Accelerating Clean Hydrogen & Carbon Capture Solutions
Building on our marine heritage, we have expanded to deliver scalable, finance-ready infrastructure projects for industrial decarbonization —helping heavy industries transition to hydrogen and carbon capture with speed, precision, and bankability.
Who we are
Pioneers in Industrial Energy Transition
Founded in Hamburg in 2012, Goshen Marine Management specializes in designing and implementing clean energy infrastructure for large-scale industrial applications. Our work bridges the gap between vision and execution, partnering with governments, engineering firms, and technology providers to make clean hydrogen and carbon capture accessible and financeable.
Waves of Engineering Progress:
Parent company Ing. Buero H. Hofmann, established in 1974, has long been a pioneer in machine tools distribution, precision engineering, and marine applications. A lasting legacy at the core of our industrial DNA, backed by decades of technical assessments for complex maritime energy installations, hull and decking fabrication.
The Challenge
Heavy Industry Needs Real Decarbonization Tools
From marine shipping to steel and cement manufacturing, the world's most polluting sectors face growing pressure to reduce emissions. Yet many lack the infrastructure, financing, and technical support to make the transition.
In parallel, the global demand for clean hydrogen is rising —while production remains limited and expensive. This energy gap creates both a climate threat and a massive opportunity.
Our Solution
Integrated Support from Planning to Execution
We provide end-to-end support for decarbonization projects —from early-stage planning and financing to technology integration and operations. Whether retrofitting existing assets or building new infrastructure, our team aligns the right technologies, partners, and capital to deliver viable, high-impact solutions.
Hybrid Carbon Capture & Hydrogen Systems
Hybrid Carbon Capture & Hydrogen Systems
Scalable Infrastructure Development
Scalable Infrastructure Development
Strategic Financing & Off-take Models
Strategic Financing & Off-take Models
Modular Solutions for Land & Sea
Modular Solutions for Land & Sea
Technologies in Detail
The Technology Spectrum
Carbon Capture and Storage (CCS) systems isolate CO₂ emissions produced by large fossil-fuel-powered sources —such as ships, and steel or cement plants— preventing them from entering the atmosphere.
On-site CCS technologies such as membrane and PSA offers the advantage of scalability, long-term stability, and cost efficiency. On-board technologies —OCCS— lead the future of logistics and passenger vessels but undergo space limitations, harsh marine conditions, variable exhaust-gas concentration, and fluctuating engine loads.
Carbon Capture Solutions
01
Membrane
Selective gas separation through engineered membranes —ideal for on-site industrial use when scalable, low-energy systems are required.
On-site technology
Industrial scalability
Compact and modular
01
Membrane
Selective gas separation through engineered membranes —ideal for on-site industrial use when scalable, low-energy systems are required.
On-site technology
Industrial scalability
Compact and modular
02
SwingCapture (PSA)
Captures CO₂ via pressure changes using adsorption materials.
On-site technology
Proven in mid-scale retrofits
Delivers high-purity capture
02
SwingCapture (PSA)
Captures CO₂ via pressure changes using adsorption materials.
On-site technology
Proven in mid-scale retrofits
Delivers high-purity capture
03
SeaCapture (On-Board)
Compact units integrated into ship exhausts, capturing CO₂ in real time and storing it as liquid until off-load. Extends vessel life while defending asset value.
Retrofit-friendly for existing fleets
Regulation compliancy without fuel switch
Minimal cargo impact
03
SeaCapture (On-Board)
Compact units integrated into ship exhausts, capturing CO₂ in real time and storing it as liquid until off-load. Extends vessel life while defending asset value.
Retrofit-friendly for existing fleets
Regulation compliancy without fuel switch
Minimal cargo impact
Hydrogen Solutions
Hydrogen plays a critical role in the shift towards cleaner, more sustainable energy systems. Yet, its effectiveness depends not only on how it's used —but how it's produced. At GMM, we focus on scalable hydrogen solutions that align with industrial needs and environmental goals. By integrating hydrogen into existing infrastructure and combining it with advanced Carbon Capture technologies, we help accelerate adoption and close the gap between innovation and real-world application.
01
Blue Hydrogen
Reduces existing carbon footprint through Carbon Capture and Storage (CCS) while creating new sources of capital inflow.
Direct application on existing infrastructure
Carbon Border compliancy
Source of revenue
01
Blue Hydrogen
Reduces existing carbon footprint through Carbon Capture and Storage (CCS) while creating new sources of capital inflow.
Direct application on existing infrastructure
Carbon Border compliancy
Source of revenue
02
Green Hydrogen
Created via electrolysis powered by renewables. 100% clean, but high cost and infrastructure dependent.
Infrastructure dependent
Carbon-neutral
Expensive production
02
Green Hydrogen
Created via electrolysis powered by renewables. 100% clean, but high cost and infrastructure dependent.
Infrastructure dependent
Carbon-neutral
Expensive production
03
Gray Hydrogen
Made from fossil fuels (natural gas, coal), producing high CO₂ emissions.
Low production cost
No alignment with climate goal
Produced from fossil fuels
03
Gray Hydrogen
Made from fossil fuels (natural gas, coal), producing high CO₂ emissions.
Low production cost
No alignment with climate goal
Produced from fossil fuels
Projects – In Action
Hydrogen & Carbon Capture Projects
Our projects translate advanced technologies into tangible solutions —from carbon-free hydrogen production to on-board carbon capture systems. Each initiative is designed to integrate with existing infrastructure, reduce emissions, and push the boundaries of what’s possible in industrial decarbonization.
Green H₂, 7.5 MW Wind Power
Project Overview:
We deployed proprietary wind-powered hydrogen systems delivering 14.5 tons of H₂ annually via electrolysis and large battery arrays.
Integration:
Wind / Solar power plants
Fuel Cell Systems
Blue H₂ with On-Board Carbon Capture
Proposal of Cooperation:
Exceptional opportunity to equip a marine vessel with an on-board Carbon Capture system through two distinct stream technologies. Our fuel cell systems deliver CO₂ rich streams, and an appropriate On-Board capture module would justify investment in this conversion technology.
Stream Options:
Anode Exit Stream: CO₂ separation affects the existing fuel cell system design. Moderate capture effort.
Exhaust Stream: CO₂ capture leaves the fuel cell system layout largely unchanged. Higher energy demand.
Additional Services
Beyond the Horizon: Value Extensions
Machine Tools & 3D-Printed Components
Goshen Marine Management supplies large spare parts that start as customer approved 3D designs. They pass through a digital process—finite element checks, CNC machining, and robotic welding—before the final inspection.
Applications:
Shipbuilding & Marine Applications
Power Plants
Wind Turbines
Battery Systems & Fuel Cells
Our next-generation battery solutions are engineered specifically for electric propulsion, and these modular packs can be scaled from tens to several thousand kilowatt-hours to suit any vessel class.
Complementary, our fuel-cell modules deliver zero-emission power outputs of up to 800 kW and are optimized for integration into wind or solar hydrogen ecosystems. This makes them especially well-suited for decentralized deployments in regions affected by natural disasters, where no established power grid exists. From this power, we could then produce blue and green hydrogen, making those regions fully energy independent using sustainable sources.
Financing & Collaboration Model
A Bankable Project Structure
Each project is executed through a Special Purpose Company (SPC) that owns, builds, and operates the facility —allowing for a clear, bankable structure. This setup centralizes risk, streamlines execution, and makes the project attractive to investors and public funding mechanisms. It creates a solid foundation to combine private capital, international financing tools, and long-term energy or H₂ off-take agreements.
Frequently Asked Questions
Everything You Need to Know
Do you build the infrastructure or advise others?
Do you build the infrastructure or advise others?
Why is carbon capture important?
Why is carbon capture important?
Who are your clients?
Who are your clients?
Is financing available for new infrastructure?
Is financing available for new infrastructure?
What’s the main difference between grey, green, and blue hydrogen?
What’s the main difference between grey, green, and blue hydrogen?
Do I need hydrogen production to use CCS?
Do I need hydrogen production to use CCS?
Join the Energy Transition
Whether you’re exploring collaboration opportunities, seeking technical insights, or looking to invest in sustainable energy solutions — we’re ready to connect. Reach out and let’s start the conversation.
Join the Energy Transition
Whether you’re exploring collaboration opportunities, seeking technical insights, or looking to invest in sustainable energy solutions — we’re ready to connect. Reach out and let’s start the conversation.
Accelerating Clean Hydrogen & Carbon Capture Solutions
Building on our marine heritage, we have expanded to deliver scalable, finance-ready infrastructure projects for industrial decarbonization —helping heavy industries transition to hydrogen and carbon capture with speed, precision, and bankability.
Who we are
Pioneers in Industrial Energy Transition
Founded in Hamburg in 2012, Goshen Marine Management specializes in designing and implementing clean energy infrastructure for large-scale industrial applications. Our work bridges the gap between vision and execution, partnering with governments, engineering firms, and technology providers to make clean hydrogen and carbon capture accessible and financeable.
Waves of Engineering Progress:
Parent company Ing. Buero H. Hofmann, established in 1974, has long been a pioneer in machine tools distribution, precision engineering, and marine applications. A lasting legacy at the core of our industrial DNA, backed by decades of technical assessments for complex maritime energy installations, hull and decking fabrication.
The Challenge
Heavy Industry Needs Real Decarbonization Tools
From marine shipping to steel and cement manufacturing, the world's most polluting sectors face growing pressure to reduce emissions. Yet many lack the infrastructure, financing, and technical support to make the transition.
In parallel, the global demand for clean hydrogen is rising —while production remains limited and expensive. This energy gap creates both a climate threat and a massive opportunity.
Our Solution
Integrated Support from Planning to Execution
We provide end-to-end support for decarbonization projects —from early-stage planning and financing to technology integration and operations. Whether retrofitting existing assets or building new infrastructure, our team aligns the right technologies, partners, and capital to deliver viable, high-impact solutions.
Hybrid Carbon Capture & Hydrogen Systems
Scalable Infrastructure Development
Strategic Financing & Off-take Models
Modular Solutions for Land & Sea
Technologies in Detail
The Technology Spectrum
Carbon Capture and Storage (CCS) systems isolate CO₂ emissions produced by large fossil-fuel-powered sources —such as ships, and steel or cement plants— preventing them from entering the atmosphere.
On-site CCS technologies such as membrane and PSA offers the advantage of scalability, long-term stability, and cost efficiency. On-board technologies —OCCS— lead the future of logistics and passenger vessels but undergo space limitations, harsh marine conditions, variable exhaust-gas concentration, and fluctuating engine loads.
Carbon Capture Solutions
01
Membrane
Selective gas separation through engineered membranes —ideal for on-site industrial use when scalable, low-energy systems are required.
On-site technology
Industrial scalability
Compact and modular
02
SwingCapture (PSA)
Captures CO₂ via pressure changes using adsorption materials.
On-site technology
Proven in mid-scale retrofits
Delivers high-purity capture
03
SeaCapture (On-Board)
Compact units integrated into ship exhausts, capturing CO₂ in real time and storing it as liquid until off-load. Extends vessel life while defending asset value.
Retrofit-friendly for existing fleets
Regulation compliancy without fuel switch
Minimal cargo impact
Hydrogen Solutions
Hydrogen plays a critical role in the shift towards cleaner, more sustainable energy systems. Yet, its effectiveness depends not only on how it's used —but how it's produced. At GMM, we focus on scalable hydrogen solutions that align with industrial needs and environmental goals. By integrating hydrogen into existing infrastructure and combining it with advanced Carbon Capture technologies, we help accelerate adoption and close the gap between innovation and real-world application.
01
Blue Hydrogen
Reduces existing carbon footprint through Carbon Capture and Storage (CCS) while creating new sources of capital inflow.
Direct application on existing infrastructure
Carbon Border compliancy
Source of revenue
02
Green Hydrogen
Created via electrolysis powered by renewables. 100% clean, but high cost and infrastructure dependent.
Infrastructure dependent
Carbon-neutral
Expensive production
03
Gray Hydrogen
Made from fossil fuels (natural gas, coal), producing high CO₂ emissions.
Low production cost
No alignment with climate goal
Produced from fossil fuels
Projects – In Action
Hydrogen & Carbon Capture Projects
Our projects translate advanced technologies into tangible solutions —from carbon-free hydrogen production to on-board carbon capture systems. Each initiative is designed to integrate with existing infrastructure, reduce emissions, and push the boundaries of what’s possible in industrial decarbonization.
Green H₂, 7.5 MW Wind Power
Project Overview:
We deployed proprietary wind-powered hydrogen systems delivering 14.5 tons of H₂ annually via electrolysis and large battery arrays.
Integration:
Wind / Solar power plants
Fuel Cell Systems
Blue H₂ with On-Board Carbon Capture
Proposal of Cooperation:
Exceptional opportunity to equip a marine vessel with an on-board Carbon Capture system through two distinct stream technologies. Our fuel cell systems deliver CO₂ rich streams, and an appropriate On-Board capture module would justify investment in this conversion technology.
Stream Options:
Anode Exit Stream: CO₂ separation affects the existing fuel cell system design. Moderate capture effort.
Exhaust Stream: CO₂ capture leaves the fuel cell system layout largely unchanged. Higher energy demand.
Additional Services
Beyond the Horizon: Value Extensions
Machine Tools & 3D-Printed Components
Goshen Marine Management supplies large spare parts that start as customer approved 3D designs. They pass through a digital process—finite element checks, CNC machining, and robotic welding—before the final inspection.
Applications:
Shipbuilding & Marine Applications
Power Plants
Wind Turbines
Battery Systems & Fuel Cells
Our next-generation battery solutions are engineered specifically for electric propulsion, and these modular packs can be scaled from tens to several thousand kilowatt-hours to suit any vessel class.
Complementary, our fuel-cell modules deliver zero-emission power outputs of up to 800 kW and are optimized for integration into wind or solar hydrogen ecosystems. This makes them especially well-suited for decentralized deployments in regions affected by natural disasters, where no established power grid exists. From this power, we could then produce blue and green hydrogen, making those regions fully energy independent using sustainable sources.
Financing & Collaboration Model
A Bankable Project Structure
Each project is executed through a Special Purpose Company (SPC) that owns, builds, and operates the facility —allowing for a clear, bankable structure. This setup centralizes risk, streamlines execution, and makes the project attractive to investors and public funding mechanisms. It creates a solid foundation to combine private capital, international financing tools, and long-term energy or H₂ off-take agreements.
Frequently Asked Questions
Everything You Need to Know
Do you build the infrastructure or advise others?
Why is carbon capture important?
Who are your clients?
Is financing available for new infrastructure?
What’s the main difference between grey, green, and blue hydrogen?
Do I need hydrogen production to use CCS?
Join the Energy Transition
Whether you’re exploring collaboration opportunities, seeking technical insights, or looking to invest in sustainable energy solutions —we’re ready to connect. Reach out and let’s start the conversation.
Anchor your vision in sustainable power