Eco-design and Degrade Remanufacturing Based Fossil Carbon Emissions Reduction

Eco-design and degrade remanufacturing of steel shells of high remanufacturability through increasing of disassembly and accumulation of drawbacks that prevent facilitation of recovery to be of smallest partition. Recovered steel is small uniform pieces which can be nested within base of new steel strips by means of riveting. Emerged composite shape steel strips can be formed into structural steel sections and thus value creation and both power and fossil carbon emissions reduction can be satisfied. To help fossil carbon emissions reduction based value creation for human development, environmental education and employment.

Aims: Two steps eco-design and degrade remanufacturing based fossil carbon reduction producers are studied and which include:-

1- Eco-design to reduce power consumption currently of oil filer steel shells production.
2- Design for degrade remanufacturing potentials planting to be end-of-life processing strategy

Methodology: Power consumption is monitored and eco-audit is recorded for each manufacturing process of technological path for oil filter shells production to study possibility of power reduction. Eco-design is applied after reviewing of current designs of shells and modifications are applied to certain power reduction to help, in role, reduction of fossil carbon emissions. Current reduction will be followed by strategically reduction through degrade remanufacturing of end-of- life shells into structural steel.

Results: Welding process is used for assembly, which let disassembly is hard to perform. Eliminate welding process can enable current reduction of power, fossil fuel and carbon emission. Also facilities degrade remanufacturing at the end of life of shells into construction steel sections.

Conclusion: Mitigation effect of eco-design through saving both of time and power where sustainable human power is exploited can allow educational institutions of developing countries without industrial infrastructures conduct remanufacturing of end-of-life steel with high flexibility by increasing percentage of disassembly process.