OPTIMIZATION OF PRODUCTION PROCESS UP-SCALLING OF PARACETAMOL INFUSION TO REDUCE REJECT PERCENTAGE AND COST OF POOR QUALITY
The level of particle contamination in the product is one of product failure determinant which results in an increase of production cost. The purpose of this study is to optimize production process of paracetamol infusion to reduce the percentage of product rejection due to particle contamination...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/42380 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The level of particle contamination in the product is one of product failure
determinant which results in an increase of production cost. The purpose of this
study is to optimize production process of paracetamol infusion to reduce the
percentage of product rejection due to particle contamination in order to reduce
cost of poor quality. The history of product rejection was on the range of
7,92%±5,14. The results of critical parameters identification with Ishikawa method
and risk assessment with Failure Modes Effects Analysis (FMEA) show that the
factor which contribute to product failure included the machine speed, ultrasonic
frequency, water for injection pressure on the vial washing machine, sterilizing
tunnel conveyor speed and nitrogen gas pressure on the filling machine affect the
percentage of particle contamination of product. Furthermore, the factor were
optimized using fractional factorial design ¼ fraction. The optimal process was
obtained at speed of vial washing machine of 7 Hz, ultrasonic frequency on vial
washing machine was 200 Hz, pressure of water for injection on washing machine
was 20 Psi, speed of sterilizing tunnel conveyor was 30 Hz reduced the percentage
of particle contamination rejects to 2.53%. The difference in nitrogen gas pressure
on the filling machine does not affect the decomposition of paracetamol into paraaminophenol. Production process confirmation using optimal process parameters
produce an average percentage reject of 3.20%± 0,58 with Ppk = 1.44 which means
production process are capable. Based on data analysis with Kruskal –Wallis
method, followed by Mann –Whitney known that the implementation of process
optimization can significantly reduce the percentage of particle contamination
rejects and production costs (p<0,05). The results of this optimization process can
be applied in production process of paracetamol infusion with batch size of 500
liters in PTM.
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