Advanced Search

Search Results

Advanced Search

Results 31–40 of 74
Sep 2023
/
C1 Chemicals and Fertilizers
Renewable Chemicals and Energy

Ammonia as a Hydrogen Carrier (2023 Program)

The report provides a comprehensive review of the technology landscape for ammonia cracking, covering major licensors and emerging technologies. The economic analysis describes production costs for hydrogen from ammonia cracking in Western Europe and Japan (importers of low carbon ammonia in the hydrogen economy). A value chain analysis comparing the cost per delivered ton of hydrogen through direct transport of liquefied hydrogen versus hydrogen via ammonia cracking is presented for blue and green hydrogen / ammonia. A carbon intensity analysis covering scope 1, 2 and 3 emissions for the value chains described is also detailed, with commentary around the potential cost implications under the carbon border adjustment mechanism (CBAM).
PDF icon Download Table of Contents (207.17 KB)
PDF icon Download Flyer (173.85 KB)
Sep 2023
/
Polymers and Plastics
Oil, Gas and Refined Products
Renewable Chemicals and Energy

Low Carbon Intensity Propylene - A Technoeconomic and Carbon Intensity Study - 2023

This report compares the various options for lowering carbon intensity of propylene production via technoeconomic, carbon intensity, and strategic analysis. Regional cost and carbon intensity baselines, comparative carbon intensities (including breakdown and analysis by Scope 1, 2, and 3 Emissions) of decarbonization configurations, cost of productions, and impacts of carbon tax/credits on competitiveness (including break-even values) are analyzed across four regions: US, Brazil, China, and Western Europe. Additional regions/countries are available as an add-on.
PDF icon Download Table of Contents (205.88 KB)
PDF icon Download Abstract (845.95 KB)
Sep 2023
/
Polymers and Plastics
Renewable Chemicals and Energy
Specialty Chemicals and Advanced Materials

Membrane Materials for Hydrogen (2023 Program)

This report focuses on perfluorinated sulfonic acid (PFSA) proton exchange membranes (PEM) commercial technologies, process economics in the US, Western Europe, and China for those homogeneous, reinforced and catalyst-coated membranes for the first quarter of 2023 as well as global production capacity. These are crucial to green hydrogen production (i.e., hydrogen made from renewable power via electrolysis). NexantECA also provided a high-level analysis of the business and strategic considerations as well as the technology availability from the perspective of a company entering or expanding into the PFSA PEM market.
PDF icon Download Table of Contents (327.47 KB)
PDF icon Download Flyer (126.92 KB)
Aug 2023
/
Renewable Chemicals and Energy

Biorenewable Insights: Ethanol (2023 Program)

The purpose of this report is to analyze the developments the first and next generation bioethanol technologies. Production options explored several global regions and technologies covering fermentation route of the first-generation feedstock, hydrolysis and fermentation of the second-generation feedstock, and syngas fermentation from a technical, economic (cost of production model), carbon intensity, and capacity level. A discussion of implications for the conventional technologies is also included.
PDF icon Download Table of Contents (164.81 KB)
PDF icon Download Flyer (144.09 KB)
Aug 2023
/
Renewable Chemicals and Energy

Biorenewable Insights: Renewable DME (2023 Program)

This report assesses Renewable DME production pathways in terms of their technical, economic, and carbon intensity aspects, in line with increasing pressure to decarbonize industrial boilers, off-grid power, medium- and heavy-duty transport, heating, and cooking applications. Key technologies covered at the cost of production level include gasification of forestry, agricultural, and municipal solid waste, reforming of glycerine, and biogas, and renewable power to DME. This report also presents a comparative analysis of the overall carbon intensity, considering scope 1, scope 2, and upstream scope 3 emissions across these fuel pathways.
PDF icon Download Table of Contents (198.69 KB)
PDF icon Download Flyer (159.46 KB)
Jul 2023
/
Oil, Gas and Refined Products
Renewable Chemicals and Energy
Specialty Chemicals and Advanced Materials

Industrial Graphite Electrodes (2023 Program)

This report covers the techno-economics of the industrial graphite electrode sector, a key enabling technology for the steel and aluminum industries as well as for a large variety of high temperature processes. Industrial graphite electrodes are vital for the decarbonization of the steel industry and critical for aluminum smelting, but are facing short-term pressures from the rapid retreat from coal in Chinese steel and competition for synthetic graphite from the battery sector. Technology and economics for major production processes for functional graphite electrodes are covered and used to support a strategic overview of the sector.
PDF icon Download Table of Contents (147.41 KB)
PDF icon Download Flyer (146.81 KB)
Jul 2023
/
Renewable Chemicals and Energy

Biorenewable Insights: Low Carbon Intensity Marine Fuels (2023 Program)

This report assesses low-carbon marine fuel technologies in terms of their technical, economic, and carbon intensity aspects, aligning with the International Maritime Organization (IMO)’s goals of reducing GHG emissions in the global maritime industry by at least 50 percent from 2008 levels by 2050 and achieving zero-emissions by 2100.  Key technologies covered at the cost of production level include Renewable Diesel, Fatty Acid Methyl Esters (FAME), Renewable Natural Gas (RNG), MSW-based bio-methanol, e-methanol, green ammonia and green hydrogen.   This report also presents a comparative analysis of the overall carbon intensity, considering scope 1, scope 2, upstream scope 3 and downstream scope 3 (fuel combustion) emissions across these fuel pathways.
PDF icon Download Table of Contents (211.66 KB)
PDF icon Download Flyer (163.8 KB)
Apr 2023
/
C1 Chemicals and Fertilizers
Oil, Gas and Refined Products
Renewable Chemicals and Energy

Low Carbon Intensity Hydrogen - A Technoeconomic and Carbon Intensity Study - 2023

Traditionally hydrogen is generated from fossil feedstock and processes that emit significant amounts of CO2. Green and other colors of hydrogen hold significant potential and interest for decarbonization of sectors that have previously been difficult to decarbonize. This includes both existing applications (e.g., refining, feedstock for chemicals) as well as emerging applications (e.g., e-methanol, e-ammonia, e-SAF), as well as potential in direct use for carbon emission free combustion. Growing interest in low carbon intensity hydrogen has stemmed from mounting net zero pledges and decarbonization goals, and an increasing focus on the energy transition. Production options explored several global regions (US, China, Brazil, and Western Europe) and technologies covering thermochemical (biomass gasification), bio-methane reforming, carbon capture, electrolysis, and other advanced pathways from a technical, economic (cost of production model), and carbon intensity level—including breakeven values for emission reductions under carbon taxation scenarios.
PDF icon Download Table of Contents (236.74 KB)
PDF icon Download Flyer (182.18 KB)
Dec 2022
/
Oil, Gas and Refined Products
Renewable Chemicals and Energy

Low Carbon Intensity Aromatics - A Technoeconomic and Carbon Intensity Study

This report compares the various options for lowering carbon intensity of aromatics production (benzene, toluene, mixed xylenes, and para-xylene) via technoeconomic, carbon intensity, and strategic analysis. Regional cost and carbon intensity baselines, comparative carbon intensities of decarbonization configurations, cost of productions, and impacts of carbon tax/credits on competitiveness (including break-even values) are analyzed across four regions: US, Brazil, China, and Western Europe. Additional regions/countries are available as an add-on.
PDF icon Download Table of Contents (243.39 KB)
PDF icon Download Flyer (118.85 KB)
Dec 2022
/
C1 Chemicals and Fertilizers
Oil, Gas and Refined Products
Renewable Chemicals and Energy

Biorenewable Insights: Green Hydrogen (2022 Program)

Traditionally hydrogen is generated from fossil feedstock and processes that emit significant amounts of CO2. In comparison, renewable or green hydrogen production results in materially lower emissions. Green hydrogen holds significant potential and interest for decarbonization of sectors that have previously been difficult to decarbonize. This includes both existing applications (e.g., refining, feedstock for chemicals) as well as emerging applications (e.g., e-methanol, e-ammonia, e-SAF), as well as potential in direct use for carbon emission free combustion. Growing interest in low carbon intensity hydrogen has stemmed from mounting net zero pledges and decarbonization goals, and an increasing focus on the energy transition. Production options explored several global regions and technologies covering thermochemical (biomass gasification), bio-methane reforming, electrolysis, and other advanced pathways from a technical, economic (cost of production model), and capacity level. A discussion of implications for the conventional technologies is also included.
PDF icon Download Table of Contents (213.07 KB)
PDF icon Download Flyer (172.24 KB)

Pages