Electrophysical Microwave Installation for Heat Treatment of Animal Slaughter Waste
Every day, the Russian Federation processes 126.3 tons of animal slaughter waste into animal feed. With an installation capacity of 35 kg/h, the required quantity is 7000 units. As a rule, the devices are energy-intensive. The problem is to reduce the operating costs of heat treatment of raw materia...
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| Language: | English |
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Kemerovo State University
2024-07-01
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| Series: | Техника и технология пищевых производств |
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| Online Access: | https://fptt.ru/en/issues/22705/22673/ |
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| author | Evgeny V. Voronov |
| author_facet | Evgeny V. Voronov |
| author_sort | Evgeny V. Voronov |
| collection | DOAJ |
| description | Every day, the Russian Federation processes 126.3 tons of animal slaughter waste into animal feed. With an installation capacity of 35 kg/h, the required quantity is 7000 units. As a rule, the devices are energy-intensive. The problem is to reduce the operating costs of heat treatment of raw materials while maintaining the feed quality. The article introduces a new installation powered by an electrically driven resonator with rationalized operating modes.
The research featured mucous by-products that require thermal treatment to neutralize the smell and disinfect the raw material. The authors investigated the dynamics of heating and used the data obtained to develop a digital installation model and test the electrodynamics in the resonator. After that, they rationalized the operating modes, i.e., corona discharge, electric field, screen efficiency, generator power, installation performance, and energy costs.
The complex action of electromagnetic radiation provided a continuous combined heat treatment, disinfection, and odor neutralization with reduced operating costs. The electrical resonator was coaxially located in the shielding and contained a coronating electrode, electric bactericidal UV gas discharge lamps, knives, screws, and emitters from air-cooled magnetrons.
The annular volume between the resonator and the coat excited the traveling wave by electromagnetic radiation through the perforation. Its average perimeter was a multiple of half the wavelength. The heat treatment with disinfection and fat rendering required an intrinsic quality factor of 8000, a generator power of 4.4 kW, a productivity of 35–40 kg/h, and energy costs of 0.25–0.28 kWh/kg. When the electric field was 5 kV/cm and the corona discharge was 9.79 kV/cm, the corona of bactericidal lamps provided the required ozone concentration and the bacterial contamination fell down to an acceptable level.
The new installation with an electrical resonator reduced operating costs for heat treatment of animal slaughter waste and maintained the high-quality of the resulting feed products. |
| format | Article |
| id | doaj-art-26d82269090f4f48ac35a6259630c564 |
| institution | Kabale University |
| issn | 2074-9414 2313-1748 |
| language | English |
| publishDate | 2024-07-01 |
| publisher | Kemerovo State University |
| record_format | Article |
| series | Техника и технология пищевых производств |
| spelling | doaj-art-26d82269090f4f48ac35a6259630c5642025-01-03T01:43:35ZengKemerovo State UniversityТехника и технология пищевых производств2074-94142313-17482024-07-0154236938110.21603/2074-9414-2024-2-2511Electrophysical Microwave Installation for Heat Treatment of Animal Slaughter WasteEvgeny V. Voronov 0https://orcid.org/0000-0002-9867-5860Nizhny Novgorod State University of Engineering and Economics, Knyaginino, RussiaEvery day, the Russian Federation processes 126.3 tons of animal slaughter waste into animal feed. With an installation capacity of 35 kg/h, the required quantity is 7000 units. As a rule, the devices are energy-intensive. The problem is to reduce the operating costs of heat treatment of raw materials while maintaining the feed quality. The article introduces a new installation powered by an electrically driven resonator with rationalized operating modes. The research featured mucous by-products that require thermal treatment to neutralize the smell and disinfect the raw material. The authors investigated the dynamics of heating and used the data obtained to develop a digital installation model and test the electrodynamics in the resonator. After that, they rationalized the operating modes, i.e., corona discharge, electric field, screen efficiency, generator power, installation performance, and energy costs. The complex action of electromagnetic radiation provided a continuous combined heat treatment, disinfection, and odor neutralization with reduced operating costs. The electrical resonator was coaxially located in the shielding and contained a coronating electrode, electric bactericidal UV gas discharge lamps, knives, screws, and emitters from air-cooled magnetrons. The annular volume between the resonator and the coat excited the traveling wave by electromagnetic radiation through the perforation. Its average perimeter was a multiple of half the wavelength. The heat treatment with disinfection and fat rendering required an intrinsic quality factor of 8000, a generator power of 4.4 kW, a productivity of 35–40 kg/h, and energy costs of 0.25–0.28 kWh/kg. When the electric field was 5 kV/cm and the corona discharge was 9.79 kV/cm, the corona of bactericidal lamps provided the required ozone concentration and the bacterial contamination fell down to an acceptable level. The new installation with an electrical resonator reduced operating costs for heat treatment of animal slaughter waste and maintained the high-quality of the resulting feed products.https://fptt.ru/en/issues/22705/22673/by-productsmicrowave installationelectric gas discharge lampskilohertz frequency generatorperforated resonator drumcorona needlesspiral and screw augers |
| spellingShingle | Evgeny V. Voronov Electrophysical Microwave Installation for Heat Treatment of Animal Slaughter Waste Техника и технология пищевых производств by-products microwave installation electric gas discharge lamps kilohertz frequency generator perforated resonator drum corona needles spiral and screw augers |
| title | Electrophysical Microwave Installation for Heat Treatment of Animal Slaughter Waste |
| title_full | Electrophysical Microwave Installation for Heat Treatment of Animal Slaughter Waste |
| title_fullStr | Electrophysical Microwave Installation for Heat Treatment of Animal Slaughter Waste |
| title_full_unstemmed | Electrophysical Microwave Installation for Heat Treatment of Animal Slaughter Waste |
| title_short | Electrophysical Microwave Installation for Heat Treatment of Animal Slaughter Waste |
| title_sort | electrophysical microwave installation for heat treatment of animal slaughter waste |
| topic | by-products microwave installation electric gas discharge lamps kilohertz frequency generator perforated resonator drum corona needles spiral and screw augers |
| url | https://fptt.ru/en/issues/22705/22673/ |
| work_keys_str_mv | AT evgenyvvoronov electrophysicalmicrowaveinstallationforheattreatmentofanimalslaughterwaste |