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Development of High Temperature Short Time Vertebrate-Blood Pasteurization Equipment for Tsetse Fly Diets

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Abstract

Tsetse flies feed only on vertebrate blood, but the collection and processing of blood is expensive, it must be stored at -20{sup o}C requiring costly storage rooms and reliable electricity, and it must be irradiated to reduce bacterial contamination. This is tolerable for small colonies, but as colony size increases to service large- scale programmes, the supply and processing of blood becomes critical. Blood is normally collected from cattle at slaughter. This process is necessarily not aseptic, and large-scale collection is only possible where the animals are suspended for bleeding. One alternative to blood decontamination is using the High Temperature Short time Pasteurization (HTST) method. The food processing industry uses pasteurization to reduce bacterial load in a wide range of products. Our previous results indicated that for the control of the blood pasteurization process, to reach satisfactory bacteriological purity and at the same time to prevent the blood from coagulating, it is important to study temperature and time and also some other parameters that could predict blood coagulation. Crucial for blood coagulation is to study blood viscosity. Classical heat exchangers are not suitable for blood pasteurization. In such equipment the blood coagulation depends on temperature and time. Besides the relatively  More>>
Authors:
Moravek, I; Lach, J; [1]  Takac, P [2] 
  1. Department of Manufacturing Systems, Slovak Technical University Namestie Slobody 17 812 31 Bratislava (Slovakia)
  2. Institute of Zoology, SAV, Bratislava (Slovakia)
Publication Date:
Jul 15, 2012
Product Type:
Technical Report
Report Number:
IAEA-TECDOC-1683
Resource Relation:
Other Information: 6 figs., 1 tab.; Related Information: In: Quality Control for Expanded Tsetse Production, Sterilization and Field Application| 149 p.
Subject:
60 APPLIED LIFE SCIENCES; ACCURACY; BLOOD; BLOOD COAGULATION; BLOOD FLOW; CATTLE; CONTAMINATION; DECONTAMINATION; GLOSSINA; MICROWAVE HEATING; PASTEURIZATION
OSTI ID:
22030329
Research Organizations:
International Atomic Energy Agency, Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture, Insect Pest Control Section, Vienna (Austria)
Country of Origin:
IAEA
Language:
English
Other Identifying Numbers:
Other: ISBN 978-92-0-130110-9; ISSN 1011-4289; TRN: XA12R0303119141
Availability:
Available from INIS in electronic form. Also available on-line: http://www-pub.iaea.org/MTCD/publications/PDF/TE_1683_web.pdf; Enquiries should be addressed to IAEA, Marketing and Sales Unit, Publishing Section, E-mail: sales.publications@iaea.org; Web site: http://www.iaea.org/books
Submitting Site:
INIS
Size:
page(s) 33-40
Announcement Date:
Jan 31, 2013

Technical Report:

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Citation Formats

Moravek, I, Lach, J, and Takac, P. Development of High Temperature Short Time Vertebrate-Blood Pasteurization Equipment for Tsetse Fly Diets. IAEA: N. p., 2012. Web.
Moravek, I, Lach, J, & Takac, P. Development of High Temperature Short Time Vertebrate-Blood Pasteurization Equipment for Tsetse Fly Diets. IAEA.
Moravek, I, Lach, J, and Takac, P. 2012. "Development of High Temperature Short Time Vertebrate-Blood Pasteurization Equipment for Tsetse Fly Diets." IAEA.
@misc{etde_22030329,
title = {Development of High Temperature Short Time Vertebrate-Blood Pasteurization Equipment for Tsetse Fly Diets}
 author = {Moravek, I, Lach, J, and Takac, P}
 abstractNote = {Tsetse flies feed only on vertebrate blood, but the collection and processing of blood is expensive, it must be stored at -20{sup o}C requiring costly storage rooms and reliable electricity, and it must be irradiated to reduce bacterial contamination. This is tolerable for small colonies, but as colony size increases to service large- scale programmes, the supply and processing of blood becomes critical. Blood is normally collected from cattle at slaughter. This process is necessarily not aseptic, and large-scale collection is only possible where the animals are suspended for bleeding. One alternative to blood decontamination is using the High Temperature Short time Pasteurization (HTST) method. The food processing industry uses pasteurization to reduce bacterial load in a wide range of products. Our previous results indicated that for the control of the blood pasteurization process, to reach satisfactory bacteriological purity and at the same time to prevent the blood from coagulating, it is important to study temperature and time and also some other parameters that could predict blood coagulation. Crucial for blood coagulation is to study blood viscosity. Classical heat exchangers are not suitable for blood pasteurization. In such equipment the blood coagulation depends on temperature and time. Besides the relatively low temperatures, blood is coagulating with cumulative time until total shutdown of blood flow. After a series of experiments we found a solution using microwave systems. To verify the microwave heating concept, we built an experimental workstation. First we verified the accuracy of the applicator design from the aspect of output adaptation to the power source. Also we installed measuring equipment. This system complies with the requirements of quick heating with sufficiently high heat accumulation. By utilizing standard components for the base of the microwave generator, it is possible to markedly reduce the final price of the equipment. (author)}
 place = {IAEA}
 year = {2012}
 month = {Jul}
 }