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PUBLISHER: Global Market Insights Inc. | PRODUCT CODE: 1532510

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PUBLISHER: Global Market Insights Inc. | PRODUCT CODE: 1532510

Cement Waste Heat Recovery System Market - By Application (Pre-Heating, Electricity & Steam Generation), By Temperature (<230&deg;C, 230&deg;C - 650 &deg;C, >650 &deg;C), Growth Forecast 2024 - 2032

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Cement Waste Heat Recovery System Market will infer a 7.8% CAGR during 2024-2032, driven by the increasing focus on energy efficiency and sustainability. According to IEA, global investments in energy efficiency, including initiatives such as building renovations, public transportation improvements, and electric vehicle infrastructure, totaled USD 560 billion in 2022.

As industries face mounting pressure to reduce their environmental impact and operate more sustainably, cement manufacturers are turning to waste heat recovery systems as a key solution to enhance energy efficiency. By capturing and reusing waste heat generated during the cement production process, these systems significantly lower energy consumption and reduce operational costs. The shift towards sustainable practices is further supported by global initiatives and regulations aimed at minimizing carbon footprint and promoting eco-friendly technologies.

The introduction of modern heat exchangers designed to handle higher temperatures and improve thermal conductivity, resulting in more effective heat transfer and reduced energy losses, will further shape the market dynamics.

The cement waste heat recovery system industry is classified based on application, temperature, and region.

The 230°C - 650°C segment will witness considerable demand during 2024 and 2032, as this temperature range is optimal for capturing and recovering waste heat from industrial processes that operate at moderate to high temperatures, such as cement kilns and clinker coolers. Systems designed to operate within this temperature range offer high efficiency in energy recovery and can significantly enhance the overall thermal performance of cement plants. By effectively utilizing waste heat in this temperature range, cement manufacturers can achieve substantial energy savings, reduce reliance on fossil fuels, and lower production costs, making it a preferred choice for many industry players.

The pre-heating application segment will hold a notable market share by 2032, as it reduces the energy required for the main heating process and enhances the overall efficiency of cement production. This application not only lowers fuel consumption but also improves the quality of the final product by ensuring a more consistent and controlled heating process. As cement manufacturers increasingly recognize the benefits of pre-heating in reducing operational costs and enhancing production efficiency, the demand for waste heat recovery systems tailored for this application is expected to rise.

Europe cement waste heat recovery system industry size will grow steadily through 2032, due to the region's commitment to sustainability and energy efficiency. The countries in the region are at the forefront of implementing stringent environmental regulations and policies aimed at reducing industrial carbon emissions. The introduction of incentives for adopting energy-efficient technologies is further accelerating the deployment of waste heat recovery systems in the cement sector. Additionally, the presence of advanced manufacturing capabilities and a strong emphasis on R&D in Europe are contributing to the market growth.

Product Code: 9563

Table of Contents

Chapter 1 Methodology & Scope

  • 1.1 Research design
    • 1.1.1 Research approach
    • 1.1.2 Data collection methods
  • 1.2 Base estimates & calculations
    • 1.2.1 Base year calculations
    • 1.2.2 Key trends for market estimation
  • 1.3 Forecast model
  • 1.4 Primary research and validation
    • 1.4.1 Primary sources
    • 1.4.2 Data mining sources
  • 1.5 Market definitions

Chapter 2 Executive Summary

  • 2.1 Industry 360° synopsis, 2021 - 2032

Chapter 3 Industry Insights

  • 3.1 Industry ecosystem analysis
  • 3.2 Regulatory landscape
  • 3.3 Industry impact forces
    • 3.3.1 Growth drivers
    • 3.3.2 Industry pitfalls & challenges
  • 3.4 Growth potential analysis
  • 3.5 Porter's analysis
    • 3.5.1 Bargaining power of suppliers
    • 3.5.2 Bargaining power of buyers
    • 3.5.3 Threat of new entrants
    • 3.5.4 Threat of substitutes
  • 3.6 PESTEL analysis

Chapter 4 Competitive landscape, 2023

  • 4.1 Introduction
  • 4.2 Strategic dashboard
  • 4.3 Innovation & sustainability landscape

Chapter 5 Market Size and Forecast, By Application, 2021 - 2032 (USD Billion)

  • 5.1 Key trends
  • 5.2 Pre-heating
  • 5.3 Electricity & steam generation
    • 5.3.1 Steam rankine cycle
    • 5.3.2 Organic rankine cycle
    • 5.3.3 Kalina cycle
  • 5.4 Other

Chapter 6 Market Size and Forecast, By Temperature, 2021 - 2032 (USD Billion)

  • 6.1 Key trends
  • 6.2 < 230°C
  • 6.3 230°C - 650 °C
  • 6.4 > 650 °C

Chapter 7 Market Size and Forecast, By Region, 2021 - 2032 (USD Billion)

  • 7.1 Key trends
  • 7.2 North America
    • 7.2.1 U.S.
    • 7.2.2 Canada
    • 7.2.3 Mexico
  • 7.3 Europe
    • 7.3.1 Germany
    • 7.3.2 UK
    • 7.3.3 France
    • 7.3.4 Italy
    • 7.3.5 Spain
  • 7.4 Asia Pacific
    • 7.4.1 China
    • 7.4.2 Australia
    • 7.4.3 India
    • 7.4.4 Japan
    • 7.4.5 South Korea
  • 7.5 Middle East & Africa
    • 7.5.1 Saudi Arabia
    • 7.5.2 UAE
    • 7.5.3 South Africa
  • 7.6 Latin America
    • 7.6.1 Brazil
    • 7.6.2 Argentina

Chapter 8 Company Profiles

  • 8.1 AURA
  • 8.2 Bosch Industriekessel GmbH
  • 8.3 Climeon
  • 8.4 CTP TEAM S.R.L
  • 8.5 Cochran
  • 8.6 Forbes Marshall
  • 8.7 IHI Corporation
  • 8.8 John Wood Group PLC
  • 8.9 Kawasaki Heavy Industries, Ltd.
  • 8.10 MITSUBISHI HEAVY INDUSTRIES, LTD.
  • 8.11 Promec Engineering
  • 8.12 Sofinter S.p.a
  • 8.13 Siemens Energy
  • 8.14 Turboden S.p.A.
  • 8.15 Thermax Limited
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