2023
Sustainable Technology
The IoT-based Plant Weaning System is an innovative solution designed to optimize plant care processes, specifically addressing the crucial phase of plant weaning. This system leverages the capabilities of the Internet of Things (IoT) to enhance efficiency, precision, and automation in plant cultivation. By integrating sensor technologies,
Ionic Mineral Technologies (Ionic MT) has developed Ionisil™, a nano-silicon anode drop-in technology for lithium-ion batteries. The product is designed to replace graphite (the current mainstream anode material) in the anode of the battery, both partially and completely,
IoT based [AUTO] [LOCK-ABLE / SECURITIZED Wireless Touch-Sensitive Glass Keyboard :
BY HIDING ALL BUTTONS IN ONE [RED] BUTTON] [EXISTING KEYBOARD PRODUCTS MODIFICATION]
HOW THE PRODUCT WORKS :
• Simply press the SENSITIVE &
Critics say the future of the internal combustion engine (ICE) is dead. Far from it! There is plenty of room for an improved ICE. In fact,
Valves often develop leaks as they age. This is disruptive, wasteful, and can cause damage in residential settings, but can be far more problematic in industrial applications such as petrochemical, hydrogen, and semiconductor plants. Leaking valves can cause fires, explosions, environmental hazards, and safety hazards.
My entry is the Liquid Air Energy Storage and Regeneration (LAESAR) system – to address both of the twin problems heading the global sustainability agenda: A) the need for energy storage on global power grids when they have transitioned to full dependence on renewable energy,
Energy Source:
"Even if only 1% of the thermal energy contained within the uppermost 10 kilometers of our planet could be tapped, this amount would be 500 times that contained in all oil and gas resources of the world."
-U.S.
MEPAP-15000 is the world's first innovative device that combines clean energy generation and air-purification in a single-unit. It solves the problem of energy-production and air-pollution by providing a sustainable and efficient solution.
The potential benefits of MEPAP-15000 are numerous. Firstly,
We bring fundamental changes to both the core Heat Pump physical implementation and industrial systems-level application to fully enable Industrial Process Heat Decarbonization immediately/”piloted” to 230°C/445°F, mid-term to 390°C/740°F, and longer-term to at least 600°C/1100°F. Our target industrial applications include all General Process Heat,
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