1. Feedstock composition: The composition of industrial waste feedstock can vary significantly, and it is important to consider the potential impact on the syngas, methanol, propylene, and acrylonitrile production processes.
2. Energy efficiency: Industrial waste-to-syngas-to-methanol-to-propylene-to-acrylonitrile facilities require significant amounts of energy, and energy efficiency is a key design consideration.
3. Process control and reliability: The processes involved in the conversion of industrial waste to acrylonitrile are complex, and reliability and process control are key design considerations.
4. Environmental considerations: Industrial waste-to-syngas-to-methanol-to-propylene-to-acrylonitrile facilities have the potential to produce significant amounts of greenhouse gases and other pollutants, and it is important to consider the potential impact on the environment.
5. Product quality and purity: The production of high quality and pure methanol, propylene, and acrylonitrile is critical for many industrial applications, and it is important to design the production processes to ensure consistent and high-quality products.
6. Plant siting: The location of the facility is important to minimize transportation costs and to ensure that it is situated near a reliable source of industrial waste feedstock.
7. Capital and operating costs: The costs associated with building and operating an industrial waste-to-syngas-to-methanol-to-propylene-to-acrylonitrile facility can be significant, and it is important to consider the cost-effectiveness of the design.
Publication date: