technology: Energy Storage

Biochemical activities impacting hydrogen storage in salt caverns

Biochemical activities impacting hydrogen storage in salt caverns

Biochemical activities impacting hydrogen storage in salt caverns Hydrogen Storage In Salt Caverns – Microbes Hydrogen Storage in Salt Caverns – Microbes that inhabit the earth’s subsurface are vast in their diversity. Microorganisms may be found in vast quantities in as much as 104 and 108 per gram of rock. Hydrogen, nitrogen, carbon dioxide, and …

Biochemical activities impacting hydrogen storage in salt caverns Read More »

Heating and Energy Sector | Electrification Support | WhatNext

Interconnection of Heating and Energy Sector for Urban Electrification Support

Interconnection of Heating and Energy Sector   Major cities across the globe have constantly expanded their boundaries to accommodate ever-increasing population, which poses a challenge to urban developers, especially in terms of rising energy needs and enhancing connectivity across various places in terms of transportation. With climate change posing a threat, urban developers are consciously …

Interconnection of Heating and Energy Sector for Urban Electrification Support Read More »

Lithium Air Batteries - WhatNext

Aluminium-air Batteries and Lithium-air Batteries for EVs: A Comparison

Lithium-Air Batteries for EVs Lithium-air batteries (LABs) reduce oxygen from the air at the cathode and oxidises lithium metal at the anode to produce a current flow during discharge. The lithium-air battery can obtain oxygen from the air externally, removing the need for internal storage. This results in a higher energy density compared to that of …

Aluminium-air Batteries and Lithium-air Batteries for EVs: A Comparison Read More »

Lithium ion Battery Technology - WhatNext

Graphene Lithium-ion Battery Technology for EVs

Graphene Lithium ion Battery Technology   People recognize Lithium-ion battery technology as one of the most widely used technologies in electric cars. Safety is one major problem that automakers are trying to resolve in lithium-ion batteries. A lithium-ion battery’s electrolyte is highly flammable. Any damage to its exterior layers can cause a short circuit, leading …

Graphene Lithium-ion Battery Technology for EVs Read More »

Solar paneled roofs - WhatNext

Solar Paneled Roofs Over Highways – Current State and Future Directions

Solar Panel Revolution Using solar panels is quickly revolutionizing the economy. Solar panels are gaining popularity as the economy shifts to a green and sustainable energy model. Their energy is economical, efficient, clean, and sustainable, which contributes to their success. Solar panels are widely used globally, from the rooftops of residential buildings to industrial facilities. …

Solar Paneled Roofs Over Highways – Current State and Future Directions Read More »

Compressed air energy storage - Whatnext - sustainbility experts

Compressed air energy storage (CAES) – Current state and future directions

A balance of supply and demand of electricity is essential to keep the grid supply running. With the advent of small-scale energy production units, especially renewable power and intermittent power supplies like solar and wind power systems, compressed air energy storage (CAES) systems are brought into the limelight to balance supply and demand in the …

Compressed air energy storage (CAES) – Current state and future directions Read More »

Hydrides as Electrodes and electrolytes - Whatnext - energy innovation experts

Hydrides as Electrodes and Electrolytes for Solid-State Batteries

Solid-state batteries are seen as a critical enabler for compact, energy-dense battery-powered devices. Solid-state batteries are considered the natural successor to liquid electrolyte batteries such as lithium-ion because they have the potential to exhibit 2.5 times the energy density of current liquid electrolyte batteries with reduced weight and lesser degradation in battery performance from rapid …

Hydrides as Electrodes and Electrolytes for Solid-State Batteries Read More »

Cybersecurity for solar energy - whatnext - energy transition experts

Cybersecurity for wind energy systems integrated into smart grids

Wind energy systems integrated with smart grids are vulnerable to cybersecurity attacks. These days, wind turbines can communicate with the grid through the Internet. This means cybercriminals can use this connection to disrupt the power supply. Two most important components for cyber security for wind farms are the turbines themselves and the control system. Cybersecurity …

Cybersecurity for wind energy systems integrated into smart grids Read More »

Comparing PowerPaste with other solid-state systems - whatnext - FutureMakers

Comparing PowerPaste with other solid-state systems for hydrogen storage

Solid-state hydrogen storage systems have received increased attention in recent years due to their high stability and ease of transportation. Researched materials for hydrogen storage include carbon-based materials, hollow glass microspheres, metal hydrides, nitrides, imides, amides, zeolites, and metal-organic frameworks (MOFs). Hydrogen storage in solid-state can be accomplished either by physical bonding (physisorption) or chemical …

Comparing PowerPaste with other solid-state systems for hydrogen storage Read More »

Comparing diabatic and adiabatic compressed air energy- whatnext - energy futurists

Comparing diabatic and adiabatic compressed air energy storage (CAES) systems

Compressed air energy storage systems use compressed air as a medium for storing energy during off-peak times and generating energy during peak hours. The CAES system utilizes electricity during off-peak times to drive the air compressor for air compression. Also, the electricity is used to store the compressed air in underground caverns. CAES systems are …

Comparing diabatic and adiabatic compressed air energy storage (CAES) systems Read More »