Hydrogen

Market leader and proven reliability in delivering facilities worldwide The industry’s global leader

State-of-the-art engineering and technology to meet today’s challenges

Tailored solutions for cost effective, We provide a wide choice of proprietary technologies, high efficiency decarbonized including technology used worldwide. Our references also include several of the world’s flowsheets largest steam reformers for hydrogen- applications. TechnipFMC’s proven hydrogen technology offers Our plants are fully integrated with surrounding tailored solutions for cost-effective, high-efficiency production facilities such as off-take of feedstock and decarbonized flowsheets to meet the needs of utilities, and delivery of hydrogen product and export the energy industry. With more than 55 years of steam. experience and expertise in the production of grey and blue hydrogen, our full scope of services ranges from process design packages to EPC projects. Global leader We offer our clients world-class project management and execution with single-point responsibility from in hydrogen concept to commercial production, including startup, market operator training, plant optimization, troubleshooting and maintenance support. We have maintained a continued leadership position thanks to our team of TechnipFMC dedicated professionals, and innovation programs.

% + + 35 Marketshare 55 Years of 275 Hydrogen plants experience using steam and expertise reforming technology

2 Hydrogen 3 Sustainability and innovation supporting the energy transition Hydrogen can be generated by renewable sources, and is therefore key to the future sustainable clean energy landscape. We support the energy transition by increasingly offering blue and green hydrogen solutions.

Significant innovations have been made to curtail Supporting green hydrogen offshore the carbon footprint of the steam reforming process and onshore project execution through smart equipment design, focusing on enhanced process integration and heat recovery. TechnipFMC is focused on positioning fully renewable (“green”) hydrogen in the current and future energy Extensive experience in blue hydrogen landscape, on the basis of its extensive expertise in hydrogen technology. Further reduction through on-purpose recovery of CO 2 We are committed to further developing this from the steam reformer syngas offers the possibility sustainability principle which drives our innovation of “blue” hydrogen production: fossil-based but without focus targeting environmental, economic and social or with substantially reduced CO emissions. Blue 2 benefits. hydrogen could be an intermediate alternative for fossil energy carriers seeking to reduce their carbon footprints. TechnipFMC is a front runner in this rapidly expanding market, and a global leader in developing carbon capture and conditioning. We are continuously exploring new solutions to reduce energy consumption and investment cost.

Sustainability driving our innovation focus

4 Hydrogen Hydrogen 5 Full range of services from BDEP to EPC

TechnipFMC offers the most enhanced hydrogen plant design with commercially proven solutions.

We work with our clients from the earliest From the highest standards in safety stage of their projects, providing a full and design to installation, operation and scope of services from basic process design maintenance, we provide world-class project and engineering packages (BDEP) to EPC management and execution. We offer flexible projects involving engineering, procurement, contract formats to help our clients optimize construction and start-up of facilities. project costs and scheduling. ` Consulting and feasibility studies We are experts in the design of flexible ` Conceptual design and basic design feedstock plants, using refinery off-gases, natural gas, LPG or naphtha as stand-alone ` Front-end engineering design (FEED) feed or in combination with each other. Our ` Engineering grassroot units range in capacity from 1,000 ` Procurement to 250,000+ Nm³/h*. Thanks to our innovative ` Construction technology solutions we can increase the capacity of existing plants by up to ` Commissioning 30 percent in a cost-effective manner. ` Start-up ` Operational services *Nm³/h: Normal metre cubed per hour, used to ` Hydrogen and CO management 2 measure gas flow rates

Delivering plants with the highest levels of reliability and efficiency in the industry

6 Hydrogen Hydrogen 7 Reliable and proven process design Robust components

Steam reformers TechnipFMC’s hydrogen plants have Key differentiators and continuous improvement Benefits Steam reforming is the predominant technology for cost-effective proven reliability and onstream hydrogen production, widely adopted for its flexibility and availability of over 99 percent ` Enhanced energy efficiency flow sheets with optimized reforming ` Proven experience in improving the simplicity. In addition, high energy efficiency is achieved through (excluding turnaround and severity, optional pre-reforming, conforming level of shift conversion hydrogen plants' energy efficiency the use of case-specific optimization of heat recovery design. forced outage). Our proprietary and advanced heat integration through emissions and operating costs steam reformer design provides ` Value engineering solutions for lowest unit costs of hydrogen Steam generation and process condensate recovery reduction. We offer various well-referenced concepts for hydrogen plant a compact solution with high ` Recuperative reforming with our Parallel Reformer (TPR®), allowing up ` Optimization of the hydrogen network in steam systems, ensuring reliable supply to the reformer. We thermal efficiency and low carbon to 30 percent additional reformed gas refineries resulting in more effective use emissions per unit of hydrogen/ are able to tailor the amount and quality of export steam to of hydrocarbon resources. ` Specific design and execution philosophy for smaller hydrogen plants requirements for integration into the existing complex. syngas. ` Improvement of refineries’ energy ` Gas turbine combined cycle and exhaust integration for steam power This cost-effective design, CO recovery efficiency and carbon footprint through synergy and reliable captive power 2 especially for larger capacities, can We have applied CO2 removal in many of our plants, either to use of gas turbine exhaust as combustion ` Advanced modularization for faster, cost-effective execution be modularized and customized for generate CO2 as a byproduct for the food industry, or to adapt air for SMR burners. ` High purity export steam based on high-pressure stripping of condensate, hydrogen/CO ratios for syngas applications. CO removal from each application. 2 ` Offering carbon capture readiness in segregated or ”dual-steam” systems, or feed saturation concepts syngas is a means for generating blue hydrogen. Feedstock flexibility hydrogen plants, targeting more than a two-thirds reduction in CO release. To achieve the required levels SCR 2 of feedstock flexibility, we apply Selective Catalytic Reduction of NOx in reformer flue gas is an ` Reduction of operating and capital adiabatic pre-reforming in refinery option when stringent regulations require emission levels that expenditures resulting in an up to hydrogen plant design. Advanced cannot be reached using Low-NOx burner technology alone. 15 percent lower “unit cost of hydrogen control configurations allow the on- These are core components of our proprietary technology: and 99 percent on-stream reliability. line changeover of feedstocks with ` Providing clean fuel and sustainable ` Mega steam reformer with steam power synergy and CO minimal impact on production. 2 energy pathway, ensuring a cleaner capture. environment. ` Proprietary equipment (steam reformer, TPR®, LSV® burners, advanced process gas boiler, EARTH® reformer tubes). Principal process steps in a hydrogen plant ` Multiple industry “firsts”: largest plants, multiple-feed flexibility, power cogeneration and carbon management. Hydrocarbon feed + fuel Hydrogen product Hydrogen recycle

Feed Pre-reforming Shift Product Reforming purication (optional) conversion purication Improving the energy Make-up fuel Purge gas efficiency of our clients' Process steam facilities for 30 years

8 Hydrogen Hydrogen 9 Innovative and clean proprietary technologies

TechnipFMC offers a wide range of proprietary technologies for complete hydrogen plants. We have specific expertise in upgrading existing plants in order to process heavier and sour crudes. We are also able to maximize the middle- distillate pool while meeting stricter clean fuels requirements.

Hydrogen Network Design Tool Dual Chamber Process Gas Boiler

(HyNDT™) Steam drum Our proprietary Dual Chamber Mixing tee Risers Process HyNDT™ optimizes refinery gas outlet Process Gas Boiler enhances cost Bypass with valve hydrogen networks for Process effectiveness and improves energy gas inlet PGB(II) performance, cost efficiency, PGB(I) efficiency through extended operational flexibility and HSE heat recovery. Its design includes Downcomer system targets by balancing the production two chambers separated by an and consumption of hydrogen. intermediate compartment, and an external bypass assembly to control exit temperatures. LSV® Ultra low-NOx burner The advanced Large Scale Vortex EARTH® recuperative reformer (LSV®) burner, with its innovative tubes flame stabilizer and unique fuel EARTH® is our newest (heat) premix injection system, offers recuperative reforming technology. ultralow NOx emissions. It is a drop-in insert for reformer tubes consisting of a structured reforming catalyst and concentric internal tubes for retrofits or new plants. It allows the reformer to operate with up to 10 percent

lower CO2 footprint for hydrogen, TPR® heat exchange reformer or allows for fuel savings up to TPR® is our proven, proprietary 10 percent and corresponding convective recuperative heat reduction of CO2 emission at exchange reformer, ideal for same throughput compared retrofits or new plants. It is to conventional technology. designed to optimize the high- grade heat cycle and increase reforming capacity without additional firing, thus resulting in

lower CO2 emissions.

Bulgaria – 83,400 Nm3/h Hydrogen 10 Hydrogen Hydrogen 11 Over-the-fence hydrogen supply

Advantages of over-the-fence Global alliance with hydrogen supply Air Products

` Air Products (TechnipFMC’s alliance partner) as owner provides Since 1992, TechnipFMC and Air Products the capital investment for the hydrogen plant, guaranteeing have been working together in an uninterrupted hydrogen supply under a long-term contract. alliance to supply outsourced “over-the- – Cost of delivered hydrogen is optimized (opex & capex). fence” hydrogen to the global refining industry. TechnipFMC provides the design ` Any risks associated with project execution, plant efficiency or and construction expertise for steam on-stream performance lie with the gas supplier (Air Products), reformers and Air Products provides the not with the end-user. gas separation technology. Both companies ` Extensive operational feedback drives design enhancements. bring effective operational and engineering ` Leading-edge reliability of hydrogen generation and/or supply knowledge into the design for high is further facilitated by multi-plant, multi-customer pipeline reliability and efficiency. TechnipFMC offers networks and/or back-up franchise provisions. a large reference base and Air Products an extensive operating network. The alliance is responsible for 40 hydrogen plants with a global design capacity of over 2689 MMSCFD (2,984,000 Nm3/h) of hydrogen. Air Products and TechnipFMC are fully committed to hydrogen as their worldwide core business applying the highest HSE standards.

*MMSCFD: million standard cubic feet per day

3 Spain – 60,000 Nm /h Hydrogen + 240 tpd CO2

USA – 100 MMSCFD Hydrogen + 20 MW power

12 Hydrogen Hydrogen 13 The highest HSE and quality Key project references design standards Hydrogen plant Hydrogen plant Hydrogen and syngas plant ` Start-up: under construction ` Start-up: under construction (Rapid project) ` Client: HPCL ` Client: Rosneft ` Start-up: 2020 Safety is our foremost focus during all project phases. Extensive ` Location: Visakhapatnam, India ` Location: Tuapse, Russia ` Client: Petronas HAZOP* reviews, safety studies, CFD** simulations and critical ` Scope: 2 hydrogen trains of 113 ` Scope: Largest single-train plant ` Location: Malaysia KTPA each, including a power in the world/238,000 Nm³/h ` Scope: One of the world largest design analyses are conducted to ensure the safety of personnel generation unit of 12.9MW facilities including 3 trains/344,500 and equipment, in line with our commitment to embed safety into Nm³/h + CO2 removal unit all of our designs. Hydrogen plant Hydrogen plant Hydrogen plant ` Start-up: 2009, revamped in 2020 ` Start-up: 2017 ` Start-up: 2014 for +20 percent capacity ` Client: Air Products ` Client: Air Products Our competencies in managing construction Best technology for ` Client: Indian Oil Corp. ` Location: Kochi, India ` Location: Louisiana, USA activities lead to optimized designs in environmental and compliance ` Location: Haldia, India ` Scope: Gas turbine integrated ` Scope: Largest single-train plant accordance with safety, operation and ` Scope: Among the largest plants facility with cryogenic for over-the-fence hydrogen maintenance requirements. A constructability Our solutions are designed to minimize NOx with pre-reforming, LT shift and installation for co-production of supply/155 MMSCFD program with an integrated database of emissions from the steam reformer furnace dual-steam system/104,000 Nm³/h syngas/182,000 Nm³/h and reuse spent process condensate. We have applicable procedures and project feedback the expertise to design plants for the lowest reports is available to provide project Hydrogen and syngas plant Hydrogen plant Hydrogen plant (Port Arthur II) management teams with construction tools ` Start-up: 2011 ` Start-up: 2007 ` Start-up: 2006 energy consumption. We can also provide CO2 capture facilities as required. and methodology. ` Client: Air Products ` Client: GS Caltex ` Client: Air Products *HAZOP: hazard and operability study ` Location: Chengdu, China ` Location: South Korea ` Location: Texas, USA **CFD: computational fluid dynamics ` Scope: One of the largest ` Scope: Largest naphtha (and LPG) ` Scope: Largest gas turbine HyCO facilities based on steam direct reforming-based plant/110 (exhaust) integration with 100 reforming/100,000 Nm³/h MMSCFD MW cogeneration/115 MMSCFD hydrogen and 28,000 Nm³/h syngas

Hydrogen plant Hydrogen plant Hydrogen recovery plant (UE-1 hydrogen plant 9-4) ` Start-up: 1998/2011 ` Start-up: 1998 ` Start-up: 2005 ` Client: Total ` Client: PKN Orlen ` Client: Syncrude ` Location: Le Havre, France ` Location: Poland ` Location: Ft. McMurray, Canada ` Scope: Original plant of 96,000 ` Scope: ROG recovery plant with ` Scope: Largest operating Nm3/h revamped with TPR to PSA and cold box hybrid/106,000 single-train plant with 75 MW 117,000 Nm3/h Nm³/h H2 and co-producing C2 cogeneration/200 MMSCFD of 21 t/h using over 20 H2 rich streams from the Complex

Hydrogen plant Hydrogen plant ` Start-up: 1997 ` Start-up: 1993 KTPA: kilo tonnes per annum ` Client: PKN Orlen ` Client: Air Products Nm3/h: normal metre cubed per hour ` Location: Poland ` Location: California, USA MMSCFD: million standard cubic feet ` Scope: Plant with multiple feed ` Scope: First plant built by per day flexibility (NG, LPG, naphtha and the TechnipFMC/Air Products mixture)/111,000 Nm³/h alliance/35 MMSCFD 1 MMSCFD = 1,110 Nm3/h Bulgaria – 83,400 Nm3/h Hydrogen

14 Hydrogen Hydrogen 15 USA

Alexandra Pieton Head of Hydrogen Product Line +1 346 302 7658 [email protected]

Vinay Khurana Vice President Sales +1 909 447 3683 [email protected]

The Netherlands

Zain Abdin Vice President Sales +31 79 3293 625 [email protected]

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