Singapore Iraq We develop knowledge not for its own sake, but for practical application. Candidate Resource Centre, 4 tips to excel in a Shell face-to-face interview, 7 tips to prepare Students & Graduates for an online video Interview, 10 employees share their first week at Shell, 9 ways to help you find the right career path, View The industrial steam methane reformers (SMR) or auto thermal reformers (ATR) that currently produce grey hydrogen can also produce blue hydrogen. Estonia Blue hydrogen therefore paves the way for green hydrogen in the longer term.
Hydrogen fuel is referred to as clean-burning because its combustion does not produce CO2, particulate, or sulphur emissions. TEL: +554899263663, Freshtrade777 Ltd. e: [emailprotected] We investigated the costs and GHG emissions of three blue hydrogen production technologies.
As for grey hydrogen, natural gas (CH4) is split into hydrogen (H2) and carbon dioxide (CO2) using steam (H2O). Lebanon [emailprotected]. e: [emailprotected] Helping refiners and petrochemical companies to convert unwanted streams such as steam cracker residues into synthesis gas, a high-value product that can be used for producing chemicals, hydrogen and power. e: [emailprotected] Haiti This is also called carbon capture and storage (CCS). Quick frames of hydrogen fuel cell, car driving to hydrogen pump, overhead view of highway traffic. Part of the plan is the Porthos project, which transports captured CO2 via an undersea pipeline to a gas production platform in the North Sea. Brunei Darussalam Industrial Lubricants and Oils for Business, Transparency and sustainability reporting, View Senegal Mexico Your comment may be published, displaying your name as you provide it, unless you request otherwise. Domestic Sale: The Port of Den Helder is also collaborating with the Port of Amsterdam and Groningen Seaports within Hydroports with the aim of contributing to the optimisation of infrastructure for the hydrogen economy. Financial reports and articles of association Shell International Finance B.V. Second quarter 2022 results July 28, 2022, View Nan Liu, Licensing Technology Manager Gasification, shares the economic advantages of blue hydrogen production using the Shell Blue Hydrogen Process. Guatemala Dominican Republic, Ecuador These benefits translate to 22% lower levellised cost of hydrogen for SGP technology compared with ATR, and even greater benefits when compared with SMR. Burning hydrogen produces only water vapour, so it is considered a clean fuel compared to fossil fuels like petrol and natural gas, which produce greenhouse gases including carbon dioxide and methane. The economics of a steam reforming plant depends on the CO2 capture rate. [emailprotected], Manufacturing Unit / R&D Center: The hydrogen economy: a pragmatic path forward by Niall Mac Dowell, Nixon Sunny, Nigel Brandon, Howard Herzog, Anthony Y. Ku, Wilfried Maas, Andrea Ramirez, David M. Reiner, Gaurav N. Sant, and Nilay Shah is published in Joule. Trinidad and Tobago Kenya Shell Trading and Supply, View 
Lebanon Finland
For the time being, there is still too little green electricity available. Both results translate to cost optimisations and improved nitrogen production margins for resource holders. Consortium partner Tata Steel can utilise blue hydrogen in the production of steel. There is very limited information in the literature on the impact of plant size on production and the extent of carbon capture on the cost and life cycle greenhouse gas (GHG) emissions of blue hydrogen production through various production pathways.
Energy and innovation, View TEL: +39 0363.33201, e: [emailprotected] Will technology make future travel unnecessary? On TNO Insights you can read in-depth interviews and articles. 
Mobility, View URL: www.nasiol.ph However, pure hydrogen is not found in nature, and requires energy to split it out from molecules such as water or methane. production biohydrogen biomass develop japanese biomassmagazine advertisement Yours to Make. The combination results in a more energy-efficient conversion and almost complete CO2 removal. Philippines Luxembourg, Macedonia Turkmenistan Poland Iraq South Africa Portugal Indonesia 
Benin
Compared to conventional hydrogen manufacturing processes, The Shell Blue Hydrogen Process has been proven better on a levelised cost of hydrogen basis of their blue variants. The energy future, View 
Bosnia and Herzegovina Results and reporting, View Mongolia Your contact details will never be published. URL: www.westclear.dk It requires little or no feed-gas pretreatment, is a non-catalytic process that produces high-pressure steam from waste heat rather than consuming it and has no direct carbon dioxide (CO2) emissions.
Latvia 
URL: www.nasiolrussia.ru We need instead to have a clear ambition: mitigating climate change as quickly and as cheaply as possible, using all low-carbon methods at our disposal, rather than maximising a certain technologys role..
+90 262 642 81 54 Jordan Hydrogen storage cost significantly impacts the hydrogen production cost. +91-120-4061375 Until then, blue hydrogen is paving the way for a mature, affordable hydrogen market and infrastructure. URL: Austria Russia Careers FAQs, View algae biofuels plastic photobioreactors producing promise environmentally friendly source nutrient grown bath bags which atlanta ga isye greenbuzz membrane hydrogen With eyes on a future of more and cleaner energy, affordable blue hydrogen production in the short term can catalyse long-term decarbonisation. For example, compared with SMR, it saves money by maximising carbon-capture efficiency and simplifying the process line-up, which offsets the oxygen production costs. It's clear that brown and grey hydrogen won't be sustainable solutions for the longer term. Green hydrogen is produced by splitting water molecules (H2O) into hydrogen (H2) and oxygen (O2) via electrolysis. 
e: [emailprotected] JM already provides the leading catalysts for the manufacture of grey hydrogen and is the technology provider for the largest steam methane reforming plants in the world, which today are required for the production of methanol and ammonia. Costa Rica The drawbacks for both blue and green hydrogen have potential solutions. Shell Liquefied Petroleum Gas (LPG), View This process creates pure hydrogen and captures carbon dioxide, thereby preventing the latter from entering the atmosphere and contributing to global warming. Aviation, View Information for shareholders, View Maldives Georgia When hydrogen is produced from water, using renewable energy, the result is called green hydrogen. Armenia Paraguay Cost optimisations, Improved Margins text graphic on green background side by side with molecule animation on white background. Argentina India
The biggest challenge for blue hydrogen is the transportation and underground storage of the captured CO2. Shell Chemicals, The benefits of chemicals in everyday life, View Another advantage is that the Shell Blue Hydrogen Process generates, rather than consumes, steam to satisfy the demands of the process. Japan 
TEL: +60162800286, Elite Detailing Car Wash EIRL
wee planets cooler jet guy french than way 
Transparency and sustainability reporting, Voluntary reporting standards and ESG ratings, Investing in access to energy for communities, View Zimbabwe, Algeria Peru Learn more about how to meet net-zero emissions ambitions through affordable blue hydrogen production. The Shell Blue Hydrogen Process integrates proven technologies Shell gas partial oxidation (SGP) and ADIP ULTRA. Lithuania Electricity, Another step towards a global electricity business, View Refinery shot, dump truck drives across screen followed by Make Every Molecule Matter and catalysts.shell.com/MEMM text graphics. Hayley Dunning
e: [emailprotected]
Environment, View In the European Union-supported STEPWISE project, a SEWGS installation processed 800 cubic metres of blast furnace gas per hour from one of the steel mills. hydrogen webinar catalysts shell thumbnail 
Shell Commercial Road Transport, Collaborate with Shell Commercial Road Transport, View From the platform, the CO2 is pumped into an empty gas field. This data can easily be removed from your temporary profile page at any time. Information for shareholders, View D-50, Sector 2, Noida, Uttar Pradesh, India 201301 e: [emailprotected] Faroe Islands Shell Commercial Road Transport, View The high cost of the electrolysers that split the water also makes the technology less attractive for the time being. The molecular source of hydrogen, as well as the source of the energy used to extract it, can impact how clean the fuel is overall. Guam France Our strategy: Powering Progress, View hydrogen netl Kazakhstan
Debt information. Ukraine New Zealand
TEL: +66995395556, Magic Ukraine Ltd. Carbon Capture and Storage, View
Botswana letter isolated tribal Montenegro e: [emailprotected]
Syrian Arab Republic Hydrogen cost is 1.22, 1.23, 2.12, 1.69, 2.36, 1.66, and 2.55 $/kg H2 for SMR, ATR, NGD, SMR-52%, SMR-85%, ATR with carbon capture and sequestration (ATR-CCS), and NGD with carbon capture and sequestration (NGD-CCS), respectively. Heavy industries and refiners seeking to decarbonise their operations, and resource holders looking to create value from natural gas and become low-carbon energy producers, could create affordable blue hydrogen with the Shell Blue Hydrogen Process. gasification coal emissions netl Saudi Arabia renewable wasserstoff URL: nasiol.daehoengineering.com Natural gas, View plant tsubasa service furnace demonstration stage hydrogen characteristic handle engineering energy let please jbec owned Gabon Ireland +90 212 670 13 95
Business customers, View TEL: +919599587021, Tashgas Co. Moreover, electricity is twice as expensive as natural gas. Report incorrect content The role technology plays, View Palestinian Territories Additionally, using renewable power for producing hydrogen means it is not being put into a national energy grid, where it is potentially more effective at replacing fossil fuel use. URL: www.nasiol.fi TEL: +79261946047, The Detail Collective Carbon Capture and Storage, View TEL: +85263032298, Coating Daddy Private Limited Taiwan e: [emailprotected] For hydrogen to play a role in the energy transition, its production must produce very little or zero greenhouse gas emissions. Qatar One example is TNOs SEWGS technology, which not only saves costs but also removes more CO2. hydrogen URL: www.nasiolgulf.com TEL: +9647705858031, Arcoplex Trading SPA e: [emailprotected]outlook.com Shell for suppliers, Purchase order general terms and conditions, Shell invoicing channels and invoice requirements, Electronic signature data privacy statement, View 
Guadeloupe Companies like BP, Shell and ExxonMobil want to make large-scale blue hydrogen production possible. For SMR, based on the percentage of carbon capture and capture points, we considered two scenarios, SMR-52% (indicates 52% carbon capture) and SMR-85% (indicates 85% carbon capture). View Venezuela e: [emailprotected].nasiol.com Panama Hayley Dunning Renewables and Energy Solutions, Latest News From Shell Renewables & Energy Solutions, View In principle, the production of blue hydrogen is no different from that of grey hydrogen. Italy SMR-52%, SMR-85%, ATR-CCS, and NGD-CCS have scale factors of 0.67, 0.68, 0.54, and 0.65, respectively. TEL: +33662496831, Protective Care The hydrogen cost variation with capacity shows that operating SMR-52% and ATR-CCS above hydrogen capacity of 200 tonnes/day is economically attractive. TEL:+56225823983, Pinnakaitse O China World map with Growing Demand text graphic. Results and reporting, View People and communities, View Belgium 
This site uses cookies Sudan This includes technologies for producing hydrogen, but also its delivery and end uses hydrogen will never play a significant role in the future if we also dont have buses or boilers that can use it on a large enough scale., Co-author Professor Nilay Shah, from the Department of Chemical Engineering at Imperial, said: Hydrogen should not be thought of as a point-source solution to a specific problem, but an important part of an overall net-zero energy and industrial system.. Aviation, Flightpath: exploring the future of aviation, View In order to thrive through the energy transition, resource holders will need to make smart investments that reduce their emissions footprint. Algeria The results indicate that when uncertainty is considered, SMR-52% and ATR are economically preferable to NGD and SMR-85%. Hydrogen as a source of clean-burning fuel is gaining momentum. Communications Division, Tel: +44 (0)20 7594 2412 uncovers URL : www.nasiol-hk.com dx hind 3d orthos rough started Stay up to date with our latest news, activities and vacancies. Our world-leading expertise in syngas and derivatives, with technology proven at scale, mean we can help customers to produce blue hydrogen. oled efficiency external quantum device record energy 
TNO.nl collects and processes data in accordance with the applicable privacy regulations for an optimal user experience and marketing practices. e: [emailprotected] Co-author Nixon Sunny, from the Centre for Environmental Policy said: To move to net zero requires a pragmatic approach we should move all things forward at once. Shell Commercial Fuels, Shell Commercial Fuels Industrial Fuel Solutions, Shell FuelSave Diesel and Shell Diesel Extra, Shell Fuel Oil Plus and Shell Fuel Oil Extra, Shell Electronic Vendor Managed Inventory, View Detailed uncertainty and sensitivity analyses have not been included in most of the earlier studies. In their analysis, published today in Joule, they recommend all pathways, including blue and green, should be explored and moved forward together. Shell Catalysts & Technologies, Subscribe to Shell Catalysts & Technologies, View Some researchers have evaluated the environmental and/or economic feasibility of producing blue hydrogen, but a holistic assessment is still needed. | 
TEL: +9613299655, Otter International Sdn Bhd 
Attribution-NonCommercial-ShareAlike Creative Commons license. Cameroon Hydrogen fuel cell electric vehicles, for example, only emit water vapor and warm air in contrast with vehicles powered by gasoline or diesel. Bahamas Myanmar 10-25% lower levelised cost of hydrogen compared to ATR text graphic. Burkina Faso How do we steer automated driving in the right direction? Namibia Shell Fleet Solutions, View Green hydrogen is only truly sustainable if the electricity for the electrolysis process comes from renewable sources. The Future. Somalia Environment, Plastic waste management and initiatives at Shell, View 
e: [emailprotected] 
Shale Oil and Gas, View 
Person using a hydrogen pump, transitions to clean-burning hydrogen animation on a blue and yellow background. TEL: +358207351061, Taks Marketing Ltd. Chile Shell Brand Licensing, View Malaysia United Arab Emirates The Shell Blue Hydrogen Process is an end-to-end lineup that enables affordable responsible hydrogen production. algae hydrogen diy bioreactor fuel water production science kit oxygen cyanobacteria future technology 2004 produce teaching experiment co2 tank spirulina This is called carbon capture and use (CCU). Solvent technology for capturing CO2 from high-pressure process streams. A majority of greenhouse gas emissions stem from energy use rather than energy production. Please try again later. URL: Marine, View by collector right bgo rough games research paper need working trying reference alot construct list human engines truthful interesting between technology The CO2 can also be used as a nutrient in greenhouses or as a raw material for chemical products and plastics. The Shell Blue Hydrogen Process integrates Shell gas partial oxidation and ADIP ULTRA technologies to maximise carbon capture efficiencies and simplify lineup design. Sustainability our approach, View Hungary Libyan Arab Jamahiriya Turkish Republic of Northern Cyprus Comparative assessment of blue hydrogen from steam methane reforming, autothermal reforming, and natural gas decomposition technologies for natural gas-producing regions. The Shell Blue Hydrogen Process text graphic.
Our strategy: Powering Progress, View Pakistan Various refinery shots continue, 1,000 tonnes per day text graphic.. URL: www.nanopro.bg Blue hydrogen presents an efficient, low-carbon fuel option. e: [emailprotected] Show all stories by this author, Comms-strategy-Real-world-benefits,
TEL: +6591052255, Epik Trading Both blue and green hydrogen production have drawbacks. Will you soon always have an optimal journey with MaaS? URL: www.nasiolcanada.com Just as energy companies offer grey and green electricity, companies also produce grey and green hydrogen. Uganda Regulations can be introduced to minimise emissions across the natural gas supply chain, and ensure that the maximum possible amount of CO2 emissions are captured at the point of hydrogen production. The hydrogen economy: a pragmatic path forward. TEL: +8218338957, K Garage Co. Ltd. Djibouti
Real world fuel consumption of passenger cars, TNO Computer Incident Response Team (CERT), Working for TNO safety, (cyber)security and defence, TNO Delft working at the heart of technology, Program line 1: Safe autonomous systems in an open world, Program line 2: Responsible human-machine interaction, NL AI Coalitie invests in Appl.AI program, Chemical, Biological, Radiological and Nuclear (CBRN) Protection, Human Behaviour and Organisational Innovation, Sustainable Technologies for Industrial Processes, Environmental modelling, sensing & analysis, Risk Analysis for Products In Development (RAPID), Sustainable Productivity and Employability, Efficiency, effectiveness, quality and the costs of systems, On-demand-TV in a High Speed Bundled Access Network, New method for making functional textiles and fibers, Inverse multiplexing to control data transfer, Method for Extracting a Semantic Parameter, Method of processing a sequence of color images, Detecting Moving Objects from a Moving Camera, Detecting Concealed Objects Using Electromagnetic Waves, Image Processing Apparatus And Contrast Correction, ViruScan: Revolutionary Advancement in Virus Diagnostics, QLSI will Contribute to EC Quantum Computing Goals, CHE: Helping Europe Achieve Paris Agreement Goals, Press kit: Grand Cooperative Driving Challenge 2016, Niek van Brederode, Infrastructure team leader, Yvette Fleming, business developer Child Health International, Belma Turkovic, junior scientist innovator Networks, Joris Sijs, lead scientist AI and autonomous systems, Bart Sander, team leader in the Guarding, Security & Counter-terrorism team, Noura El Ouajdi, ecosystem lead Consortium for Automated Security Operations, Peter Paul van t Veen, business developer Innovation for Development, Mathilde Miedema, programme director Innovation for Development, Annemieke Kips, research manager Networks, Marjolein Meijerink, medior scientist Immunology, Bastiaan Wissingh, Senior Scientist Integrator, Karim El Assal, Junior Scientist Innovator, Sandesh Manganahalli Jayaprakash, junior scientist, Jurrit Bergsma, business developer and PhD candidate, Caroline van der Weerdt, senior consultant consumer behaviour, Martijn van Roermund, deputy research manager, Nadine Wennersbusch, senior project manager, Robert Muller, Junior Scientist & Innovator, Bart Jan Peet, Junior Scientist Innovator, Ton van Koersel, Senior Business Developer, Bouchra Al Lamaakchaoui, corporate recruiter, Benzene Sensor | Detecting low concentration benzene, Bright View Energy | Harvesting solar energy from the window surface, CAIREbox | A sensor platform that monitors air quality, Calosol | New coating extracts more energy from sunlight, Netsquid | Simulation is an essential step in quantum internet development, Nitrate sensor | Real-time monitoring of soil and surface water quality, Paradise Foods | From meat to plant-based alternatives using 3D printing, Particle sensor | making hazardous substances visible in the workplace, Psycat | Flagging up psychosocial problems in children, Solar riders | e-bikes that generate their own electricity, StreetWise | a method for assessing the safety of self-driving cars, Temperature sensor | Sensors printed on ultrathin film enable large area monitoring, Thermochrome Coatings | Coated windows save energy, Third-Party Security Tool | Insight into IT dependencies on third parties, Targettri | Identification of the side effects on new drugs, TransBiometrics | From fingerprints to recognising vein patterns beneath the skin, Unique treatment method helps veterans beat PTSD fast, AMSYSTEMS | 3D printing at a higher level, Asset Hub | Detecting cracks in brickwork, Blue Heart Energy | New type of heat pump, Carbyon | From lower to negative CO2 emissions, CollaneX Therapeutics | Working on a breakthrough in the fight against fibrosis, Delta Diagnostics | Biosensors are going to save lives worldwide, Keiron | Innovative printing technology for electronics and microlabs, LeydenJar | revolutionary type of anode battery, Linksight | Create data-driven insights together, without sharing sensitive data, Nearfield Instruments | World leader in metrology, Newton Energy Solutions | Home heat storage to bring big cuts in energy bills, Orange Quantum Systems | Customized quantum computers, Pharmaprint | Digital production of medicines by pharmacists, Retinascope | Hand-held camera for detecting eye diseases, SHM Next | Detect and predict damage in bridge structures, Sightlabs | Digital warrior discovers cyber intruders, Studio Automated | AI video production of live events, TBQ | New approach helps improve fire safety, Tiledmedia | high quality VR image streaming, TORWASH | Waste sludge from cost item to source of revenue, TrustTester Solutions | key to online privacy and new forms of digital services, Meaningful human control in defence applications, Situation awareness in autonomous driving, Secure learning in money laundering detection, Appl.AI Webinar #1: Government Decision-making, Climate Chambers for Research into Human Performance, LT Lab: the TNO learning technology laboratory, NetForce Command: an alternative to hierarchical command and control, Operational military performance in a virtual world, Integrated approach to Dutch Royal Navy patrol ships, Operational analysis during military operations, SketchaWorld: from sketch to virtual world, CARPET: Computer-Aided Radar Performance Evaluation Tool, Ship acoustics and underwater acoustic signatures, PERSEUS Wind Turbine Radar Interference Assessment tool, A new vision on modernizing the emergency reporting process, Automatic Video Compilation and Analysis System (AVACS), The Dutch Cyber Cube Method: Improving Human Capital for SOCs and CSIRTs, Critical Infrastructure Protection (CIP) policies in Europe, Smarter Surveillance, man, machine, synergy, Cyber Security of Industrial Control Systems, Privacy enhancing techniques in cyber security data sharing, Driving Innovation in Crisis Management with DRIVER+, Crisis management: new challenges, new opportunities, The learning professional: resilient and deployable for the long term, Infrastructure protection and survivability, High-Speed X-ray (HSX): unique ballistics test method, Unique facilities for testing RPG protection, Processing of Propellants, Explosives and Pyrotechnics, Environmental effects and safety aspects of ammunition, Lifetime studies of missiles and munition, The transmission of noise and noise nuisance, Ballistic Performance and Personal Protection, Anticipating accidents, incidents and threats, Process Safety Solutions: Expertise in Handling Hazardous Conditions Safely, JOMOPANS: Monitoring underwater sound in the North Sea, Human performance in adverse and demanding environments, Towards large-scale generation of wind energy, How large offshore wind farms produce optimal energy, Wind farm control to boost wind farm performance, Innovations for the large wind turbines of the future, Efficient operation and maintenance of offshore wind turbines, Designing sustainable wind turbines for the circular economy, Maximising the value of wind energy in the future energy mix, Required infrastructure to integrate offshore wind into the energy system, Safe and flexible integration and monitoring of wind farms in a hybrid energy system, Energy islands for conversion, transport, and storage, Wind farms in synergy with society and environment, Keeping the electricity grid stable when theres a surplus of wind and solar, Huge worldwide potential for floating wind turbines, Applying robotics increases safety and reduces maintenance costs, Wind measurements and validation techniques, Digitisation improves the design and maintenance of wind farms, Solar farms respecting landscape and nature, Savings on solar farm operations and maintenance, Floating solar panels on inland waterbodies, Research into environmental effects of solar, wind energy, Solar energy on buildings and infrastructure, Solar energy in road surfaces and crash barriers, From renewable to sustainable solar panels, Webinar: Innovations in solar energy technologies, Putting Europe back in the lead in solar panel production, The social aspects of the energy transition, TNO facilities for research into environmental effects of solar and wind energy, Effective interventions to increase energy efficiency and reduce energy poverty, Capacity building programme for energy efficiency in industry, Zooming in on the future to make the right choices, Scenarios for a climate-neutral energy system, Successful neighbourhood approach: motivate residents, Towards a reliable, affordable and fair energy system, Sector coupling: the engine of a CO2-free society, Integration of North Sea energy systems saves billions, Energy islands and green production platforms, Dutch ports: future energy hub in Northwest Europe, GO-e consortium energy flexibility built environment, Energy storage platform: working on energy storage after 2030, Robustness and flexibility of the energy system, Reducing CO2 emissions through capture, use and storage, SEWGS: revolutionary CO2-reduction technology and blue hydrogen production, STEPWISE and FReSMe: CO2 reduction solutions for the steel industry, 3D-printing for CO2 capture productivity increase, On-site CO Capture Services: reducing emissions cost effectively, SEDMES: Efficient technology to convert CO2 to useful product, Hydrogen production: the economic perspective for Dutch industry, Project HY3: Germany and The Netherlands investigate scaling up green hydrogen, H-vision: blue hydrogen to accelerate carbon-low industry, 15 things you need to know about hydrogen, World first: Green hydrogen production in the North Sea, New research centre for hydrogen production, Identifying the future international chain of green hydrogen, Opportunities for green hydrogen for the manufacturing industry investigated, Hydrogen from offshore wind: optimising the electricity grid, Faraday lab: optimising and scaling up electrolysis, Blue hydrogen paves the way for green hydrogen, ARBAHEAT - Sustainable future for coal-fired power stations possible through conversion to biomass, AMBITION Advanced biofuel production from lignin rich residues, BECOOL EU Brazilian cooperation on advanced biofuels, Horti-BlueC - a new EU cooperation on reducing Bio-waste and CO2-footprint in horticulture, UNRAVEL - valorization of lignocellulosic biomass, MacroFuels advanced biofuels from seaweed, BRISK2 Biofuel Research Infrastructure for Sharing Knowledge, TORWASH technology successful for waste water treatment and recycling plastics, Biofuels lab: Making transport more sustainable with biofuels, Take-Off: Sustainable aviation fuels from CO2, water and green energy, HEREWEAR: Circular textiles from locally-sourced bio-based materials, Transition to e-fuels: a strategy for HIC Rotterdam, Re-use of existing infrastructure to accelerate the energy transition, STEPS: Industrial heat pump for steam production, CRUISE: Cost redustion Industrial Heat pumps, PCM Scale-up: Developing industrial scale PCM heat storage, TASTE: ThermoAcoustic high temperature STEam producing heat pump, 4 pioneering routes to a CO2 neutral industry, Research facility Industrial Electrification accelerates greening of Rotterdam port, Mollier facility: innovating in industrial drying technology, Research facility for negative CO2 emissions, Carnot lab accelerates sustainable industrial heat management, Using energy and raw materials efficiently in industry, E-Champ: Energy-efficient Combined Heat And Mass Process, COSMOS: Organic solvent nanofiltration membranes on low cost ceramic supports, HEADLINES: Heat-integrated Distillation enabling innovative ethylene crackers, EuRyDice: Energy-efficient valorization of components from process streams, e-Missi0n MOOI: TNO supports Dow and Shell in electric cracking, CO2 reduction requires improvement of industrial processes, Making the industrial energy transition feasible and affordable, Accelerating sustainable industry TNO Green Print, GIS and other tools for interactive planning, DINO, Data and Information of the Dutch Subsurface, BRO: the Dutch Key Register of the Subsurface, Sustainable use and management Flemish-Dutch subsurface, Petroleum Geological Atlas of the Southern Permian Basin, 3D Subsurface mapping of the Dutch offshore, Geological Survey of the Netherlands across borders, Accelerated renovation of homes and buildings, Accelerating sustainability of local heating supply, Innovation lab geothermal energy open for entrepreneurs, Realise underground heat storage on a large scale, Innovative drilling technique for extracting geothermal heat, Cost reduction of transport systems for geothermal district heat, Business parks can provide a sustainability boost, Everest: robust optimization of well planning and control, Paleo-Five: The final frontier in North Sea exploration, FOAM: Injecting soap makes gas exploitation more sustainable, Good vibrations a 40-year quest for solutions in fluid dynamics, The kick-off to SCORES an EU project on energy efficient buildings, 3D Printing for flexible production of personalised medicine, PITC: Accelerating Market Adoption of Integrated Photonics, TANGO satellite: monitoring greenhouse gas emissions, Enabling Quantum-Secure Communication with SatCom Technology, Deformable Mirrors correct wavefronts for Astronomy and Laser Communications, VLT Four Laser Guide Star Optical Tube Assembly, Gaia maps the Milky Way - in pin-sharp detail and 3D, PEASSS in Space PiezoElectric Assisted Smart Satellite, HIFI instrument for the Herschel Space Observatory, System Lifetime and productivity (contamination control), Rapid detection of the smallest particles, Towards high throughput scanning probe microscopy (Spm), TOMCA: tissue-optical analysis of wearable medical sensors, Quantum Communication Test and Evaluation Lab, Diamond Characterization and Quantum Device Prototyping, QITT Offers Independent Quantum Technology Testing, Chip cooling: high cooling capacity integrated in microelectronics, Digitization crucial for circular industry, Effective human robot cooperation & augmented reality support, Sustainable buildings: towards an energy-producing built environment, Innovative solutions for sustainable cities and neighbourhoods, Compact heat battery for energy storage at home, Research and development of multiple heat storing systems, Products for an energy-positive built environment, Sustainable self-supporting urban smart grid, Making better use of the potential of bio-based building materials and systems, Building a safe and efficient care building, Understanding the impact of earthquakes on buildings, CASTA: a computing miracle for greenhouse design, Systems integration for international greenhouse horticulture, TNO can calculate incoming light in greenhouses, Reclaiming polymers through physical recycling, Recycling of plastics from electronic waste, Systemic Impact Assessment of Plastics Value Chains, Online database of (circular) building materials, Particulate matter approach for greater health gains, ZCORE project: seaweed residues for superior bio-coatings, BIO HArT Biorizon Innovation and Upscaling of Renewable Aromatics Technology, Brightlands Materials Center for new sustainable materials, Enabling Materials for Additive Manufacturing, Brightsite brings climate proof chemistry within reach, Voltachem for electrification in the chemical industry, Materials and foreign particle investigations, Preclinical predictive models improve drug development pathway, Joining forces for better mobile health in Kenya, Laboratory facilities for detection and inactivation SARS-CoV, TNO and LUMC present solution for cure of type 2 diabetes, Cleaner production for textile industry in Bangladesh, Exposure assessment and management of asbestos fibres, Technological innovations for applications in the asbestos industry, Innovative and inclusive regional development, Applied exposome programme: connecting the dots for effective prevention of disease, Preventing occupational diseases in the future, Labour market mismatch demands matching based on skills, Improving a Childs Future in the First 1,000 Days, Early Life: Key to Healthy Growth and Development, Societal impact for accessibility and liveability, Decision-making information based on facts for municipalities, Making disruptive technologies practicable, CITYkeys Performance evaluation framework for smart cities and projects, Big data ecosystems: collaborating on data-controlled cities, TNO partner in Advanced Metropolitan Solutions, Urban Strategy brings planning effects into clear focus, Impact of neighbourhood (re)design made clear, Knowledge mediator puts an end to bickering, Intact Climate resilient critical infrastructure.