Literature Review and Conclusion

Literature Review and Conclusion

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Abstract

The sunflower polymers that form a key aspect of today’s drugs as shown that the right value and ration can be induced to create the right doses for the liposomal myocet derivatives. This element also helps from the right condition of clinical chemicals that are also advanced to form key drugs. This ratio was even lower for the palm oil that adds to the value of induced temperatures. The study also showed that the higher the temperatures, the lower the Triacylglycerol ration that mainly stands at 25.7% for the 75 degrees in the final production stage. The sunflower seed process to extract cooking vegetable oil is one of the most complex process that involves largely chemical and physical reactions. More importantly is the value and comparison needed when making the right conditions like temperature, pressure and chemicals that are required in the sunflower seed processing to attain the right tone or quality of cooking oil. Sun flower seeds have been known to have high oil ration when well processed. The oil ration in line with the inclusive elements like compounds for sun flower is 1:4. This ration is always higher when the right or high temperatures are used and this is one of the considerations when making cooking oil from sun flower seeds.

Literature Review

Sunflower seeds are some of the most used in the world both for household uses and industrial applications. The making of oil and the trade of cooking oil amounts billions of dollars globally (Karagounis et al., 2019). Over the years, the chemistry behind the extraction of oil from sunflower seeds has revolutionized with advanced technology help in making the process easier and more efficient. Developed countries have made huge steps in the extraction of cooking oil from sunflower seeds that has added to the ease of the process and explanation of the business. More importantly is the value and comparison needed when making the right conditions like temperature, pressure and chemicals that are required in the sunflower seed processing to attain the right tone or quality of cooking oil. Sun flower seeds have been known to have high oil ration when well processed (Giuffrè, Capocasale, Zappia & Poiana, 2017). The impact of temperature in the production of cooking oil from sunflower seeds has been studied extensively in order to determine the right amount of heat required in the process.

Studies have shown that sunflower seeds and the production of cooking oil operates both in high and mild temperatures and this understand this variation is key in maximizing on the production (Kanti et al., 2017). Palm oil that is oner of the most considered sources of cooking oil has increasingly been considered by many companies across the world. One of the main demerits of using palm oil is that it has a lengthy process and the cost of production is always higher than when using sunflower seeds. The difference in the two processes only varies due to the chemicals used and the length of the process. Studies have shown that the cost of producing oil from sunflower seeds has flame over the years and this is due to the invention of technology that is making the process simpler (Zehra et al., 2020). This has increased the amount of oil produced and also lowered its cost in the market.

The entire busies of oil production in the global market has therefore increased and more value is seen to come in the future. When looking at the production process, there is need to compare how and where the key inputs are applied and the role of temperature in the quality of the oil produced (Karagounis et al., 2019). One of the key pointers in this process is the role of temperature regulation in the cooking oil production when using sunflower seeds. The role of temperature is to ensure that the right chemical mix-up and the blending of the right process does not interfere with the quality of the oil produced. There is need to harness the eight controls like the temperature and the chemicals so as to ensure that there is quality and cost control when producing the oil (Bozorgian, 2020). Extensive oil production using sunflower seeds has become a norm with more companies rising up and entering the global market for the sale of this precious household product.

The many years of operation when dealing with sunflower as a crop has shown that huge steps have been accomplished and this is helping create a reliable and strong value in the production (Giuffrè, Capocasale, Zappia & Poiana, 2017). It is for this reason that the study of the process and coming up with the right controls like temperature is helping cut down on any cost overruns in the process. Compared to the vegetable oils exposed to light, the oils kept in dark had lesser oxidative alterations possibly due to the elimination of photo-oxidation and the maintenance of natural antioxidants such as tocoph-erol, pigments and phenols. The increased cultivation of sunflower as a crop has shown that there is still a broad market and business opportunity for those who wish to invest in the area (Zehra et al., 2020). A study done in trying to identifying the ration compound of the key elements that make up the palm oil showed that there was always a 2.5% difference. Control trials done on the effect of sunflower seed oil and the lipid analysis has shown that the cooking oil extracted from sun flower has many benefits (Konyalı, 2017).

In order to add value to the process, many trials are done until the right quantity and value is achieved when extracting oil from the sunflower seeds. For example, when the right temperatures and chemicals are used, there is a high degree of attaining the right value or quality of the oil needed (Kanti et al., 2017). One of the main demerits of using palm oil is that it has a lengthy process and the cost of production is always higher than when using sunflower seeds. The difference in the two processes only varies due to the chemicals used and the length of the process. Studies have shown that the cost of producing oil from sunflower seeds has flame over the years and this is due to the invention of technology that is making the process simpler. A study done on the oil ratio in compares to lipid element sin a processed sunflower seed portion showed good results that relate to the ratio or percentage concentrate (Karagounis et al., 2019). One thing to note is that the differences in the oil quality per 1 kilogram of sunflower seeds only fell within the range of 12-17. The 15% Niger seed oil showed decrease and increase in the level of lipid profile as compared to rats fed with 15% palm oil and sunflower oil (except Triacylglycerol), respectively (Bozorgian, 2020). the 15% Niger seed oil showed significant decrease and increase in body weight gain percentage as compared to the 15% palm oil and 15% sunflower oil, respectively.

Conclusion

The chart shows varying effects of Sunflower Oil and Butter on Sensory Properties of a Granola Bar. Based on the chart, the control results when compared with the experiments vary slightly in the various factors being tested. The greatest variation in the control and the experiment was seen in the flavor as one of the factors being tested. Starting with overall acceptability, the experiment showed higher results that the control indicators that was above 7. For the flavor, the effect of sun flower oil was higher for the experiment than the control results that fell at 6-8. Mouth feel showed similar difference where the effect of sunflower oil on sensory properties of Granola were higher for the experiment while the control results showed a lesser margin. The color outlook was higher for the experiment results than the control and this shows more impact of the sun flower oil on the Granola. The color results were the highest among the tested factors in the experiment. Sunflower polymers are a key gateway to uncovering the use of this plant in the extraction of vital drugs. For many years, the use of clinical elements in trying to uncover the real ingredients to making of drugs had been derailed by the slow progress in polymer development. The food industry across the world relies on cooking oil and this shows the importance of this crop and its value in the global market. The increased cultivation of sunflower as a crop has shown that there is still a broad market and business opportunity for those who wish to invest in the area. This paradigm is used by clinically approved chemotherapy formulations such as liposomal anthracyclines (e.g., Doxil and Myocet) and albumin-bound paclitaxel (Abraxane) to offer improved safety profiles over equivalent solution formulations. A study done in trying to identifying the ration compound of the key elements that make up the palm oil showed that there was always a 2.5% difference. These differences were only evident when looking at the percentage ratios of the cooking oil extracted from sun flower seeds.

References

Bozorgian, A. (2020). Study of the Effect Operational Parameters on the Super critical Extraction Efficient Related to Sunflower Oil Seeds. Chemical Review and Letters, 3(3), 94-97.

Giuffrè, A. M., Capocasale, M., Zappia, C., & Poiana, M. (2017). Influence of high temperature and duration of heating on the sunflower seed oil properties for food use and bio-diesel production. Journal of Oleo Science, 66(11), 1193-1205.

Kanti, V., Günther, M., Stroux, A., Sawatzky, S., Henrich, W., Abou‐Dakn, M., … & Garcia Bartels, N. (2017). Influence of sunflower seed oil or baby lotion on the skin barrier function of newborns: A pilot study. Journal of cosmetic dermatology, 16(4), 500-507.

Karagounis, T. K., Gittler, J. K., Rotemberg, V., & Morel, K. D. (2019). Use of “natural” oils for moisturization: Review of olive, coconut, and sunflower seed oil. Pediatric Dermatology, 36(1), 9-15.

Konyalı, S. (2017). Sunflower Production and Agricultural Policies in Turkey. Sosyal Bilimler Araştırma Dergisi, 6(4), 11-19.

Zehra, A., Sahito, Z. A., Tong, W., Tang, L., Hamid, Y., Khan, M. B., … & Yang, X. (2020). Assessment of sunflower germplasm for phytoremediation of lead-polluted soil and production of seed oil and seed meal for human and animal consumption. Journal of Environmental Sciences, 87, 24-38.