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Expertise
Expertise Overview
Industrial Energy Efficiency and Decarbonization
Electrification & Net-Zero Industry
Supply Chain Carbon and Energy Footprint
Industrial Demand Response
Manufacturing Resources Efficiency
Emerging Decarbonization Technologies
CCUS In Industry
Smart Manufacturing & Industrial IOT
Services
Services Overview
Modeling and Analysis
Program Design and EM&V
Technology and Industry Roadmapping
Market Research
Training and Capacity Building
Developing Countries Assistance
Industries
Steel Industry
Cement Industry
Chemical Industry
Refinery Industry
Pulp and Paper Industry
Aluminum Industry
Textile Industry
Food Industry
Cross-cutting topics
About
Vision and Mission
Our Team
Advisory Board
Projects
Projects List
What is Low-Carbon Steel?
Deep Decarbonization Roadmap for China’s Steel Industry
Electrification of Manufacturing
Border Carbon Adjustment
Textile Sustainability Hub
Electrification of Textile Industry
Buy Clean Policy in Canada
Electrification of Industry with Heat Pumps
Decarbonization of Cement Industry in Mexico
Climate Bonds Standard for Steel
Industrial Deep Decarbonization Initiative
Air Pollution from Steel and Cement Industry
Steel Industry's Energy And CO2 Benchmarking
Aluminum industry's Energy and CO2 Benchmarking
Advancing a Federal Buy Clean Policy
Electrification Of Industrial Boilers
Industrial Energy Efficiency in Ghana
Global Steel Production Costs
Thermal Process Intensification
Deep Decarbonization of the U.S. Industry
Embodied Carbon in the U.S. Manufacturing and Trade
Industrial EE Market Assessment in Indonesia
Supply Chain Sustainability and Decarbonization in Asia
Industrial and Commercial EM&V
Energy Efficiency in California's Chemical Industry
CCUS in Industry
Steel Industry's GHG Emissions Assessment
International Low-Carbon Public Procurement Programs
Decarbonizing California's Cement Industry
Water and Industry 4.0
Global Industrial Motor Systems Efficiency Initiative
The Embodied Carbon in Traded Products
GHG Impact of Buy Clean CA Legislation
Resources and Technology Assessment for Space Settlement
U.S. Industrial Motor Systems Efficiency Initiative
EE in Cement Industry in Middle East
Assisting Chinese Cities to Peak GHG Emissions
Energy Efficiency in Industry Sector in Egypt
Publications
Publications Overview
Scale and Impact of Green Public Procurement of Steel and Cement in Canada, Germany, UK, US
Electrifying European Industry
Electrification of Heating in A Textile Plant in India-Case Study
Low-Carbon Thermal Energy Technologies for The Textile Industry
Electrification of Industrial Heating in India - White Papers
Green Steel Economics
Decarbonization Potential for U.S. Industrial Subsectors
Green Hydrogen for Decarbonizing Asia's Industrial Giants
Limestone Calcined Clay Cement and Concrete in the U.S.
Green H2-DRI: 15 Challenges and solutions
Industrial Energy Efficiency and Decarbonization in Sri Lanka
Green Public Procurement of Steel and Cement in China
What are Green Cement and Concrete?
Electrifying Industrial Heating in China
Industrial Electrification in the Southwest States
Corporates, Electricity, and Renewables
Alternative Fuels Combustion in the Cement Industry
Embodied CO2 Emissions in Steel Imports to the U.S.
Deep Decarbonization Roadmap for PVC Industry in U.S.
Carbon Voyage Tool: Embodied Carbon in Trade
Stopping a Super-Pollutant: N2O Emissions Abatement from Adipic Acid Production
Green Public Procurement of Steel in India, Japan, South Korea
Net-Zero Roadmap for China’s Steel Industry
Industrial Electrification in U.S. States
What is Green Steel?
Electrification of Heating in the Textile Industry
U.S. Border Carbon Adjustment for Steel and Aluminum
Embodied Carbon in Trade: Carbon Loophole
Electrification of U.S. Manufacturing With Heat Pumps
Advancing Buy Clean Policy in Canada
Air Pollution from Global Cement Industry
Air Pollution from Global Steel Industry
US Industrial Decarbonization Roadmap
Thermal Process Intensification in Industry
Steel Climate Impact - International Benchmarking
Aluminum Climate Impact - International Benchmarking
Industrial Energy Efficiency in Ghana
Global Steel Production Costs
Electrification of Boilers in U.S. Manufacturing
Federal Buy Clean for Cement and Steel
Electrifying U.S. Industry
Low-Carbon Public Procurement - White Papers
Fostering Industry Transition through Green Public Procurement
Scale of Government Procurement of Carbon-Intensive Materials in US
Embodied Carbon In The U.S. Manufacturing And Trade
Industrial Supply Chains Decarbonization in Southeast Asia
How Clean is the U.S. Steel Industry?
Decarbonization Roadmap for California Cement
California’s Cement: Failing Climate Challenge
Carbon Loophole in Climate Policy
Green Public Procurement for Curbing Carbon Emissions
Industry 4.0 Technologies in Water and Sanitation
EE Potential in Industrial Motor Systems in Egypt
U.S. Industrial Motor Systems EE Reports
Dr. Hasanbeigi's Publication list
Blog
Search
Contact Us
Home
Expertise
Expertise Overview
Industrial Energy Efficiency and Decarbonization
Electrification & Net-Zero Industry
Supply Chain Carbon and Energy Footprint
Industrial Demand Response
Manufacturing Resources Efficiency
Emerging Decarbonization Technologies
CCUS In Industry
Smart Manufacturing & Industrial IOT
Services
Services Overview
Modeling and Analysis
Program Design and EM&V
Technology and Industry Roadmapping
Market Research
Training and Capacity Building
Developing Countries Assistance
Industries
Steel Industry
Cement Industry
Chemical Industry
Refinery Industry
Pulp and Paper Industry
Aluminum Industry
Textile Industry
Food Industry
Cross-cutting topics
About
Vision and Mission
Our Team
Advisory Board
Projects
Projects List
What is Low-Carbon Steel?
Deep Decarbonization Roadmap for China’s Steel Industry
Electrification of Manufacturing
Border Carbon Adjustment
Textile Sustainability Hub
Electrification of Textile Industry
Buy Clean Policy in Canada
Electrification of Industry with Heat Pumps
Decarbonization of Cement Industry in Mexico
Climate Bonds Standard for Steel
Industrial Deep Decarbonization Initiative
Air Pollution from Steel and Cement Industry
Steel Industry's Energy And CO2 Benchmarking
Aluminum industry's Energy and CO2 Benchmarking
Advancing a Federal Buy Clean Policy
Electrification Of Industrial Boilers
Industrial Energy Efficiency in Ghana
Global Steel Production Costs
Thermal Process Intensification
Deep Decarbonization of the U.S. Industry
Embodied Carbon in the U.S. Manufacturing and Trade
Industrial EE Market Assessment in Indonesia
Supply Chain Sustainability and Decarbonization in Asia
Industrial and Commercial EM&V
Energy Efficiency in California's Chemical Industry
CCUS in Industry
Steel Industry's GHG Emissions Assessment
International Low-Carbon Public Procurement Programs
Decarbonizing California's Cement Industry
Water and Industry 4.0
Global Industrial Motor Systems Efficiency Initiative
The Embodied Carbon in Traded Products
GHG Impact of Buy Clean CA Legislation
Resources and Technology Assessment for Space Settlement
U.S. Industrial Motor Systems Efficiency Initiative
EE in Cement Industry in Middle East
Assisting Chinese Cities to Peak GHG Emissions
Energy Efficiency in Industry Sector in Egypt
Publications
Publications Overview
Scale and Impact of Green Public Procurement of Steel and Cement in Canada, Germany, UK, US
Electrifying European Industry
Electrification of Heating in A Textile Plant in India-Case Study
Low-Carbon Thermal Energy Technologies for The Textile Industry
Electrification of Industrial Heating in India - White Papers
Green Steel Economics
Decarbonization Potential for U.S. Industrial Subsectors
Green Hydrogen for Decarbonizing Asia's Industrial Giants
Limestone Calcined Clay Cement and Concrete in the U.S.
Green H2-DRI: 15 Challenges and solutions
Industrial Energy Efficiency and Decarbonization in Sri Lanka
Green Public Procurement of Steel and Cement in China
What are Green Cement and Concrete?
Electrifying Industrial Heating in China
Industrial Electrification in the Southwest States
Corporates, Electricity, and Renewables
Alternative Fuels Combustion in the Cement Industry
Embodied CO2 Emissions in Steel Imports to the U.S.
Deep Decarbonization Roadmap for PVC Industry in U.S.
Carbon Voyage Tool: Embodied Carbon in Trade
Stopping a Super-Pollutant: N2O Emissions Abatement from Adipic Acid Production
Green Public Procurement of Steel in India, Japan, South Korea
Net-Zero Roadmap for China’s Steel Industry
Industrial Electrification in U.S. States
What is Green Steel?
Electrification of Heating in the Textile Industry
U.S. Border Carbon Adjustment for Steel and Aluminum
Embodied Carbon in Trade: Carbon Loophole
Electrification of U.S. Manufacturing With Heat Pumps
Advancing Buy Clean Policy in Canada
Air Pollution from Global Cement Industry
Air Pollution from Global Steel Industry
US Industrial Decarbonization Roadmap
Thermal Process Intensification in Industry
Steel Climate Impact - International Benchmarking
Aluminum Climate Impact - International Benchmarking
Industrial Energy Efficiency in Ghana
Global Steel Production Costs
Electrification of Boilers in U.S. Manufacturing
Federal Buy Clean for Cement and Steel
Electrifying U.S. Industry
Low-Carbon Public Procurement - White Papers
Fostering Industry Transition through Green Public Procurement
Scale of Government Procurement of Carbon-Intensive Materials in US
Embodied Carbon In The U.S. Manufacturing And Trade
Industrial Supply Chains Decarbonization in Southeast Asia
How Clean is the U.S. Steel Industry?
Decarbonization Roadmap for California Cement
California’s Cement: Failing Climate Challenge
Carbon Loophole in Climate Policy
Green Public Procurement for Curbing Carbon Emissions
Industry 4.0 Technologies in Water and Sanitation
EE Potential in Industrial Motor Systems in Egypt
U.S. Industrial Motor Systems EE Reports
Dr. Hasanbeigi's Publication list
Blog
Search
Contact Us
Energy Efficiency in Arizona, California, Montana, and Washington's Industrial Compressed Air Systems
$2,800.00
Energy Efficiency in Arizona, California, Montana, and Washington's Industrial Fan Systems
$2,800.00
Energy Efficiency in Arizona, California, Montana, and Washington's Industrial Pump Systems
$2,800.00
Energy Efficiency in Massachusetts, New Hampshire, New Jersey, and New York's Industrial Compressed Air Systems
$2,800.00
Energy Efficiency in Massachusetts, New Hampshire, New Jersey, and New York's Industrial Fan Systems
$2,800.00
Energy Efficiency in Massachusetts, New Hampshire, New Jersey, and New York's Industrial Pump Systems
$2,800.00
Energy Efficiency in Illinois, Indiana, Michigan, Ohio, and Wisconsin's Industrial Compressed Air Systems
$2,800.00
Energy Efficiency in Illinois, Indiana, Michigan, Ohio, and Wisconsin's Industrial Fan Systems
$2,800.00
Energy Efficiency in Illinois, Indiana, Michigan, Ohio, and Wisconsin's Industrial Pump Systems
$2,800.00
Energy Efficiency in Florida, Georgia, North Carolina, South Carolina, and Virginia's Industrial Compressed Air Systems
$2,800.00
Energy Efficiency in Florida, Georgia, North Carolina, South Carolina, and Virginia's Industrial Fan Systems
$2,800.00
Energy Efficiency in Florida, Georgia, North Carolina, South Carolina, and Virginia's Industrial Pump Systems
$2,800.00
Energy Efficiency in Arkansas, Louisiana, Oklahoma, and Texas' Industrial Compressed Air Systems
$2,800.00
Energy Efficiency in Arkansas, Louisiana, Oklahoma, and Texas' Industrial Fan Systems
$2,800.00
Energy Efficiency in Arkansas, Louisiana, Oklahoma, and Texas' Industrial Pump Systems
$2,800.00
Energy Efficiency in Iowa, Kansas, Missouri, Nebraska, and South Dakota's Industrial Compressed Air Systems
$2,800.00
Energy Efficiency in Iowa, Kansas, Missouri, Nebraska, and South Dakota's Industrial Fan Systems
$2,800.00
Energy Efficiency in Iowa, Kansas, Missouri, Nebraska, and South Dakota's Industrial Pump Systems
$2,800.00
Energy Efficiency in Alabama, Kentucky, and Tennessee's Industrial Compressed Air Systems
$2,500.00
Energy Efficiency in Alabama, Kentucky, and Tennessee's Industrial Fan Systems
$2,500.00
Energy Efficiency in Alabama, Kentucky, and Tennessee's Industrial Pump Systems
$2,500.00