Hydrogen Technologies, Handling and Developments Guidebook- electronic book

While hydrogen has always played an important role in the chemical process industries (CPI), it has gained significant attention recently for its potential as a “green” fuel source. Decarbonization targets and improved technologies are driving a wide range of activities around hydrogen.

This Chemical Engineering resource is a compilation of full-length articles, news stories, and technology write-ups related to hydrogen production, purification, handling, and emerging technologies. It includes both recent developments and practical articles from the past that remain relevant today.

Although much of the excitement is about “green hydrogen” (produced by electrolysis of water using renewable energy), and “blue hydrogen” (produced using non-renewable energy with carbon capture), “grey hydrogen” (produced from fossil fuels such as natural gas and coal) is still the dominant type produced and used by the CPI. Therefore, decisions about steam reformers, purification methods, and safe handling are as critical as ever.

Features & Benefits

• Practical guidance on hydrogen production and purification methods
• Insights on steam reforming, PSA technology, and gasification
• Coverage of emerging hydrogen technologies, including electrolysis, photocatalysis, and fuel cells
• Safety and handling strategies for hydrogen in process plants
• Analysis of hydrogen detection systems, storage, and transportation
• Perspectives on the hydrogen economy and its impact on the CPI

Audience

• Chemical process engineers
• Petroleum refiners
• Process safety engineers
• Plant operations managers
• Researchers and technologists working on hydrogen innovation

Articles

• Production and Purification: Selection of an Optimum Gasification Product
• Hydrogen Production by Steam Reforming
• Pressure Swing Adsorption Technology
• PSA Technology: Beyond Hydrogen Purification
• A Guide to Methane Reforming
• Safety and Handling: How to Handle Hydrogen in Process Plants
• Know Your Hydrogen Supply Options
• Detection Systems for Reducing the Risk of Hydrogen Fires
• Hydrogen-Pinch Analysis Made Easy
• Driving Toward a Hydrogen-based Economy
• Making the Most of Methane Reforming
• Power-to-X: Batteries Not Required
• Solar Chemistry Heats Up
• Fuel Cells Move into the CPI
• Hydrogen: The Real Action Is Today
• Validating Hydrogen Embrittlement Models for Steel Tanks
• Findings Suggest New Design Principle for Water-Splitting Catalysts
• Making Renewable Hydrogen for Export
• Pt-free Electrodes for Fuel Cells and Metal-Air Batteries
• The Outlook for Hydrogen as an Energy Carrier
• Underground Oxidation of Hydrocarbons and Gas Separation
• Photocatalysts for Solar Water Splitting
• Magnetism-Enhanced Water Splitting
• Electrochemical Separation and Compression of Hydrogen
• Co-electrolysis for Green Syngas
• CNT-based Photocatalysts Enable Solar Water Splitting
• Japan’s Step Toward a Hydrogen-Based Economy
• Advanced Water Electrolysis
• A Panel Reactor for Splitting Water
• Ceramic-Membrane Technology in SMR
• Low-Temperature Catalyst for Dry Methane Reforming
• Liquid Metal Membranes for H₂ Separation
• A Catalyst for Making Hydrogen from Methanol
• Low-Cost Alternatives to Platinum for Water Electrolysis
• Making Hydrogen and Graphite from Methane
• Methane Cracking in Molten Metal
• Modular Hydrogen-Production Technology
• H₂ and CO₂ from APG
• PEM Fuel Cells with Built-in Storage
• A New Way to Obtain Hydrogen from Heavy Oil
• Sulfur-Iodine Cycle Catalysts
• Hydrogen from Sewage Sludge
• Membrane Systems for Extracting Hydrogen
• Onsite Modular SMR Units
• Biofuel from Municipal Waste
• Enhanced Photocatalysts for H₂ Production
• Integrated H₂ Production, Purification and Compression
• Hydrogen Generators with Longer-Lasting Electrodes
• Molybdenum-oxo Catalysts for Low-Cost Water Splitting

Details
Type: PDF
Pages: 99

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