imagine you are an engineer and you are trying to design an air filter that will successfully reduce the amount of air pollution being released into the air by a factory. you need to consider constraints that will limit your design as well as the criteria that will be used to judge the successfulness of your design
Constraints:
1. Budget: You have a limited budget for the design and production of the air filter.
2. Space: The air filter needs to be compact enough to fit within the existing infrastructure of the factory.
3. Maintenance: The air filter should be low maintenance and easy to clean or replace.
4. Energy consumption: The air filter should not consume a significant amount of energy to operate, to prevent adding to the factory's overall pollution.
Criteria for Judging Success:
1. Efficiency: The air filter should be able to effectively remove pollutants such as particulate matter, volatile organic compounds, and other harmful substances from the factory emissions.
2. Durability: The air filter should have a long lifespan and be able to withstand the harsh conditions found in an industrial setting.
3. Cost-effectiveness: The air filter should be cost-effective to design, produce, and maintain, in comparison to the benefits it provides in reducing air pollution.
4. Compliance: The air filter should meet all relevant environmental regulations and standards for air quality.
By considering these constraints and criteria, you can design an air filter that effectively reduces the amount of air pollution being released into the environment by a factory.