Inproving of the quality food for animals by pulsed power plasma discharge

• Autorzy: Gnapowski S. , Gnapowski E. , Duda A.

Identyfikatory

DOI

10.12913/22998624/59085

• Języki publikacji: EN

Abstrakty

EN

Soy beans powder mixed with water is a good food for animals. However, there are two problems with this brew. One is that soy beans powder is sunk down to fast. Parts of soy beans powder are too big and too heavy. Animals do not eat soy beans powder because after a few minutes (around 3min) is sunk down and soy beans are on the bottom case. Another negative point is a quick growth of mold, especially during summer when the temperature is highest. Mold is making food unhealthy and causes unpleasant smell. After mold appears it is difficult to clean the case. One of the solutions to eliminate these problems is to use pulse power plasma discharge and the second solution is ultra sound treatment. It was observed that pulse power discharge can decrease the size of soy beans powder a few times. Another advantage of such experiments was that the pulse power discharge killed bacteria and viruses. After our experiments we did not observe mold growing. Using pulse power discharge we can decrease sinking speed by about ten times. Ultra sound generation is useful and can decrease sinking speed even more, compared with pulse power discharge.

Słowa kluczowe

EN

ultrasounds; pulsed power plasma discharge; OH radical; change of size; animals food

• Wydawca: Lublin University of Technology ; Polish Society of Ecological Engineering (PTIE), Branch of PTIE in Lublin
• Czasopismo: Advances in Science and Technology. Research Journal
• Rocznik: 2015
• Tom: Vol. 9, nr 27
• Strony: 58--65
• Opis fizyczny: Bibliogr. 10 poz., fig.

Twórcy

autor

Gnapowski S.

• Department of Teaching Methods and Strategies, Lublin University of Technology, Nadbystrzycka 38 St., 20-618 Lublin, Poland

autor

Gnapowski E.

• Krolowej Jadwigi 22 St., 20-281 Lublin, Poland

autor

Duda A.

• Department of Teaching Methods and Strategies, Lublin University of Technology, Nadbystrzycka 38 St., 20-618 Lublin, Poland,

Bibliografia

• 1. Gnapowski S., Yamabe C., Ihara S.: Ozone generation characteristics of ozonizer with the rotating type electrode. Japan-Korea Joint Symposium on Electrical Discharge and High Voltage Engineering, Shibaura Institute of Technology, Tokyo, 2007, 88–92.
• 2. Gnapowski S., Yamabe C., Ihara S.: Ozone generation characteristics of ozonizer with the rotating type electrode. The Institute of Electrical Engineers of Japan, Transactions on Industry Applications, 128(10), 2008, 619–623.
• 3. Murai A. and Nakajima T.: Study of ozone composing mechanism derived from third element using oxygen gas: Part 1 and Part 2. The Institute of Electrical Engineers of Japan, Transactions on Industry Applications, 127(3), 2007, 273–285.
• 4. Murai A. and Nakajima T.: Ozone generating method using a catalysis electrode in barrier discharge. 10th International Symposium on High Pressure Low Temperature Plasma Chemistry, Saga, 2006, 152–156.
• 5. Takatsu K., Fujishima T., Yamashita T., Matsuo H., Ikegami T., Ebihara K.: Ozone generation characteristics of compact ozonizer with screw type electrode. 13th Asian Conference on Electrical Discharge, Hokkaido University, Sapporo, 2006, pp. 432.
• 6. Matsumoto T., Fujishima T., Yamashita T.: Ozone generation characteristics of compact ozonizer using screw-type electrode with oxygen or artificial air. Japan-Korea Joint Symposium on Electrical Discharge and High Voltage Engineering, 2007, 395–398.
• 7. Gnapowski S., Yamabe C., Ihara S.: Improving the ozone generation using ozonizer with the rotating type electrode. Przegląd Elektryczny, No. 5, 2009, 106–109.
• 8. Gnapowski S., Akiyama H., Hamid S., Hosseini R., Yamabe C.: Effect of rotating electrode. World Academy of Science, Engineering and Technology – Research Journal, 7(7), 2013, 1264–1271.
• 9. Gnapowski S., Yamabe C., Ihara S.: Characteristics of ozone generation using different materials on a rotating electrode. Interdisciplinary integration of science in technology, Education and Economy – Khmelnytsky-Jaremche: Khmelnytsky National University, 2013, 176–185.
• 10. Gnapowski E., Gnapowski S.: Impact porous dielectric silica gel for operating voltage and power discharge reactor. World Academy of Science, Engineering and Technology – Research Journal, 8(2), 2014, 410–414.