Consequential Life Cycle Assessment (CLCA) of Replacing Steel with Aluminum in North American Light Vehicles
- 2018-11-27 11:21:00
- LUQIMENG Original
- 2280
Vehicle Production and use Emit Greenhouse Gases (GHGs)
Lightweight Materials Cause Greenhouse Gas Trade-Off
Standard Approach: Attributional Life Cycle Assessment
Shortcomings of such GHG accounting:
? How to account for metal recycling
? Timing of emissions
? Fleet effects
? How to model consequences of material substitution
(Better) Alternative: Consequential Life Cycle Assessment
Starting Point: Assumed Aluminum Additions to North American Light Vehicle Production
Summary
? Consequential LCAs of automotive material substitution are feasible and insightful
? Results of presented study are still preliminary (need to select probable scenarios from all plausible ones)
? Replacing automotive steel with aluminum will always lead to an initial increase in GHG emissions
? When GHG payback is achieved (an whether) depends on the assumptions in the model, the most important of which are:
? GHG intensity of aluminum production
? GHG consequences of large increase in automotive aluminum scrap