A registered U.S. patent titled "Feedstock Engineering in Catalytic Cracking Systems Utilizing Hydrogen Radicals Generated by Electromagnetic Waves for Converting Natural and Synthetic Hydrocarbon Waste into Gasoline and Diesel" — awarded in 2023.
The engineered feedstock process in catalytic cracking is an innovative technology that utilizes hydrogen radicals generated by electromagnetic waves to convert natural and synthetic hydrocarbon waste into valuable fuels such as gasoline and diesel. This invention aims to optimize refining processes and reduce waste, offering a sustainable and cost-effective solution for hydrocarbon recycling
Project Objectives
- Hydrocarbon Waste Recycling: Converting natural and synthetic waste into usable fuel products.
Enhanced Energy Efficiency: Improving the performance of catalytic cracking processes through electromagnetic wave technology.
Environmental Impact Reduction: Minimizing hydrocarbon waste that typically harms the environment.
Promoting Sustainability: Supporting the development of green and eco-friendly technologies in the energy sector
Method of Electromagnetic with Catalytic Cracking Hydrogenation
The world generates 2.01 billion tones of municipal solid waste annually, this is expected to increase by roughly 70 percent to 3.4 billion metric tons by 2050.
The global waste management market size was estimated at USD 993.4 billion in 2021 and is expected to hit around USD 1782.5 billion by 2030, poised to grow at a compound annual growth rate (CAGR) of 6.71% from 2022 to 2030.
Virtually every resident, organization, and human activity generate some type of waste.
Many different types of waste are generated,including municipal solid waste, hazardous waste,industrial non-hazardous waste, agricultural andAnimal waste, medical waste, radioactive waste,construction and demolition debris , extractionand mining waste, oil and gas production waste,fossil fuel combustion waste.
