The Influence Of Stirring On The Manufacture Of Pure Coconut Oil Using The Yeast Of Pure Cerevisiae Saccaromyces By Fermentation

The Influence of Stirring on the Manufacture of Pure Coconut Oil Using the Yeast of Pure Cerevisiae Saccharomyces by Fermentation

Pure coconut oil (Virgin Coconut Oil/VCO) is a product produced from coconut (cocos nucifera), which has a variety of health benefits. VCO is known for the composition of medium chain fatty acids contained in it, which can help maintain a healthy body and treat various diseases. Physically, pure coconut oil has a clear color like crystal. One of the common methods used in making VCO is the fermentation method, which is often used by bread yeast or tempeh yeast. In this study, the fermented method used was pure saccharomyces cereal cereational yeast.

The Importance of Stirring in Coconut Oil Production

The purpose of this study is to determine the best conditions in terms of stirring time and stirring speed in the process of making pure coconut oil, so that efficient and profitable results are obtained. The variable observed in this experiment is the time of stirring and the speed of stirring that affects the yield and composition of pure coconut oil. The stirring time used varies from 15 minutes, 30 minutes, 45 minutes, 60 minutes, up to 75 minutes. Stirring speeds also vary between 25 rpm, 50 rpm, 75 rpm, 100 rpm, and 125 rpm.

Methodology

The results of pure coconut oil obtained are then analyzed qualitatively and quantitatively. From this study, the best condition obtained based on the results and composition of pure coconut oil that meets the standard is at the time of stirring 30 minutes and the stirring speed of 50 rpm, with the highest yield of 24.5%. Conversely, the lowest result of 8.5% was obtained at the time of stirring 75 minutes and a speed of 100 rpm.

Analysis of Pure Coconut Oil Products

Analysis of pure coconut oil products in this study focused on the highest and lowest results. The parameters tested include gas chromatography analysis (GC), water content, peroxide value, iodine number, free fatty acid content (FFA), and density. The analysis results show that all parameters are still in accordance with established standards.

Conclusion

From the results of this study, it can be concluded that the longer the stirring time and the faster the speed of stirring, the yield of pure coconut oil tends to decrease. This shows the importance of setting stirring conditions in the VCO making process to achieve optimal results. By understanding the effect of this variable, pure coconut oil producers can increase the efficiency of the process and benefits derived from the products produced.

Implications of the Study

In addition, this study provides valuable insights on the application of fermentation techniques with yeast Saccharomyces cerevisiae to improve the quality and quantity of pure coconut oil. As a result, it is hoped that this research can be a reference for small and medium businesses (SMEs) who want to produce pure coconut oil in an efficient and effective way.

Recommendations for Future Research

This study highlights the importance of stirring conditions in the production of pure coconut oil. Future research can focus on optimizing the fermentation process to improve the yield and quality of pure coconut oil. Additionally, the study can be replicated with different types of yeast or microorganisms to explore their effects on the production of pure coconut oil.

Limitations of the Study

This study has some limitations. The experiment was conducted with a limited number of samples, and the stirring time and speed were varied in a limited range. Future research can explore the effects of different stirring times and speeds on the production of pure coconut oil.

Conclusion

In conclusion, this study demonstrates the importance of stirring conditions in the production of pure coconut oil. The results of this study can be used as a reference for small and medium businesses (SMEs) who want to produce pure coconut oil in an efficient and effective way. Future research can focus on optimizing the fermentation process to improve the yield and quality of pure coconut oil.

References

• [List of references cited in the study]

Appendix

• [Additional data or information that supports the findings of the study]

Abstract

This study investigates the effect of stirring on the manufacture of pure coconut oil using the yeast of pure cerevisiae saccharomyces by fermentation. The results show that the longer the stirring time and the faster the speed of stirring, the yield of pure coconut oil tends to decrease. The study provides valuable insights on the application of fermentation techniques with yeast Saccharomyces cerevisiae to improve the quality and quantity of pure coconut oil.
Frequently Asked Questions (FAQs) on the Influence of Stirring on the Manufacture of Pure Coconut Oil Using the Yeast of Pure Cerevisiae Saccharomyces by Fermentation

Q: What is the purpose of this study?

A: The purpose of this study is to determine the best conditions in terms of stirring time and stirring speed in the process of making pure coconut oil, so that efficient and profitable results are obtained.

Q: What is the significance of stirring in coconut oil production?

A: Stirring is a crucial step in the production of pure coconut oil, as it affects the yield and composition of the oil. The study aims to investigate the effect of stirring time and speed on the production of pure coconut oil.

Q: What are the parameters tested in this study?

A: The parameters tested in this study include gas chromatography analysis (GC), water content, peroxide value, iodine number, free fatty acid content (FFA), and density.

Q: What are the results of this study?

A: The results of this study show that the longer the stirring time and the faster the speed of stirring, the yield of pure coconut oil tends to decrease. The best condition obtained based on the results and composition of pure coconut oil that meets the standard is at the time of stirring 30 minutes and the stirring speed of 50 rpm, with the highest yield of 24.5%.

Q: What are the implications of this study?

A: This study provides valuable insights on the application of fermentation techniques with yeast Saccharomyces cerevisiae to improve the quality and quantity of pure coconut oil. It is hoped that this research can be a reference for small and medium businesses (SMEs) who want to produce pure coconut oil in an efficient and effective way.

Q: What are the limitations of this study?

A: This study has some limitations. The experiment was conducted with a limited number of samples, and the stirring time and speed were varied in a limited range. Future research can explore the effects of different stirring times and speeds on the production of pure coconut oil.

Q: What are the recommendations for future research?

A: Future research can focus on optimizing the fermentation process to improve the yield and quality of pure coconut oil. Additionally, the study can be replicated with different types of yeast or microorganisms to explore their effects on the production of pure coconut oil.

Q: What are the potential applications of this study?

A: The findings of this study can be applied in the production of pure coconut oil in various industries, such as food, cosmetics, and pharmaceuticals. It can also be used as a reference for small and medium businesses (SMEs) who want to produce pure coconut oil in an efficient and effective way.

Q: What are the potential benefits of this study?

A: The study can provide valuable insights on the application of fermentation techniques with yeast Saccharomyces cerevisiae to improve the quality and quantity of pure coconut oil. It can also help to increase the efficiency of the production process and reduce costs.

Q: What are the potential challenges of this study?

A: The study may face challenges in terms of scaling up the production process and ensuring consistency in the quality of the pure coconut oil produced. Additionally, the study may require further research to explore the effects of different stirring times and speeds on the production of pure coconut oil.

Q: What are the potential future directions of this study?

A: Future research can focus on optimizing the fermentation process to improve the yield and quality of pure coconut oil. Additionally, the study can be replicated with different types of yeast or microorganisms to explore their effects on the production of pure coconut oil.