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Strategising Dust Management

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ICR delves into the multifaceted aspects of dust control in cement manufacturing, from environmental and health hazards to regulatory standards and innovative technologies. By exploring dust generation sources, control technologies and regulatory frameworks, it highlights the critical importance of effective dust management practices.

Dust control is a critical aspect of cement manufacturing, essential for both environmental stewardship and ensuring the health and safety of workers and nearby communities. The cement industry is inherently dusty due to the various processes involved in raw material handling, grinding, and clinker production. However, effective dust control measures are indispensable for mitigating the adverse impacts associated with dust emissions.
Environmental hazards: Dust emissions from cement plants contribute significantly to air pollution, releasing particulate matter (PM) and various pollutants into the atmosphere. These particles can travel over long distances, affecting air quality in surrounding areas and even beyond. PM10 and PM2.5, particles smaller than 10 and 2.5 micrometers respectively, are of particular concern as they can penetrate deep into the lungs, leading to respiratory problems and exacerbating existing health conditions. Additionally, dust deposition can contaminate soil and water bodies, posing risks to ecosystems and biodiversity.
Health hazards: Workers in cement plants are exposed to high levels of dust, which can lead to respiratory illnesses such as silicosis, a debilitating lung disease caused by inhalation of crystalline silica dust. Prolonged exposure to cement dust can also result in other respiratory ailments, including bronchitis and asthma. Furthermore, communities residing near cement plants are at risk of exposure to dust emissions, potentially leading to similar health issues and compromising their quality of life.
Niranjan Kirloskar, Managing Director, Fleetguard Filters, says, “Better filtration can improve the quality of application performance in multiple ways. Filtration improves the engine performance as it filters and prevents dirt, dust, and debris from entering into the engine. This ensures that the quality of air or fluid that reaches the combustion chamber is as per the specific requirements of optimal performance of the engine. It also extends the engine life by filtering out contaminants. Efficient filtration ensures optimal performance of the engine/equipment over its entire operating life. Filtration also improves fuel efficiency as a clean filter allows for a better air-fuel mixture in the engine, thus improving combustion efficiency, which in turn results in better fuel economy. It keeps emissions under control as fuels burn more efficiently, leading to lesser harmful residue in the environment. Thus, to sum up, an optimal filtration solution ensures better performance, prolonged engine life and less hazardous waste in the environment.”
Effective dust control in cement manufacturing is paramount for safeguarding the environment, protecting public health, and ensuring sustainable operations. By implementing robust dust mitigation measures and adhering to regulatory standards, cement plants can minimise their environmental footprint and create safer working environments for employees. Furthermore, investing in advanced dust control technologies not only reduces emissions but also enhances operational efficiency and strengthens corporate social responsibility initiatives. Thus, prioritising dust control is not just a regulatory requirement but a moral imperative for the cement industry.

Dust generation in cement manufacturing
Cement manufacturing involves several processes, each contributing to the generation of dust emissions. Understanding the primary sources of dust generation is crucial for implementing effective control measures and mitigating environmental and health risks associated with dust exposure.
In the initial stage of cement production, raw materials such as limestone, clay, shale, iron ore, and sand are crushed into smaller particles. Crushing operations typically involve the use of crushers and impactors, which break down the raw materials into finer sizes suitable for further processing. However, these mechanical actions can result in the generation of significant dust emissions due to the fragmentation of materials and the handling of dusty feedstock.
Grinding of raw materials and clinker accounts for a considerable portion of dust emissions in cement plants. Raw materials and clinker are ground to a fine powder in cement mills, using ball mills, vertical roller mills or other grinding equipment. During grinding operations, friction between the grinding media and the raw materials generates heat and abrasion, leading to the formation of dust particles. Additionally, the handling and transportation
of pulverised materials further contribute to dust emissions.
Material handling processes, including conveying, transferring, and storage of raw materials and finished products, are another significant source of dust generation in cement manufacturing. Conveyor belts, bucket elevators, and pneumatic conveying systems are commonly used to transport bulk materials within the plant. These operations can generate dust through material transfer points, spillage and fugitive emissions from open storage piles. Furthermore, loading and unloading activities during transportation of bulk materials can also release dust into the atmosphere.
By identifying these sources and implementing appropriate dust control measures, cement plants can minimise emissions and mitigate the adverse impacts on air quality and worker safety. Strategies such as dust suppression, enclosure of equipment, ventilation systems, and proper maintenance practices are essential for controlling dust emissions throughout the production process. Moreover, investing in advanced technologies and best practices for dust management can contribute to sustainable and responsible cement manufacturing practices.

Dust control tech
Dust suppression systems are vital in physically controlling dust emissions. Some of the key technologies that help in dust suppression in the cement plants include:

  • Wet scrubbers: Some cement mills utilise wet scrubbers to capture and remove dust particles from the air. They operate by spraying water on the particles, causing them to adhere to surfaces and be cleared from the air.
  • Bag filters: Bag filters are extensively used in Indian cement factories to capture dust particles generated during manufacturing. These filters are made of cloth bags that trap dust particles when air travels through them.
  • Electrostatic precipitators (ESPs): ESPs are another type of dust filtration equipment used in Indian cement plants. They use an electrostatic charge to attract and trap dust particles.
  • Cyclones: Cyclones are mechanical separators that can remove larger dust particles from the air. They work by creating a cyclonic effect that causes particles to be separated from the air stream
  • High-efficiency particulate air (HEPA) filters: HEPA filters are highly efficient filters that can remove up to 99.97 per cent of particles as small as 0.3 microns. They are commonly used in cleanrooms and other sensitive environments.

In addition to these filtration techniques, Indian cement plants also use various operational and maintenance practices to reduce dust emissions, such as regular equipment cleaning and maintenance, optimising production processes to reduce dust generation, and providing training to employees on dust control practices.
“Techflow’s air pollution control systems seamlessly integrate into your existing cement plant. Our pulse jet bag filters fit effortlessly downstream of grinding mills and packing stations, effectively capturing fine dust particles generated during these processes. Electrostatic Precipitators (ESPs) excel in kiln exit gas streams, working alongside existing cyclones to achieve ultra-fine particulate control, a critical step in maintaining clean air emissions,” says Arpit Kantia, Head – Marketing and Business Development, Techflow Enterprises.
“Techflow’s comprehensive offering of centrifugal fans ensures a perfect fit for any application. Our ID fans seamlessly integrate into the kiln system, creating the necessary draft to pull exhaust gases through the air pollution control equipment. Process fans, strategically placed throughout the plant, efficiently convey dust-laden air from various generation points, like clinker coolers and raw material handling, towards the filtration units. This modular approach minimises disruption during installation and ensures optimal dust collection across your entire cement production process,” he adds.
Dust control technologies in cement manufacturing each come with their own set of advantages and limitations. Bag filters are efficient and versatile, but they require frequent maintenance and have limited tolerance to high temperatures. Electrostatic precipitators (ESPs) are effective for high-temperature applications and require minimal maintenance, but they may be less effective for capturing fine particles and involve higher initial capital investment. Wet scrubbers are effective for both particles and gases, with high removal efficiencies, but they demand higher water consumption and maintenance, as well as complex design and integration requirements. Choosing the most suitable technology depends on specific needs and operating conditions, weighing the pros and cons of each option carefully.

  • Control and regulations
    The Indian government has established norms and regulations to control dust and fugitive emissions from cement plants. Some of the key norms include:
  • National Ambient Air Quality Standards (NAAQS): The NAAQS set by the Central Pollution Control Board (CPCB) establish limits on air pollutants, including particulate matter (PM) emissions, from all industries, including cement plants.
    Environment Protection Act (EPA): The EPA provides guidelines and regulations for controlling emissions from industries, including the
    cement industry.
    Cement Industry (Prevention and Control of Pollution) Rules, 2013: These rules set specific emission limits for cement plants in India. For example, the rules specify that PM emissions should not exceed 30 mg/Nm3 for dry kilns and 50 mg/Nm3 for wet kilns.
    Ministry of Environment, Forest and Climate Change (MoEFCC) guidelines: There are guidelines for the installation of pollution control equipment in cement plants, including bag filters, electrostatic precipitators and wet scrubbers.
    State pollution control boards: State pollution control boards are responsible for enforcing the norms and regulations related to dust and fugitive emissions at cement plants.
    Cement plants in India are required to comply with these norms and regulations to minimise their impact on the environment and public health. Failure to comply can result in fines, legal action and suspension of operations.

Preventive measures for dust
Controlling dust accumulation is crucial for maintaining a safe and healthy working environment in cement manufacturing plants. Implementing effective strategies and preventive maintenance measures, along with adopting appropriate housekeeping practices, can significantly reduce dust emissions and mitigate associated risks.
Regular inspection and maintenance routines for equipment, including crushers, mills, and conveyors, are essential to identify and rectify potential sources of dust emissions promptly. Employing dust suppression techniques, such as water sprays and fogging systems, during material handling operations can significantly reduce airborne dust.
Enclosing processing equipment and material transfer points, coupled with robust ventilation systems equipped with dust collectors, ensures the containment and capture of airborne particles. Proper material handling and storage practices, along with comprehensive employee training on safety protocols and dust control procedures, further contribute to minimising dust generation and exposure risks.
Additionally, maintaining cleanliness through regular housekeeping schedules, employing appropriate cleaning equipment, and fostering a culture of awareness among workers are vital aspects of effective dust management. By integrating these measures into their operations, cement plants can uphold clean and safe working environments, mitigate environmental impact, and ensure compliance with regulatory standards, thereby fostering sustainable and responsible practices within the industry.

Case Study: Dust monitoring solutions for cement plants

Particulate emissions from cement kilns have been reduced significantly over the last few decades due in part to ever-tightening regulatory controls including the lowering of emission limit values (ELVs) and the associated increase in installations of highly effective filtration systems which require higher quality monitoring.

  • Main emissions to air are from the kiln system
  • Additional potential sources include crushing plant, coal mills, clinker mills and silos
  • Recognising differing environmental conditions and process applications require different particulate emission measurement technology options, ENVEA offers an extensive technology range including Light Scatter, Probe Electrification, Opacity and Ratiometric Opacity for regulatory compliance and to facilitate filter and process optimisation.
  • Stack particulate emissions compliance measurement
  • Baghouse chamber and filter performance monitoring
  • Predictive bag filter row monitoring

PM CEMS IN THE KILN STACK: TECHNOLOGY CONSIDERATIONS
Technology choice is based on regulatory requirements including normal dust operating levels and filter type. As ELVs decrease, installations of Scatter-based systems (forward or back) are more common due to a measurement capability at very low dust concentrations. Systems are approved to the latest MCERTS and TUV standards with extensive quality assurance and audit features for ongoing quality assurance. Systems can be calibrated to provide a mg/m3 measurement in comparison to a standard reference (isokinetic) test.

MONITORING BEYOND THE MAIN KILN STACK
Bag filters are widely used as the preferred emission abatement for cement plants and there is a growing need for continuous monitoring to understand how the arrestment plant is working. Monitoring on individual compartment outlets provides data to Plant Operators which enables the location of faulty and failing filter media before gross failure occurs. This in turn ensures efficient operation and control of bag filter arrestment plant and considerably reduces maintenance costs and expensive process downtime.
Bag filter arrestment plants can be monitored by a networked system of ElectroDynamic™ Probe Electrification instruments, certified to TUV and MCERTS performance standards with patented features to a high performance under a wide range of process conditions.


Crushing Plant: ElectroDynamic™ technology-based systems suitable for relatively small diameter stacks with low dust loads, typically <5mg/m3
Silo Filters: Single sensor units or multi-channel networked systems for earlyarning of silo filter leakage or rupture preventing environmental impact and product loss
Coal Mills: Filter condition assessed remotely utilising PC-ME Dust Tools software
Clinker Mills: Fully insulated ElectroDynamic™ sensor for effective monitoring in humid conditions.

Concrete

Indian Cement Industry Sees Further Consolidation

Cement industry to face consolidation soon.

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India’s cement sector is set for further consolidation in the near-to-medium term, according to a recent report. With increasing competition, rising input costs, and the need for economies of scale, companies are expected to explore mergers and acquisitions (M&A) to strengthen their market positions. As the industry faces various challenges, including high energy costs and fluctuating demand, consolidation is viewed as a strategic move to drive growth and sustainability.

Key Points:
Market Consolidation: The Indian cement industry has already witnessed significant consolidation over the past few years, with several large firms acquiring smaller players to enhance their market share. The trend is expected to continue, driven by the need to optimize operations, cut costs, and gain better pricing power. Consolidation helps companies to expand their geographic reach and strengthen their portfolios.

Rising Costs and Challenges: One of the primary drivers of consolidation is the rising cost of inputs, particularly energy and raw materials. With costs of coal and petroleum coke (key energy sources for cement production) soaring, companies are looking for ways to maintain profitability. Smaller and medium-sized players, in particular, find it challenging to cope with these rising costs, making them more likely targets for acquisition by larger companies.

Economies of Scale: Larger cement companies benefit from economies of scale, which help them absorb the impact of rising input costs more effectively. Consolidation allows firms to streamline production processes, reduce operational inefficiencies, and invest in advanced technologies that improve productivity. These efficiencies become critical in maintaining competitiveness in an increasingly challenging environment.

M&A Activity: The report highlights the potential for more mergers and acquisitions in the cement sector, particularly among mid-sized and regional players. The Indian cement market, which is highly fragmented, presents numerous opportunities for larger companies to acquire smaller firms and gain a foothold in new markets. M&A activity is expected to accelerate as firms seek growth through strategic alliances and acquisitions.

Regional Focus: Consolidation efforts are likely to be regionally focused, with companies looking to expand their presence in specific geographic areas where demand for cement is strong. Infrastructure development, government projects, and urbanization are driving demand in various parts of the country, making regional expansions an attractive proposition for firms looking to grow.

Impact on Competition: While consolidation may lead to a more concentrated market, it could also intensify competition among the remaining players. Larger firms with more resources and market reach could dominate pricing strategies and influence market dynamics. Smaller firms may either merge or struggle to compete, leading to a reshaping of the competitive landscape.

Demand Outlook: The near-term outlook for the cement industry remains uncertain, with demand being influenced by factors such as construction activity, infrastructure projects, and government initiatives. The report notes that while urban demand is expected to remain stable, rural demand continues to face challenges due to slow construction activities in those areas. However, the long-term outlook remains positive, driven by ongoing infrastructure developments and real estate projects.

Sustainability Focus: Companies are also focusing on sustainability and environmental concerns. Consolidation can provide larger companies with the resources to invest in green technologies and reduce their carbon footprint. This focus on sustainability is becoming increasingly important, with both government regulations and market preferences shifting toward greener production practices.

Conclusion:
The Indian cement industry is poised for further consolidation in the coming years, driven by rising costs, competitive pressures, and the need for economies of scale. M&A activity is likely to accelerate, with larger firms targeting smaller and regional players to strengthen their market presence. While consolidation offers opportunities for growth and efficiency, it could also reshape the competitive landscape and influence pricing dynamics in the sector.

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Concrete

Cement Companies May Roll Back Hike

Cement firms reconsider September price increase.

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Cement companies in India might be forced to reverse the price hikes implemented in September due to weakened demand and pressure from competitive market conditions, according to a report by Nuvama Institutional Equities. The recent price increase, which was expected to improve margins, may not hold as demand falls short of expectations.

Key Points:
Price Hike in September: Cement firms across India increased prices in September, aiming to improve their margins amidst rising input costs. This was seen as a strategic move to stabilize earnings as they were grappling with inflationary pressures on raw materials like coal and pet coke.

Weak Demand and Pressure: However, demand has not surged as expected. In some regions, particularly rural areas, construction activity remains low, which has contributed to the tepid demand for cement. The combination of high prices and low demand may make it difficult for companies to maintain the elevated price levels.

Competitive Market Forces: Cement manufacturers are also under pressure from competitors. Smaller players may keep prices lower to attract buyers, forcing larger companies to consider rolling back the September hikes. The competitive dynamics in regions like South India, where smaller firms are prevalent, are likely to impact larger companies’ pricing strategies.

Nuvama Report Insights: Nuvama Institutional Equities has highlighted that the September price hikes may not be sustainable given current market conditions. According to the report, the demand-supply imbalance and weak construction activities across many states could push cement companies to reconsider their pricing strategies.

Impact on Margins: If companies are compelled to roll back the price hikes, it could hurt their profit margins in the near term. Cement firms had hoped to recover some of their input costs through the price increases, but the competitive landscape and slow demand recovery could negate these gains.

Regional Variations: Price rollback might not be uniform across the country. In regions where infrastructure development is picking up pace, cement prices may hold. Urban areas with ongoing real estate projects and government infrastructure initiatives could see a sustained demand, making price hikes more viable.

Future Outlook: The outlook for the cement sector will largely depend on the pace of recovery in construction activity, particularly in the housing and infrastructure sectors. Any significant recovery in rural demand, which is currently subdued, could also influence whether the price hikes will remain or be rolled back.

Strategic Adjustments: Cement firms may need to adopt a cautious approach in the near term, balancing between maintaining market share and protecting margins. Price adjustments in response to market conditions could become more frequent as companies try to adapt to the fluctuating demand.

Conclusion:
The September price hikes by cement companies may face reversal due to weak demand, competitive pressures, and market dynamics. Nuvama’s report signals that while the increase was aimed at margin recovery, it may not be sustainable, particularly in regions with low demand. The future of cement pricing will depend on construction sector recovery and regional market conditions.

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Concrete

Bridge Collapse Spurs Focus on Stainless Steel

Climate change prompts stainless steel push.

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The Ministry of Road Transport and Highways (MoRTH) is turning its attention to the use of stainless steel in bridge construction to counteract corrosion, an increasing issue linked to climate change. With recent bridge collapses highlighting the vulnerability of existing infrastructure to corrosion and extreme weather events, the ministry is promoting the adoption of durable materials like stainless steel to ensure the longevity and safety of India’s critical transport infrastructure.

Key Points:

Bridge Collapse and Climate Change: Recent incidents of bridge collapses across the country have raised alarm over the durability of current construction materials, with corrosion cited as a leading cause. Climate change, leading to harsher weather patterns and increased moisture levels, has accelerated the deterioration of key infrastructure. This has prompted MoRTH to consider long-term solutions to combat these challenges.

Corrosion: A Growing Concern: Corrosion of structural materials has become a serious issue, particularly in coastal and high-moisture regions. The Ministry has identified the need for a more resilient approach, emphasizing the use of stainless steel, known for its resistance to corrosion. This shift is seen as crucial in ensuring the longevity of India’s bridges and reducing maintenance costs over time.

Stainless Steel for Bridge Construction: Stainless steel, while more expensive initially, offers long-term savings due to its durability and resistance to environmental factors like moisture and salt. The Ministry is advocating for the material’s use in future bridge projects, particularly in areas prone to corrosion. Stainless steel is seen as a solution that can withstand the pressures of both natural elements and increasing traffic loads.

Government’s Proactive Steps: The government, through MoRTH, has started consulting with experts in the field of metallurgy and civil engineering to explore the expanded use of stainless steel. They are considering updates to construction standards and specifications to incorporate this material in new and rehabilitated infrastructure projects.

Economic Considerations: Although the initial investment in stainless steel may be higher than conventional materials, the reduced need for repairs and replacements makes it a cost-effective option in the long run. This approach also aligns with the government’s push for sustainable infrastructure that can withstand the test of time and climate change effects.

Future of Indian Infrastructure: With the push for stronger, more durable infrastructure, the Ministry’s move to adopt stainless steel for bridge construction marks a shift towards building climate-resilient structures. The use of this material is expected to not only enhance the safety and longevity of bridges but also reduce the financial burden on the government for constant repairs.

Industry Perspective: The stainless steel industry sees this shift as an opportunity to expand its market, particularly in the infrastructure sector. Stakeholders are engaging with the government to demonstrate the benefits of stainless steel, advocating for its increased use not just in bridges but across various infrastructure projects.

Conclusion: In response to the growing threat of climate change and its impact on infrastructure, the Ministry of Road Transport and Highways is prioritizing the use of stainless steel in bridge construction to combat corrosion and ensure the long-term durability of critical transport structures.

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