle heavy lifting, high-temperature processes, and exposure to harmful dust and chemicals, thereby minimising the risk of accidents and occupational health issues. As a result, automation not only boosts productivity but also contributes to a safer and more skilled workforce, fostering a more sustainable and resilient industry.

Energy efficiency and sustainability
Digital tools are revolutionising the way energy consumption is monitored and optimised in the cement industry. Advanced sensors and IoT devices continuously collect data on energy usage across different stages of the manufacturing process. This real-time data is analysed using AI and machine learning algorithms to identify patterns, inefficiencies, and opportunities for energy savings. Energy management systems (EMS) integrate these digital tools to provide a comprehensive overview of energy consumption, allowing operators to make informed decisions to reduce energy waste. For instance, predictive analytics can forecast energy demands and optimise the operation of high-energy equipment, such as kilns and grinders, to align with periods of lower energy costs. Additionally, automated control systems can adjust operational parameters to maintain optimal energy efficiency, thereby reducing the overall energy footprint of the plant.
McKinsey & Company for the cement industry analyse that pursuing digitisation and sustainability levers are key to significantly boosting productivity and efficiency of a typical cement plant. The result is a margin gain of $4 to $9 per tonne of cement, which would shift a traditional plant to the top quartile of the cost curve for plants with similar technologies.
Digital technologies are also instrumental in driving sustainable practices within the cement industry. By providing precise control over production processes, digital tools help in minimising raw material wastage and reducing emissions. For example, advanced process control (APC) systems optimise the combustion process in kilns, leading to more efficient fuel use and lower carbon dioxide emissions. Digital twins, which create virtual replicas of physical assets, enable detailed simulations and scenario analyses, allowing companies to explore and implement more sustainable production methods. Furthermore, the integration of renewable energy sources,
such as solar and wind power, is facilitated by digital technologies that manage and balance energy loads effectively.
Digital platforms also support the implementation of circular economy practices, such as the use of alternative fuels and raw materials, by tracking and optimising their utilisation throughout the production cycle. Overall, digital technologies empower the cement industry to achieve significant advancements in energy efficiency and sustainability, contributing to environmental conservation and compliance with global sustainability standards.

Future of digitalisation
The cement industry is on the brink of a significant transformation driven by emerging technologies. Innovations such as artificial intelligence (AI), machine learning (ML), advanced robotics, and blockchain are poised to revolutionise various aspects of cement production and supply chain management. AI and ML will enable more sophisticated predictive maintenance and process optimisation, reducing downtime and increasing efficiency. Advanced robotics will automate more complex and hazardous tasks, further enhancing productivity and worker safety. Blockchain technology offers potential benefits in enhancing transparency and traceability in the supply chain, ensuring the integrity of product quality and compliance with environmental regulations. These emerging technologies will collectively contribute to a more efficient, reliable, and sustainable cement industry.
Smart cement plants represent the future of the industry, where digital technologies are fully integrated to create highly automated and interconnected production environments. In these plants, IoT devices, digital twins and AI-driven systems will work together seamlessly to monitor, control and optimise every aspect of the manufacturing process. Real-time data from sensors will feed into advanced analytics platforms, enabling instant adjustments to maintain optimal performance. Digital twins will allow operators to simulate and test changes in a virtual environment before implementing them in the physical plant, minimising risks and enhancing decision-making. Furthermore, smart cement plants will incorporate renewable energy sources and energy storage solutions, supported by intelligent energy management systems that ensure efficient and sustainable operations.
Over the next decade, the digital transformation of the cement industry is expected to accelerate, driven by continuous advancements in technology and increasing demands for sustainability. We can anticipate widespread adoption of AI and ML for real-time process optimisation and predictive maintenance, leading to significant reductions in operational costs and emissions. The use of digital twins will become standard practice, enabling more precise and flexible production planning and execution.
Enhanced connectivity and data sharing across the supply chain will improve efficiency, transparency, and collaboration among stakeholders. Additionally, the integration of renewable energy and advanced energy storage solutions will become more prevalent, supported by digital platforms that optimise energy usage and reduce environmental impact. As the industry embraces these digital innovations, we will see a new era of smart, sustainable, and highly efficient cement manufacturing, positioning it to meet the challenges and opportunities of the future.

Conclusion
The digital transformation of the cement industry is poised to revolutionise traditional manufacturing processes, driving significant advancements in efficiency, sustainability, and competitiveness. Emerging technologies such as IoT, AI, ML advanced robotics, and blockchain are not only optimising energy consumption and improving operational efficiency but are also paving the way for more sustainable practices. The evolution towards smart cement plants, where digital tools are fully integrated, is set to redefine production environments with enhanced automation, real-time monitoring and advanced analytics.
Over the next decade, we can expect these technologies to become standard practice, leading to substantial reductions in costs and emissions, improved supply chain transparency, and greater adoption of renewable energy sources. As the industry embraces digitalisation, it will be better equipped to meet future challenges and seize new opportunities, ultimately contributing to a more sustainable and resilient
global economy.

– Kanika Mathur

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Concrete

Advantages of data integration are substantial

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Arun Attri, Chief Information Officer, Wonder Cement, discusses the digital transformation and advanced technologies used to enhance operational efficiency, sustainability and cybersecurity in their cement manufacturing processes.

How has the implementation of IT initiatives transformed your operations and processes in the cement industry?
We operate under the digital vision: To leverage digital to accelerate growth, build relationships and enhance consumer experience.
Our digital transformation initiatives have profoundly reshaped operations and processes at Wonder Cement. By integrating advanced technologies such as IoT, cloud computing and constructing a data lake house for data consolidation as a single source of truth, we have enabled seamless information flow between applications and developed real-time analytics. These advancements have streamlined our production processes, enhanced operational efficiency, and improved decision-making. Additionally, predictive analytics allows us to anticipate market trends and customer needs more accurately.

Can you discuss how your organisation is adopting Industry 4.0 technologies and the benefits you are experiencing?

Embracing Industry 4.0 technologies is truly transforming our operations and improving reliability. Here are the key benefits we are experiencing:

  • Real-time monitoring: IoT devices provide real-time data on equipment performance, enabling predictive maintenance and reducing downtime.
  • Process optimisation: AI and machine learning algorithms enhance process optimisation,
    leading to increased efficiency and reduced operational costs.
  • Higher productivity: Improved monitoring and optimisation result in higher productivity and better product quality.
  • Enhanced sustainability: Better resource utilisation contributes to enhanced sustainability.

What specific automation technologies have you implemented, and how have they improved efficiency and productivity in your cement plants?
Automation technologies have revolutionised efficiency and productivity at our cement plants. Automated quality control systems ensure consistent product quality by continuously monitoring and adjusting production parameters. Robotic process automation (RPA) in administrative functions like inventory management and order processing has drastically reduced manual errors and boosted operational efficiency. These advancements enable us to uphold high standards of precision and reliability, optimise resource utilisation and minimise wastage.

How are predictive analytics and maintenance technologies being utilised in your operations to minimise downtime and optimise maintenance schedules?
Predictive analytics and maintenance technologies are pivotal in minimising downtime and optimising maintenance schedules at Wonder Cement. By analysing historical data and real-time sensor inputs, we proactively predict and address potential equipment failures. This approach has drastically reduced unplanned downtime, enhanced equipment reliability, and extended machinery lifespan. Our maintenance teams use these insights to schedule activities during planned shutdowns, ensuring minimal production disruption. This proactive strategy has led to substantial cost savings and significantly boosted overall plant efficiency.

What are the challenges and advantages of integrating data across various systems in your cement manufacturing process?
Integrating data across various systems in our cement manufacturing process presents both challenges and advantages. One of the primary challenges is ensuring data consistency and accuracy across different platforms. To address this, we have implemented robust data integration and validation frameworks that facilitate seamless data flow and synchronisation.
The advantages of data integration are substantial. By leveraging integrated data, we build a single source of truth, we can identify patterns, optimise processes, and implement strategic initiatives that drive overall business growth. This approach not only enhances operational efficiency but also strengthens our relationships with all stakeholders by providing a clear and consistent view of our operations.
By establishing a single source of truth, we ensure that all stakeholders, both internal and external, have access to consistent and accurate data. This unified data repository enhances visibility into our operations, improves decision-making, and enables comprehensive analyses. For internal stakeholders, such as our production, quality and maintenance teams, this means having reliable data to optimise processes and schedule maintenance effectively. For external stakeholders, including suppliers and customers, it ensures transparency and trust, as they can rely on the accuracy of the information provided.

How is digitalisation contributing to sustainability efforts and reducing the environmental impact of your cement production?
IT initiatives play a pivotal role in supporting our sustainability efforts and reducing the environmental impact of cement production at Wonder Cement. One of the key contributions of IT is the optimisation of energy consumption. Through advanced energy management systems, we continuously monitor and analyse energy usage across our operations. This allows us to identify areas of inefficiency and implement measures to reduce energy consumption, such as adjusting process parameters and utilising energy-efficient equipment.
Additionally, IT enables us to track and manage emissions more effectively. By integrating emission monitoring systems with our IT infrastructure, we can continuously measure and analyse emission levels, ensuring compliance with environmental regulations and identifying opportunities for reduction. For instance, real-time data on CO2 emissions allows us to adjust our production processes to minimise the carbon footprint.
IT initiatives also facilitate the implementation of circular economy practices. Through sophisticated waste management systems, we can monitor and optimise the use of alternative fuels and raw materials, reducing our reliance on traditional resources and minimising waste generation.

With the increasing digitisation of operations, what steps are you taking to ensure cybersecurity and protect sensitive data?
With the increasing digitisation of operations, ensuring cybersecurity and protecting sensitive data is paramount at Wonder Cement. We have implemented advanced technologies such as artificial intelligence and machine learning (AI/ML) for threat detection and response, and Secure Access Service Edge (SASE) to provide secure and efficient network access. Additionally, our Security Operations Centre (SOC) continuously monitors our digital infrastructure, utilising AI/ML to identify and mitigate potential threats in real-time. Comprehensive cybersecurity measures, including firewalls, intrusion detection systems, and regular security audits, further safeguard our systems. We also conduct regular training sessions for our employees to raise awareness about cybersecurity best practices and potential threats. By prioritising cybersecurity, we ensure the confidentiality, integrity, and availability of our critical data and systems, staying ahead of emerging cyber threats.

What future IT trends do you foresee having the most significant impact on the cement industry, and how is your organisation preparing to embrace these trends?
Looking ahead, we foresee several IT trends that will significantly impact the cement industry. These include the further integration of AI and machine learning for advanced process optimisation, the adoption of blockchain technology for transparent and secure supply chain management, and the expansion of IoT applications for enhanced monitoring and control. Additionally, the use of drones for site inspections, computer vision for quality control, generative AI for innovative design solutions, and robotics and RPA for automating repetitive tasks will bring substantial benefits. At Wonder Cement, we are actively preparing to embrace these trends by investing in research and development, collaborating with technology partners, and continuously upgrading our IT infrastructure. Our proactive approach ensures that we remain at the forefront of technological advancements, driving innovation and maintaining our competitive edge.

– Kanika Mathur

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Concrete

WCA’s annual conference

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At the World Cement Association’s annual conference the WCA Director, Emir Adiguzel addressed the global cement industry to outline the challenges and opportunities facing the global cement industry.

The conference held in Nanjing, had industry leaders, innovators and stakeholders in attendance to discuss the future of cement production and sustainability. The WCAA director emphasised on the cement industry’s stern commitment to sustainability; spoke about the global cement demand and market dynamics, projecting a period of stagnation from 2024-2030 with growth expected only in the Middle east, India and Africa; about the challenges and opportunities in carbon capture technology hat show promise but will need further development and substantial investment as well as about the strategic initiatives and collaboration within the industry in improving sustainability and operational performance.

Adiguzel concluded his address by highlighting the crucial point where the global cement industry stands by saying “Collaboration within the World Cement Association is essential for sharing knowledge and aligning on long-term objectives. Ensuring the industry’s resilience and adaptation to evolving market dynamics is crucial for the survival of independent cement producers”.

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