Concrete

Technology advancement has opened up opportunities

Published

4 years ago

June 13, 2022

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Gulshan Bajaj, Vice President (Technical), HeidelbergCement India, takes us through the various processes that his company has effectively put in place to use alternative raw materials while maintaining clinker and cement quality.

What are the core raw materials used in the production of cement?
Major component of cement is clinker, which is blended with materials like fly ash, slag and added with gypsum to produce various types of cements like Portland Pozzolana Cement (PPC), Portland Slag Cement (PSC) and composite cement.
Cement clinker, which is a burn out product from kiln resulting from fusion of raw meal, consists of calcium silicates and smaller amounts of calcium aluminates and alumina ferrites. The requirement of calcium is met by limestone in India.
Calcareous clay, calcareous shale, marble and Marl are other materials, which are rich in calcium. Looking at the composition of raw meal, corrective materials like bauxite, aluminous laterite, red mud, iron ore, quartzite, shale, sand etc are added in small quantities to maintain the desired clinker quality.

What are the alternative raw materials (ARM) that can be used in the production of cement? How does that impact the process of production?
Alternative raw materials come from rejects or byproducts of some industrial sectors which can be directly or after an intermediate treatment (preprocessing) can be co-processed in a cement plant. A non-exhaustive list of examples is:

Foundry sands
Alumina
Mill scales
Bottom or fly ashes from coal/lignite combustion
Industrial gypsum
Slags from different metallurgic processes
Industrial sludge
Polluted soils

Concrete crusher sand aerated concrete meal and fractions from demolition waste
These materials have already been decarbonated and could be used as an alternative to ‘virgin’ limestone thus avoiding CO2 emissions during its transformation to lime in the production process.
Each material has its own composition and behaves differently during the burning process. In order to maintain the consistent clinker quality and stable clinkerisation process, we need to analyse these materials with respect to quality (during raw mix design) and also impact on the environment (if any harmful gases are released).
There are certain materials, which come in both ARM and cement additives like ashes from coal fired thermal plants and slag from steel plants that have to be looked at from various angles.

Can cement maintain its quality standard with inclusion of supplementary raw materials as against limestone?
Yes, we can maintain clinker and cement quality with use of supplementary raw materials in controlled proportions.
In India, HeidelbergCement (HC) is using red mud as a corrective material to replace costly bauxite. Trials are going on and preliminary results are encouraging. HC at Group level is using ARMs that have been giving stable results with respect to quality.

Explain the impact on carbon emission of the production unit when alternative raw materials are used in various proportions.
When we use alternative raw materials, we directly reduce the CO2 emission at the clinker stage by replacing limestone with the material that has already been decarbonated thus compensating CO2 generated from limestone or correctives being replaced in raw mix.
Also, use of blending materials like fly ash and slag at the time of clinker grinding, results in producing higher quantities of cement by using lesser volume of clinker or limestone without compromising on the quality of the cement. This blending of alternative raw materials with raw material or clinker is reflected in the lower CO2/tonne of cement produced.

How can the cost of production be reduced by using alternative or supplementary raw materials in cement production?
Cost of production can be reduced in current state only if the desired quality of alternative raw material is available in vicinity and landed cost is less than the material being replaced, be it limestone, bauxite, iron ore etc.
Other support to improve alternative raw material usage and making it cost competitive is either by incentives from the government for reduction in CO2 footprint or by issuing certificates that are tradeable (ESCerts) thus, covering additional costs involved. It is likewise in the past ESCerts trading in electrical energy (BEE) and CDP (formerly Carbon
Disclosure Project).

What are the major challenges in using other cementitious materials?
Availability of the desired quality alternative raw material in the vicinity and its landed cost is the main challenge, which acts as a barrier towards increased use of alternate raw materials and investments involved.
Another challenge is competitive disadvantage to source pre-processed ARMs like China clay, which needs to be calcined before use, that adds-on to the cost. Purchase of pre-calcined clay is much costlier to the material it’s going to substitute.

What role does technology play in deciding which alternative materials can be used and the way they can be incorporated in the production process?
Old plants may pose some difficulty in use of alternative raw materials. For such plants, we can set up facilities that lead to better sampling, monitoring and predictive information for optimising the use of these alternate materials. However, technology advancement has opened up opportunities for testing and analysing the quality of ARMs beforehand.

What are the policy interventions expected from the Government to encourage use of ARM by industry?
Various policies that would be helpful in promoting ARM in India may be:

Incentivising the producer for use of ARM as a replacement of natural materials.
Implementing a waste policy that recognises and rewards the benefits of co-processing; ensuring no legal implications for use of ARMs.
Implementing waste legislation aimed at avoiding landfilling with waste that contains recoverable resources in terms of useful mineral content.
Adopting policies that reward the use of local sources and widely available materials.
Designing research and development policies aimed at fostering the recovery of minerals from waste for co-processing.
Making low cost finances available for adoption of technologies and setting up pre-processing.
Ensuring availability of ARM to the industry on a long term basis to justify the investment.

Does your organisation manufacture a variant of cement made from alternative raw materials? Tell us more about its performance and use.
HC India at present is carrying out trials for use of alternative raw materials at the clinker stage which is giving encouraging results. However, at Group level ARM is being used in various plants and is contributing to preserving natural resources.
In central India, we are already producing 100 per cent blended cement by using fly ash at the cement production stage. Once our ARM trials at the clinker stage are established, we foresee further improvement in our CO2 footprints thus contributing towards the greener environment.

How do you foresee the future of cement production?
With India’s per capita cement consumption at just ~260 kg per capita compared to the global average of ~525 kg per capita, there is a significant potential for the growth of the cement sector in India.
The tailwinds of rapid urbanisation, growing middle class and affordable housing, together with the post-pandemic recovery in construction will further demand for cement in India. Government initiatives in the infrastructure sector are expected to drive the growth of the cement sector over the next several decades.
Looking at climatic change and worldwide focus to bring out sustainable products, we foresee that efforts by industries to promote ARM will be picking up pace for a sustainable future .
Increasing use of AFR to substitute traditional fuels used in kilns (coal/ pet coke) is of great importance both for cement producers and for the society. The potential is enormous since the global cement industry produces about ~3.5 billion tons of cement that consume nearly ~350 million tons of coal-equivalent fossil and alternative fuels.
Thus, AFR is another area that industry would be focussing on.
Increased usage of renewable energy: India’s installed renewable energy accounts for a share of ~38 per cent in the overall power mix(source MNRE). Use of renewable energy in place of conventional energy is another area where industry may be heading to make cement more sustainable.
HC India has set up solar power plants in its surplus land and invested through equity in solar parks to source renewable power. We have also been focussing on increasing use of waste hot gases for power generation (WHR). Some of the HC plants HC have been meeting its > 90 per cent power requirement through renewable sources.
Our endeavour has always been ‘to consistently reduce, recycle and renew to make the world a wonderful place to live for generations to come.’

-Kanika Mathur

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Concrete

Cement Makers Reaffirm Commitment to Sustainable Growth

Published

5 hours ago

June 5, 2026

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World Environment Day spotlight on innovation and circularity

On World Environment Day, the Indian cement industry reiterated its commitment to supporting India’s climate ambitions through sustainable manufacturing, resource efficiency and the adoption of cleaner technologies.

The Cement Manufacturers’ Association (CMA) said the sector remains aligned with the Government of India’s Net Zero commitments and is accelerating efforts to reduce its environmental footprint while supporting the country’s infrastructure and development agenda.

Parth Jindal, President, CMA and Managing Director, JSW Cement, said the industry is increasingly adopting cleaner technologies, improving energy efficiency and expanding the use of alternative fuels and raw materials. He also highlighted the growing importance of circular economy practices, where industrial by-products and waste streams from one sector are utilised as resources in another.

“The Indian Cement Industry is aligned to the Government’s commitments on carbon mitigation and is accelerating the adoption of cleaner technologies, resource efficiency and circular economy practices while actively exploring the potential of Carbon Capture, Utilisation and Storage (CCUS) as a critical pathway for deep decarbonisation,” said Jindal.

He added that coprocessing industrial waste and by-products helps conserve natural resources, reduce disposal requirements and lower the environmental footprint across multiple sectors.

According to Jindal, sustainability is no longer limited to manufacturing processes but is increasingly influencing investment decisions, innovation strategies and long-term growth plans within the industry.

Echoing similar views, Dr Raghavpat Singhania, Vice President, CMA and Managing Director, JK Cement, said sustainable development extends beyond emissions reduction and must also focus on responsible resource utilisation and waste minimisation.

“Sustainability in the built environment cannot be measured by emissions alone. It is equally about how efficiently we use resources, how effectively we minimise waste and how responsibly we create the infrastructure that will serve future generations,” said Singhania.

He noted that the cement industry is advancing its sustainability agenda through greater resource efficiency, increased circularity, technological innovation and continuous improvements in manufacturing practices. As a key contributor to India’s infrastructure development, the sector has a critical role to play in balancing economic growth with environmental responsibility.

On the occasion of World Environment Day, industry leaders reaffirmed their commitment to supporting India’s climate goals while delivering the materials required for resilient, durable and sustainable infrastructure.

Concrete

Building a Greener Future Together

Published

23 hours ago

June 4, 2026

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Environmental sustainability requires immediate action, not just long-term commitments and discussions. Recycling, circular economy practices, and technology-driven waste management can help industries reduce environmental impact while supporting sustainable growth.

Author: Jignesh Kundaria, Director and CEO, Fornnax Technology

World Environment Day serves as an important reminder that environmental sustainability can no longer remain confined to discussions, reports, or long-term commitments. The environmental challenges facing the world today demand immediate, measurable, and collective action. Across industries and communities, waste generation continues to outpace our ability to process it responsibly, placing increasing pressure on ecosystems, natural resources, public health, and the well-being of future generations.

One of the most significant shifts required today is a change in how society perceives waste. Rather than being viewed as a material to be discarded, waste must be recognised as a valuable resource that can contribute to both economic growth and environmental protection when managed through the right technologies and systems. This mindset forms the foundation of the circular economy model that countries across the world are increasingly adopting to reduce landfill dependence, recover valuable materials, and create more sustainable industrial ecosystems.

India has made meaningful progress in strengthening awareness around sustainability, recycling, and environmental responsibility over the past decade. Significant efforts are being made to formalise the recycling sector through improved infrastructure, technology adoption, policy implementation, and broader stakeholder participation. These developments are creating a stronger foundation for responsible waste management and resource recovery across the country.

However, achieving long-term environmental impact requires collaboration from all stakeholders. Industries, policymakers, technology providers, and communities must work together with greater accountability to strengthen recycling ecosystems, encourage responsible waste management practices, and create sustainable outcomes through consistent execution rather than temporary interventions.

As someone closely associated with the recycling industry, I firmly believe that technology will play a decisive role in addressing future environmental challenges. Advanced recycling systems have the potential to recover valuable resources, reduce pollution, minimise landfill burdens, and conserve energy, creating a more sustainable future for generations to come. This belief is deeply reflected in Fornnax’s motto, “Committed to Create a Green Future,” which embodies our commitment to building long-term environmental value through innovation and responsible action.

At the same time, technology alone cannot deliver meaningful change. Real progress requires intent, awareness, participation, and a shared sense of responsibility. Sustainable development can only be achieved when innovation is supported by collective action and a genuine commitment to environmental stewardship.

On this World Environment Day, let us move beyond conversations and take meaningful steps towards creating a cleaner, greener, and more sustainable planet. By embracing innovation, strengthening recycling ecosystems, and acting responsibly today, we can create lasting environmental impact and secure a better future for generations to come.

Concrete

JK Lakshmi Advances LC3 Cement Expansion

Company highlights commercial production and research partnerships

Published

4 days ago

June 1, 2026

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The meeting reviewed progress in limestone calcined clay cement (LC3) technology and its commercial adoption in India’s cement sector, focusing on low-carbon alternatives to conventional binders. JK Lakshmi Cement noted that limestone calcined clay cement can reduce carbon dioxide emissions by up to 40 per cent compared with conventional cement and said this reduction supports industry decarbonisation. The company highlighted that it was among the first two cement manufacturers in India to move LC3 into commercial production after the Bureau of Indian Standards approved the technology as a cement standard.

Vinita Singhania said the transition of LC3 from research to commercial production reflected collaboration between industry, academia and international institutions. Maya Tissafi acknowledged JK Lakshmi Cement’s role in advancing LC3 adoption in India and its contribution in taking the technology from laboratory trials to commercial implementation. Both representatives underlined the growing relevance of sustainable construction materials as India expands infrastructure and urban development.

The meeting explored continued collaboration with Swiss research institutions such as EPFL, EMPA and ETH Zurich alongside Indian academic partners and development organisations. JK Lakshmi Cement has been associated with the LC3 initiative since 2014 and worked with EPFL, IIT Delhi, IIT Madras, Development Alternatives and Technology and Action for Rural Advancement. The company conducted one of the earliest industrial trials of LC3 and recently announced commercial production of Green Pro LC3 cement from its Jaykaypuram plant in Rajasthan.

India remains the world’s second-largest cement producer and expansion of infrastructure, urbanisation and housing demand continue to support long-term sector growth, increasing interest in low-carbon technologies. The company reported an annual turnover of more than Rupees (Rs) 60 bn and current cement capacity of about 18 million (mn) tonnes (t) per annum, with a target of reaching 30 million (mn) tonnes (t) by 2030. Apart from grey cement, the company also makes ready-mix concrete, gypsum plaster, wall putty, primers, adhesives and fly ash blocks, and both sides concluded on the need for continued collaboration to develop sustainable construction solutions.