The backdrop
Green hydrogen is part of the global response to keeptemperature increases from preindustrial levels below 2°C
Technip Energies at a glance
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TE Euronext Paris listing ticker ADRs for US investors |
Headquarters in Paris Registered in The Netherlands |
60+ Years of operations Green |
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€6.7B Full year 2021 adjusted revenue |
A leading engineering & technology company for the energy transition |
€16.4B Backlog at the end of March 2022 |
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~15,000 Employees in 34 countries |
25+ Leading proprietary technologies |
450 projects under execution |
Four business lines
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Gas & Low-carbon Energies |
Sustainable Fuels, Chemicals & Circularity |
Carbon-free Solutions |
T.EN X Consulting & Products |
• Increasing efforts to be market focused and customer-centric
• Reinforcing our positioning in technology, products and services
• Maintaining excellence in project execution
• Supporting ‘historical’ and new clients in their energy transition journey
• Leveraging our geographical proximity with clients and knowledge of local environments
Seizing energy transition opportunities
Shifting from geographical to market-focused
| THREE BUSINESS LINES DEDICATED TO MARKETS |
ONE CROSS-MARKETS BUSINESS LINE |
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GAS AND LOW-CARBON ENERGY |
SUSTAINABLE FUELS, CHEMICALS & CIRCULARITY |
CARBON-FREE SOLUTIONS |
T.EN X CONSULTING & PRODUCTS |
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•Liquefied natural gas (LNG) • Floating liquefied natural gas (FLNG) and offshore • Grey and blue H2 • Blue ammonia • Gas-to-liquids (GTL) • Gas Processing & Monetization |
• Biofuels & fuels • Biochemicals • Petrochemicals • Ethylene • Fertilizers • Circular economy |
• Floating offshore wind • Green H2 value chain • CO2 management • Nuclear • Life sciences • Mining & Metals • Aerospace & Defense |
• Genesis - Advisory & digital services • Services to operations: PMC, Cybernetix • Equity linked services • Loading systems |
| One T.EN Delivery | Technology & Innovation |
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A global delivery organization All operating centers |
Global experts
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A global footprint
Green Hydrogen Centers of Excellence
A fast growing market
Global green hydrogen market
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388 Total capacity (GW) |
639 Number of projects |
0.65 Average project size (GW) |
32,9 Gt CO2 emissions |
~6-8 Gt can be avoided by using hydrogen through fossil fuel replacement (direct or indirect)
Green hydrogen key figures
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17GW Global electrolysis capacity by 2026 |
57 times the current capacity |
2.5 Bn$ 2025 market value with an annual growth rate of 39.4% |
Optimizing the full value chain
From pilot to industrial scale project development
Key points
- Optimized LCOH2 through full chain integration and technology agnostic approach
- End-to-end approach leveraging key skills globally
- Focus on standardization, industrialization and project FID
- Extensive background with complete portfolio of services
Green H2 / Power-to-X
Improving efficiency and affordability by optimizing the entire value chain
A holistic approach to plant level optimization
Power-to-X chain optimization levers
Balancing standardization and tailored design
TECHNIP ENERGIES
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Power Block
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1. Power Block - Green Power Consumption • Power Block optimization with upstream renewable power generation • EMS system covering full chain from power to green hydrogen end-user |
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GREEN HYDROGEN PLANT |
2. Tailored Design - CAPEX Reduction (w/o stacks) • Standardized optimized 100 MW plant (‘Design one, build many’) • Max prefab at Dahej, India, yard |
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Electrolysis |
3. Best Electrolyzer Selection – CAPEX Reduction Techno selection depends on intermittency, load factor/ downstream use of hydrogen |
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Storage and Offloading Facilities H2 Transformation (NH3, LH2, LOHC) Storage and Offloading Facilities
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4. Maximize Product Valorization • Heat integration from electrolyzer to other process units • Oxygen utilization |
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VARIABLE REN PARTNER POWER-TO-X |
5. Full Digital Suite –OPEX Reduction We offer in-house: • Remote operation concept • Predictive maintenance through digital twin • 4D model |
Our legacy and value proposition
Green hydrogen: Four applications, four markets
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Large Industry • Refineries • Ammonia • E-fuels / methanol |
Renewable Energy Storage |
Grid Flexibility |
Mobility |
Technip Energies mainly focuses on large-scale industry applications
Remaining unchanged is the electrolyzer package and the ability to integrate in an overall architecture to deliver a turnkey project
A strong heritage
Robust background and in-house skills
| Hydrogen Expertise |
Ammonia and Fuels Expertise |
Electrolysis & Electrical Expertise |
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275+ H2 references |
50+ References of carbon capture from H2 plants |
20+ Ammonia references under HTAS technology during the past 15 years |
100+ Electrolysis references for electrochemical plant |
| >30% Global installed H2 capacity |
40+ Green H2 references |
30+ Grassroot refineries with capacities up to 400 k BPD |
150 electrical engineers |
3,5 GW of power plants built and operated |
Rising to the challenge as an engineering & technology company
Integrate and optimize bricks at plant level for best LCOH
| Agnostic Technology • Optimize value chain costs • Technology selection • Mitigate upscaling risks |
> Tailor-made Approach at plant level on technology brick level |
Integration / Industrialization • Digitalization • Modularization • Energy Management System (EMS) • Integrated renewable power and green hydrogen |
Green H2 production by water electrolysis
Technology overview
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Agnostic Approach |
Solutions Overview |
Market Watch |
Best technology choice based on project constraints / economics |
| ALKALINE ELECTROLYSIS |
PEM ELECTROLYSIS |
SOLID OXIDE ELECTROLYSIS |
| • Very mature technology, can operate up to 30 bars • Low compacity compared to PEM due to low energy density • Less reactive than PEM (3 to 5% variation per second for alkaline) • Lowest cost / No rare materials • Stack lifetime: ~ 60,000 – 90,000 hrs |
• Mature technology, can operate up to 30 bars - ongoing development up to 100 bars • High compacity / high-energy density • Highly dynamic (best suited technology for intermittency) • Suitable for offshore application • Higher cost / rare materials • Stack lifetime: ~ 50,000 to 70,000 hrs |
• Technology under development – market entry in ~3-7 years • Best efficiency • High temperature (around 800°C) • Low flexibility (long startup / shutdown times) • No rare materials but top-class metallurgy • Reversible technology, co-electrolysis capability |
Power-to-X key technology factors
Long-standing involvement in the syngas arena
| Ammonia |
Methanol |
X to Liquids |
| • Agreement with the leading licensor including MeOH c-production • 20 ammonia projects in the past 20 years • +350 large fertilizer complexes and integrated units delivered |
• For stand-alone MeOH plant, access to all licensed technologies • Industrial references on base load methanol capacity (5,000 TPD MeOH production) • Ongoing development on e-MeOH solutions as part of carbon capture, utilization & storage |
• Consolidated, ring-fenced alliance with a leading GtL licensor • Development of unique GtL assets (such as Oryx GtL in Qatar) • Exclusive codevelopment of Fischer-Tropsch reactor through decades of joint technology development |
Optimizing LCOH
Through industrialization and cutting-edge digital solutions
Industrialization and scaleup
Readiness for gigawatt scale plants
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Key aspects: • Technology driven, agnostic
Design one, build many:
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LARGE GREEN H2 BLUEPRINT BUILDING
BUILDING
LARGE GREEN H2 BLUEPRINT BUILDING
Utilities EMS by T.EN Digital Twin by T.EN = VERY LARGE GREEN H2 PLANT |
Our EMS* by T.EN solution for green H2
Adding value with EMS by T.EN
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INCREASED ELECTROLYZER LOAD FACTOR Lower LCOH, Higher NPV
DYNAMIC OPTIMIZATION Possibility to include sliding windows constraints (e.g. max CO2 content over a period of time) FINANCIAL GAINS Lower LCOH, higher NPV thanks to realtime arbitration of electricity and other INCREASED H2 RATIO In case of a brownfield mix between blue or grey H2 with green H2 LOWER CO2 FOOTPRINT
Higher controllability for CO2 content of green H2
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EMS by T.EN EMS* by T.EN and Model Predictive Control
• Real-time optimized system in operation Compared to a “Logic Rules EMS,” EMS by T.EN Enhanced Return On Investment |
Improving total cost of ownership
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Price Breakdown |
OPTIMIZING BRICKS AT PLANT LEVEL |
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8% 17% 8% 67% |
• All parameters are considered including renewable power generation, quantities, production • Technology agnostic approach with screening, selection and licensor management • Energy Management System provides full architecture integration from renewable production to hydrogen monetization • Multidiscipline engineering competencies to verify, support and industrialize OEM solutions • Project development support to secure FID with permitting, financing, business models, production of electrolysers • Legacy of hydrogen experience with 275+ plants worldwide, electrolysis, ammonia / methanol |
Offshore green hydrogen production
Integrated Offshore Renewable Power and Green Hydrogen Production
• Complementing our floating offshore wind solutions – INO15™
• GO.H2 by T.EN is a suite of offshore solutions to address various asset needs
• Intermittency in operations optimized through EMS
> Flexible solutions tailored to meet client needs!
The GO.H2 value chain
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ADJUSTABLE BUILDING
•Substructures |
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> A full suite of solutions for green offshore hydrogen production
target capacities
| 15 MW on floating offshore wind turbine foundation and pilots / battery function or H2 fuel to end-user |
50 MW Battery function or H2 fuel to end-use |
> 200 MW H2 or P2X for export to general market |
Basic Units P2X Add-ons
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| H2 Platform |
H2 Platform |
NH3 / LOHC Platform |
H2 Power Platform |
H2 Power Platform | |
| Function | Fuel production |
Fuel production |
Fuel production |
Battery function |
Battery function |
| H2 Carrier |
H2 production |
H2 production |
+NH3/LOHC production |
+Electricity production |
+Electricity production |
| Substructure |
Fixed: jackup / jacket floating: ship shape |
Floating: ppar/ semisub/ cylindrical/TLP |
Fixed/floating |
Fixed/floating |
Offshore wind floater/substation floater |
| Transportation |
Transport pipe |
Transport pipe/tanker |
Transport pipe/tanker |
Cable |
Cable |
| Location |
Near shore benign water |
Deep water, harsh environment |
Near shore/ deep water |
Close to user |
Close to user |
> Flexible solutions tailored to meet client needs
Green H2 references
Zoom 200MW hydrogen plant
Produce carbon-free hydrogen at scale from renewable power
- Objective: Produce carbon-free hydrogen at scale from renewable power in the Port of Rotterdam, replacing existing grey hydrogen
- Our scope: FEED competition to deliver cost-competitive and highefficiency solutions
• Upscaling green hydrogen solutions beyond existing references
• High-efficiency solution throughout plant life
• High availability and reliability in the context of intermittency
• Optimized TCO
• Single-point systems integrator
• Modularization approach
• Carbon-free hydrogen facility
• Contract: FEED
• Client: Confidential
• Location: The Netherlands
Zoom Clear Creek green H2 project
Large-scale green hydrogen production and distribution
- Objective: Create a complete H2 infrastructure based on 240/600MW of renewable wind power
- Scope: Define the full project scope, identify best available technologies and provide pre-FEED, FEED and EPC services
• Phase 1 will create 15MM SCFD of green H2
• Phase 2 will produce up to 40MM SCFD
• Design to include production, storage and distribution of green H2
• H2 to be used for export, industrial and mobility applications
Provide full scope of engineering services from feasibility study to EPC
• Contract: Consultancy to full EPC
• Client: Clean Energy Holdings
• Location: Colorado, USA
Zoom NTPC 5 MW PEM based H2 unit - EPCC
India’s first 5 MW pilot PEM unit for NTPC
- Objective: Produce carbon-free hydrogen at a pilot scale at the NTPC Vindhyachal Power Plant with an ultimate aim to pilot a green methanol facility
- Scope: Technology supply through partner + EPCCC on an LSTK basis
• 2 tons per day of PEM electrolyzer based hydrogen production
• Electrolyzer stacks from technology partner
• T.EN India capable of complete design / engineering of balance of plant and system integration
Largest PEM based H2 EPCC awarded in India
• Single-point systems integrator
• Modularization approach
• Carbon-free hydrogen facility (based on power source)
• Contract: EPCC
• Client: NTPC
• Location: India
Green and blue NH3 references
Zoom H2 integrated study
Comparison of H2 transport vectors (NH3, LH2, MCH & LOHC)
- Objective: Develop concepts for different H2 transport vectors and different production capacities ranging from 10,000 TPY to 300,000 TPY H2 production capacity
- Scope: Develop technically and economically feasible concepts for 30 different cases; Develop AACE Class 4/5 CAPEX cost estimates,, layout, overall mat. balance, OPEX, utilities cons., etc.
Investigated:
• Blue / green hydrogen production comparison
• Integration of blue & green hydrogen
• Economical comparison of NH3, LH2, MCH & LOHC concepts including Levelized cost for each concept
• TRL assessments / Potential optimizations identifications
• Contract: Feasibility Study
• Client: Woodside
• Location: Western Australia
Zoom 3GW feasibility study
World’s largest hydroelectric project to produce green ammonia
- Objective: Develop concepts of ammonia FPSO for ammonia production of 650TPD and 2200TPD and compare to a concept of a land-based plant
- Scope: Develop technically and economically feasible concepts of the plant and Class 5 CAPEX cost estimatesDeliver building block study to compare limitations, advantages and disadvantages of each concept .
Three design concepts investigated:
• 300MW electrolysers + ammonia + storage on single FPSO
• 1GW electrolysers + ammonia module + storage on single FPSO
• 1GW electrolysers (onshore or offshore separate from ammonia production) + ammonia and storage on FPSO
• Contract: ConceptSelection Study
• Client: Fortescue Future Industries
• Location: Australia Northwest nearshore, aspiration to locate worldwide
KEY CHARACTERISTICS OF FLOATING PLANTS:
| 650TPD of ammonia | 2,200TPD of ammonia | |
| Electrolysers | 60 x 5MW | 200 x 5MW |
| Total electrolyser power | 300MW | 1GW |
| Power from onshore grid | 20MW | 60MW |
| Ammonia substructure storage | 54,000m³ | 59,000m³ |
| Vessel dimensions | 250m x 60m | 420m x 70m |
Zoom 500 MWp green NH3 Pre-FEED
Green ammonia production from solar farm
- Objective: Develop a green ammonia plant based on 500 MWp solar farm including 400 MW electrolyser capacity, H₂ pipeline, ammonia synthesis and utilities and offsites.
- Scope: Run the technical and economic assessment of the plant; provide Energy Management System and optimization of the entire plant from PV to NH3 offloading; develop plot plan, AACE Class 4 CAPEX and OPEX
• 500 MWp solar panels to be installed in desert area
• 400 MW pressurised alkaline based electrolyser package
• 50 kms H2 pipeline used as intermediate storage
• Ammonia synthesis trains installed near shore
• Utilities and offsites design
• Ammonia storage, boil-off handling and offloading
• Levelized cost of ammonia optimization
• Contract: Pre-FEED
• Client: CMB.TECH
• Location: Namibia, Africa
Zoom 300MW green ammonia Pre-FEED
Green ammonia production from hydropower
- Objective: Develop a green ammonia plant based on 300 MW hydropower including 280 MW electrolyser capacity, ammonia synthesis and utilities and offsites
- Scope: Run the technical and economic assessment of the plant; provide optimization of the entire plant from electrical substation to NH3 offloading; erform OEM evaluation; perform NH3 pipeline routing selection; develop plot plan, AACE Class 4 CAPEX and OPEX; provide client assistance for permitting and other third-party activities
• 300 MW hydropower
• 280 MW electrolyser package
• 600 TPD ammonia synthesis train
• NH3 pipeline from ammonia synthesis to storage
• Utilities and offsites design
• Ammonia storage, boil-off handling and offloading
• Levelized cost of ammonia optimization
“Technip Energies has been selected by IVERSON eFuels AS, a special purpose vehicle between CIP, Hy2gen and Trafigura, to perform the engineering design of a complete gre
• Contract: Pre-FEED
• Client: Iverson eFuels AS
• Location: Norway
Why Technip Energies?
- A leading player in the hydrogen and derivatives market with 50+ years experience
- A safety expert
- A long history of integrating technologies from third parties and scaleup
- A strong electrical expertise with 50+ specialists and 500+ MW of power plant built and operated
- A reliable and recognized partner with financial strength and global coverage
