ingenieur Vol.87 July-Sept2021 Vol 87 2021 | Page 36

INGENIEUR 34 VOL 87 JULY-SEPTEMBER 2021 Figure 3 : Typical flowchart for palm oil milling process Figure 4 : Typical Mass Balance for Palm Oil Mill ( Source : MPOB ) TYPICALL PALM OIL MASS BALANCE FFB 100 % LOOSE FRUIT 80 % EFB 20 % PRESS CAKE 26 % DILUTED DRUDE OIL 60 % NUT 12 % MESOCARP FIBRE 14 % SLUDGE 40 % CRUDE PALM OIL 20 % SHELL 5.5 % KERNEL 5.5 % STEAM 25 % CONDENSATE 15 % PALM OIL MILL EFFLUENT ( POME ) 65 % HYDROCYCLONE WATER 5 % CLEANING WATER 5 % MOISTURE LOSS 10 % Figure 3 : Typical flowchart for palm oil milling process PALM OIL MILL PROCESS FLOW Sterilisation Stripping Digestion Pressing Nut / Fibre Screening Nut Drying Nut Cracking Dry Separation Clarification Purification Drying Wet Separation Kernel Drying Desanding Separation FFB Steam Condensate EFB Press Cake Mesocarp Fibre Dry Shell Wet Shell Kernel Steam Crude Oil Water Fibrous Material Waste Water Dirt CPO POME
INGENIEUR 34 VOL 87 JULY-SEPTEMBER 2021 Figure 3 : Typical flowchart for palm oil milling process Figure 4 : Typical Mass Balance for Palm Oil Mill ( Source : MPOB ) TYPICALL PALM OIL MASS BALANCE FFB 100 % LOOSE FRUIT 80 % EFB 20 % PRESS CAKE 26 % DILUTED DRUDE OIL 60 % NUT 12 % MESOCARP FIBRE 14 % SLUDGE 40 % CRUDE PALM OIL 20 % SHELL 5.5 % KERNEL 5.5 % STEAM 25 % CONDENSATE 15 % PALM OIL MILL EFFLUENT ( POME ) 65 % HYDROCYCLONE WATER 5 % CLEANING WATER 5 % MOISTURE LOSS 10 % Figure 3 : Typical flowchart for palm oil milling process PALM OIL MILL PROCESS FLOW Sterilisation Stripping Digestion Pressing Nut / Fibre Screening Nut Drying Nut Cracking Dry Separation Clarification Purification Drying Wet Separation Kernel Drying Desanding Separation FFB Steam Condensate EFB Press Cake Mesocarp Fibre Dry Shell Wet Shell Kernel Steam Crude Oil Water Fibrous Material Waste Water Dirt CPO POME