Initial

• Dr. Joshua Pearce's paper - Feb 2017 - [1]
• Energy consumption of 3D printing - based on paper above - 1 KwHr/100 grams of print
• Another source of energy cost Indicates 5 hours of printing at 50 watt power consumption rate for a 100 gram print. 25 hours total. About 12 cents for this print - factor of 4 lower than Pearce paper regarding energy costs. [2] and calculator: [3]
• 10kwhr/kg - or 50 cents per pound energy of printing cost assuming grid electricity. Energy costs are significant. According to Pearce paper. This appears to be way too high. Check calculations.
• Precious Plastic extruder - energy cost -
• Cost of ABS resin -

Discussion

In above scenario, cost would be reduced by 2/3 if we went straight from resin to 3D print, without having to make filament. This, if an effective resin feeding system + pellet based extruder were available, this would be a preferred route for large 3D printed objects.

Filament Maker Efficiency

• 5kW for 1 kg in 1 Hr = 25 cents per lb of filament made at 10 cent/kwhr energy cost. [4]
• OSE efficiency results: Using Lyman Filament Maker, it takes about 2 hours to produce 1 kg of plastic. The filament maker uses only about 200W of electicity. Thus - we are using 200Whr/lb to make ABS filament from pellets. The elecricity cost is thus only 2 CENTS taking an average cost of grid electricy - of 10 cents/kWhr. If we consider grinding the filament from bulk scrap - that may double of triple the cost - making the filament cost from waste plastic under 10 cents per lb. Exact data to be determined in the Boot Camp 2019.