8 results ·
● Live web index
G
globalefficiencyintel.com
article
https://www.globalefficiencyintel.com/emerging-industrial-decarbonization-tec…
# Global Efficiency Intelligence. # **Emerging Industrial Decarbonization Technologies**. In light of the projected increase in global population and absolute energy demand through 2050, further reductions in energy use and CO₂ emissions will require innovations beyond currently commercialized technologies. New developments will likely involve advanced processes, materials, and solutions that reduce energy consumption and CO₂ emissions across various economic sectors. Although existing studies have identified a range of conventional energy-efficiency measures in manufacturing and commercial buildings, information on emerging and cutting-edge low-carbon technologies remains limited and dispersed. Global Efficiency Intelligence leverages extensive expertise in identifying and analyzing emerging technologies for various industrial subsectors. Our research delivers actionable intelligence on potential applications, adoption trends, international vendors, and business models for advanced energy efficiency and CO₂ mitigation solutions. This knowledge provides strategic guidance to investors, businesses, policymakers, utilities, and other stakeholders, enabling more informed decisions. Mailing Address: 7901 4th St. N STE 4611. St. Petersburg, Tampa Bay, FL 33702. Copyright © 2025 Global Efficiency Intelligence, LLC.
W
www1.eere.energy.gov
official
https://www1.eere.energy.gov/iedo/downloads/2023/peer_review/Kao_IEDO_CST_Eme…
MATERIAL EFFICIENCIES) INDUSTRIAL ELECTRIFICATION CARBON CAPTURE, UTILIZATION, AND STORAGE (CCUS) + OTHER LCFFES Sources: (1) DOE Industrial Decarbonization Roadmap, September 2022 Four Main Strategies to Decarbonize the Manufacturing Sector 3 U.S. DEPARTMENT OF ENERGY OFFICE OF ENERGY EFFICIENCY & RENEWABLE ENERGY Approach to Emerging Efficiency and Decarbonization Cross-sector decarbonization will require a multi-modal approach … addressing RD&D opportunities across all pillars of decarbonization Outside the plant: enabling and enhancing facility capabilities to interface with the grid of the future At the plant: advanced facility management and operations such as smart manufacturing In the plant: Alternative and novel processes that dramatically reduce GHGs Sources: (1) DOE Industrial Decarbonization Roadmap, September 2022 4 U.S. DEPARTMENT OF ENERGY OFFICE OF ENERGY EFFICIENCY & RENEWABLE ENERGY Emerging Technologies Background Advanced thermal management and operational innovation in 4 key technology areas Industrial Flexibility 5 U.S. DEPARTMENT OF ENERGY OFFICE OF ENERGY EFFICIENCY & RENEWABLE ENERGY Challenges and Barriers Challenges/Barriers Emerging Decarbonization Examples Legacy process equipment not designed for transformative efficiency improvements • Thermal Management: current heat exchanger materials/designs cannot efficiently transfer heat at low cold approach temperatures.
C
cleanplanetchemical.com
article
https://www.cleanplanetchemical.com/top-11-ways-to-reduce-the-carbon-footprin…
There are numerous ways to help reduce industrial carbon emissions: adopting new green technologies like solvent recovery, employing waste reduction strategies, or empowering employees to make green choices, to name a few. **Upgrading equipment, optimizing processes, and implementing energy-saving technologies** can substantially reduce energy consumption and, consequently, industrial carbon emissions. Encourage your suppliers to adopt eco-friendly practices, source sustainable materials, and reduce their own industrial carbon emissions. As a result, businesses not only save costs by reducing their dependence on expensive virgin solvents but also contribute to a more sustainable environment by mitigating GHGs. CleanPlanet’s AlwaysClean solvent recyclers come accompanied with the MyCleanPlanet portal—a real-time monitoring platform that provides data on solvent recovery yield, waste production, energy consumption, GHG emissions reduction, and more. By integrating these strategies, you can significantly reduce your industrial carbon emissions footprint and contribute to a more sustainable industrial landscape. ⁹Massachusetts Institute of Technology (2021) – Reducing Industrial Carbon Emissions. ¹⁰Massachusetts Institute of Technology (2021) – Reducing Industrial Carbon Emissions.
R
resourcewise.com
article
https://www.resourcewise.com/blog/2026-spotlight-emerging-carbon-removal-tech…
Emerging carbon removal technologies and their potential impact on climate strategies are growing in 2026, with a focus on biogenic CO₂
I
industrialdecarbonizationnetwork.com
article
https://www.industrialdecarbonizationnetwork.com/emissions-management/article…
Transitioning to net-zero emissions is a significant task for the world, requiring big changes in manufacturing, consuming, and traveling, as well as major transformations in key industries. Although the EU steel industry has tried to lessen emissions by being more energy efficient and raising recycling rates, cutting emissions by 26% since 1990, they still need bigger changes to meet net-zero carbon goals. Placing the Meva system near the wood waste site establishes an independent, nearby energy system, letting the IKEA Industry cut CO2 emissions by 14,000 tons annually. Some of the most effective clean technologies deal with carbon avoidance in producing basic industrial items like electricity, cement, steel, ammonia and hydrogen. Carbon avoidance cuts the emissions at the source by looking for alternative energy sources and managing waste. Not only does carbon capture work with renewable energy sources, providing reliable backup and smoother integration, but it also supports wide-ranging industries like power generation, cement making, and steel production.
W
weforum.org
article
https://www.weforum.org/stories/2021/03/reduce-emissions-industrial-clusters/
1. Systemic efficiency and circularity 2. Direct electrification and renewable heat 3. Hydrogen 4. Carbon capture, utilization and storage (CCUS)
I
iea.org
article
https://www.iea.org/reports/energy-technology-perspectives-2020/technology-ne…
An energy sector transition to net-zero CO2 emissions by 2070 of the kind depicted in the Sustainable Development Scenario requires a radical technological transformation of the energy sector. Energy efficiency and renewables are central pillars, but additional technologies are needed to achieve net-zero emissions. Four technology value chains contribute about half of the cumulative CO2 savings: technologies to widely electrify end-use sectors (such as advanced batteries); carbon capture, utilisation and storage (CCUS); hydrogen and hydrogen-related fuels; and bioenergy. ### Global energy sector CO2 emissions reductions by measure in the Sustainable Development Scenario relative to the Stated Policies Scenario. The share of electricity in final energy demand grows from one-fifth today to nearly 50% in 2070 in the Sustainable Development Scenario, contributing almost a fifth of cumulative CO2 savings. In the Sustainable Development Scenario, bioenergy with carbon capture and direct air capture create in combination with storage 3 Gt of negative emissions in 2070 or are used to produce 5 mb/d of clean aviation fuels.
N
netzeroinsights.com
article
https://netzeroinsights.com/resources/climate-tech-drives-industrial-decarbon…
Achieving Net-Zero emissions in Industry requires **substantial investment**, with the steel sector alone requiring an additional USD 235-335 billion by 2050, and cement decarbonization needing up to USD 300 billion. At Net Zero Insights, we track Climate Tech companies pioneering solutions to reduce emissions across cement and concrete, steel and iron, chemicals, mineral extraction, and other hard-to-abate industries. The **Climate Tech Taxonomy** provides a structured framework for categorizing solutions across key industries—such as materials, chemicals, extraction and mining, cement and concrete, iron and steel, and more. Our **Sustainable Mining Solutions Stack** provides a comprehensive overview of Climate Tech companies developing innovative solutions to tackle challenges across the mineral extraction supply chain—from responsible sourcing and extraction to material recycling. Achieving a low-carbon future in sectors such as steel, cement, chemicals, and mining requires rapid deployment of Climate Tech solutions, backed by substantial private capital and increased public sector support.