Negative CO2 Cement, The Blue Ocean of Growth
REPORT SCOPE:
The scope of this report covers various types of products available in the global market for negative CO2 cement and their potential application across various industries and sectors. The market is segmented by type into magnesium oxide-based cement, iron oxide-based cement, fly ash-based cement, high activation grinding based cement, geopolymer cement and calcium carbonate cement. Revenue forecasts from 2017 to 2022 are given for each type, application segment and regional market with an estimated value derived from manufacturers’ total revenues.
REPORT INCLUDES:
The scope of this report covers various types of products available in the global market for negative CO2 cement and their potential application across various industries and sectors. The market is segmented by type into magnesium oxide-based cement, iron oxide-based cement, fly ash-based cement, high activation grinding based cement, geopolymer cement and calcium carbonate cement. Revenue forecasts from 2017 to 2022 are given for each type, application segment and regional market with an estimated value derived from manufacturers’ total revenues.
REPORT INCLUDES:
- An overview of the total market opportunity and analysis of the technology by type, the growth drivers and the global regulatory frameworks for the nascent negative CO2 cement
- Growth prospects and market based projections for the technologies fueling the negative CO2 market including cements formulated with magnesium oxide, iron oxide, fly ash, high activation grinding, geopolymer and calcium carbonate
- An estimate of the market performance from 2017 to 2023 applications such as residential, commercial, industrial, marine infrastructure and others
- Commentary on the market provided by Geopolymer Solutions, LLC and IronKast Technologies
CHAPTER 1 NOTE FROM THE EDITOR
CHAPTER 2 INTRODUCTION
Study Goals and Objectives
Reasons for Doing This Study
Scope of Report
Methodology
Geographic Breakdown
Roadmap of Negative CO2 Cement Market
Investment Analysis
What the Industry is Saying
Analyst's Credentials
BCC Custom Research
Related BCC Research Reports
CHAPTER 3 INDUSTRY OVERVIEW AND MARKET ESTIMATES
Negative CO2 Cement: Concept Overview
Regulatory Framework
China
India
European Union
U.S.
Market Estimates and Growth Prospects
Types of Negative CO2 Cement
Magnesium Oxide-Based Cement
Iron Oxide-Based Cement
Fly Ash-Based Cement
Energetically Modified Cement/High Activation Grinding Based Cement
Geopolymer-Based Cement
Calcium Carbonate Cement
Applications for Negative CO2 Cement
Residential Buildings
Commercial Buildings
Others
Marine
Industrial
Analysis by Region
North America
Europe Union
Asia-Pacific
Rest of the World
Negative CO2 Cement vs. Portland Cement
Negative CO2 Cement vs. Alternatives
Future of the Market
Strategies of Major Cement Manufacturers
CHAPTER 4 COMPANY PROFILES
CHAPTER 2 INTRODUCTION
Study Goals and Objectives
Reasons for Doing This Study
Scope of Report
Methodology
Geographic Breakdown
Roadmap of Negative CO2 Cement Market
Investment Analysis
What the Industry is Saying
Analyst's Credentials
BCC Custom Research
Related BCC Research Reports
CHAPTER 3 INDUSTRY OVERVIEW AND MARKET ESTIMATES
Negative CO2 Cement: Concept Overview
Regulatory Framework
China
India
European Union
U.S.
Market Estimates and Growth Prospects
Types of Negative CO2 Cement
Magnesium Oxide-Based Cement
Iron Oxide-Based Cement
Fly Ash-Based Cement
Energetically Modified Cement/High Activation Grinding Based Cement
Geopolymer-Based Cement
Calcium Carbonate Cement
Applications for Negative CO2 Cement
Residential Buildings
Commercial Buildings
Others
Marine
Industrial
Analysis by Region
North America
Europe Union
Asia-Pacific
Rest of the World
Negative CO2 Cement vs. Portland Cement
Negative CO2 Cement vs. Alternatives
Future of the Market
Strategies of Major Cement Manufacturers
CHAPTER 4 COMPANY PROFILES
LIST OF TABLES
Summary Table: Global Negative CO2 Cement Market, Through 2023
Table 1: Low-Carbon Cements in Comparison with Portland Cement
Table 2: Comparison of Permissible Limits of Airborne Emissions
Table 3: Cements at Different Stages of the Product Life Cycle
Table 4: Global Negative CO2 Cement Market, by Type, Through 2023
Table 5: Comparison of Ordinary Portland Cement and Magnesium Oxide-Based Cement
Table 6: Raw Materials Required for Iron Oxide-Based Cement Manufacturing
Table 7: Global Market for Iron Oxide-Based Cement, by Region, Through 2023
Table 8: Performance Comparison of OPC and Iron Oxide-Based Cement
Table 9: Global Market for Fly Ash-Based Cement, by Region, Through 2023
Table 10: Advantages and Disadvantages of Using Fly Ash-Based Cement
Table 11: Low-Carbon Innovations in Clinker Substitution and Binders
Table 12: Global High Activation Grinding Based Cement, by Region, Through 2023
Table 13: Benefits of High Activation Grinding
Table 14: Global Geopolymer Cement Market, by Region, Through 2023
Table 15: Global Market for Calcium Carbonate Cement, by Region, Through 2023
Table 16: Global Negative CO2 Cement Market, by Application, Through 2023
Table 17: Low-Carbon or Carbon-Negative Alternatives to Portland Cement Technologies
Table 18: Expected Savings from Fly Ash-based Cement in a Three-story (50,000 ft2) Commercial Building
Table 19: Global Negative CO2 Cement Market, by Region, Through 2023
Table 20: Regulations for Cement and Concrete Proposed by the Canadian Standards Association
Table 21: Carbon Cost Assessment for Infrastructure Projects as Per LCCA and LCA Structure
Table 22: EU Targets for Greenhouse Gas (GHG) Emission
Table 23: Negative CO2 Cement vs. Portland Cement
Table 24: Negative CO2 Cement vs. Alternatives
Summary Table: Global Negative CO2 Cement Market, Through 2023
Table 1: Low-Carbon Cements in Comparison with Portland Cement
Table 2: Comparison of Permissible Limits of Airborne Emissions
Table 3: Cements at Different Stages of the Product Life Cycle
Table 4: Global Negative CO2 Cement Market, by Type, Through 2023
Table 5: Comparison of Ordinary Portland Cement and Magnesium Oxide-Based Cement
Table 6: Raw Materials Required for Iron Oxide-Based Cement Manufacturing
Table 7: Global Market for Iron Oxide-Based Cement, by Region, Through 2023
Table 8: Performance Comparison of OPC and Iron Oxide-Based Cement
Table 9: Global Market for Fly Ash-Based Cement, by Region, Through 2023
Table 10: Advantages and Disadvantages of Using Fly Ash-Based Cement
Table 11: Low-Carbon Innovations in Clinker Substitution and Binders
Table 12: Global High Activation Grinding Based Cement, by Region, Through 2023
Table 13: Benefits of High Activation Grinding
Table 14: Global Geopolymer Cement Market, by Region, Through 2023
Table 15: Global Market for Calcium Carbonate Cement, by Region, Through 2023
Table 16: Global Negative CO2 Cement Market, by Application, Through 2023
Table 17: Low-Carbon or Carbon-Negative Alternatives to Portland Cement Technologies
Table 18: Expected Savings from Fly Ash-based Cement in a Three-story (50,000 ft2) Commercial Building
Table 19: Global Negative CO2 Cement Market, by Region, Through 2023
Table 20: Regulations for Cement and Concrete Proposed by the Canadian Standards Association
Table 21: Carbon Cost Assessment for Infrastructure Projects as Per LCCA and LCA Structure
Table 22: EU Targets for Greenhouse Gas (GHG) Emission
Table 23: Negative CO2 Cement vs. Portland Cement
Table 24: Negative CO2 Cement vs. Alternatives
LIST OF FIGURES
Figure 1: Cement Production, by Country, 2015
Figure 2: CO2 Emission Through Cement Production
Figure 3: Production Process of Geopolymer Cement
Figure 4: Production of CO2 Free Calcium Carbonate Cement from Solar Thermal Process
Figure 5: Characteristics of Zero-Carbon Buildings
Figure 6: Increased Life of Structures Using Low Carbon Concrete
Figure 7: U.S. Annual CO2 Emission from Fossil Fuels, by Sector, 2017
Figure 8: Share of Cement Sales in the U.S., by Sector, 2017
Figure 9: Greenhouse Gas Emission in Canada, by Sector, 2017
Figure 10: Infrastructure Spending in Europe Since 2013
Figure 11: Investment Focus in Infrastructure Sector in Europe, 2018-2023
Figure 12: World Cement Consumption, 2010-2015
Figure 13: Top Cement Consumers, 2016
Figure 14: Sources of CO2 Emissions in the Cement Industry
Figure 1: Cement Production, by Country, 2015
Figure 2: CO2 Emission Through Cement Production
Figure 3: Production Process of Geopolymer Cement
Figure 4: Production of CO2 Free Calcium Carbonate Cement from Solar Thermal Process
Figure 5: Characteristics of Zero-Carbon Buildings
Figure 6: Increased Life of Structures Using Low Carbon Concrete
Figure 7: U.S. Annual CO2 Emission from Fossil Fuels, by Sector, 2017
Figure 8: Share of Cement Sales in the U.S., by Sector, 2017
Figure 9: Greenhouse Gas Emission in Canada, by Sector, 2017
Figure 10: Infrastructure Spending in Europe Since 2013
Figure 11: Investment Focus in Infrastructure Sector in Europe, 2018-2023
Figure 12: World Cement Consumption, 2010-2015
Figure 13: Top Cement Consumers, 2016
Figure 14: Sources of CO2 Emissions in the Cement Industry
