Cilt:06 Sayı:02 (2019)
http://hdl.handle.net/20.500.12575/77039
2024-03-28T19:47:53ZIntermediate Formation of Essential Amino Acids and Division of Amine (NH2) Group by UV Light as Sterilizer in Vegetables (ISO 15714:2019)
http://hdl.handle.net/20.500.12575/77091
Intermediate Formation of Essential Amino Acids and Division of Amine (NH2) Group by UV Light as Sterilizer in Vegetables (ISO 15714:2019)
Beluli, Valdrin
Sterilization of fruits and vegetables in the field of food technology can be seen as a good tool to guarantee a better product
on the market for consumers, but often radiation can have different effects on food products. Researchers have been studied
in this field to provide a higher quality to food products in the sterilization of vegetables (potato, tomato, cucumber)
eliminated from microorganisms. This method has a high rate of sterilization in the food industry. The main problem is
that the deep penetration of the rays from photochemical reactions in the amino group (-NH2) fission by the essential amino
acid. The essential amino acids that have been studied in potatoes, tomatoes and cucumber are: Arginine, Glutamine,
Threonine, Valine, Lysine, Isoleucine, Histidine, Leucine, Aspartic acid, Proline, Histidine, Alanine and Serine are still
great issue. The fission of the amine group from the essential amino acids uses a UV-C spectrum irradiation at 200 nm
wavelength to form an intermediate in the covalent chemical bonds. This energy is sufficient to break the C-NH2 bond
forming carboxylic acids in vegetable skins and this lowers the shelf life of food. According to our research we have
concluded that 200 nm radiation with an energy of 600 kJ/mol causes high potential of photochemical reactions. UV
penetration varies depending on the wavelength and type of vegetable. Penetration (Z) of UV rays on potatoes with
wavelength (λ) are: UV-C [λ (200-280) nm, Z (1.606 - 2.248) nm], UV-B [λ (280-320) nm and Z (2.208– 2.57) nm], UVA2 [λ (320-340) nm and Z (2.57-2.73) nm], UV-A1 [λ (340-400) nm and Z (2.73-3.21)]. Penetration (Z) of UV rays on
tomatoes with wavelength (λ) are: [ λ (280-320) nm and Z (3.45-4.84) nm], UV-B [λ (280-320) nm, Z (4.84 – 5.53) nm],
UV-A2 [λ (320-340) nm and Z (5.53-5.87) nm], UV-A1 [λ (340-400) nm and Z (5.87-6.91) nm]. Penetration (Z) of UV
rays on cucumbers with wavelength (λ): UV-C [λ (200-280) nm and Z (3.41-4.77) nm], UV-B [λ (280-320) nm and Z
(4.77-5.45)], UV-A2 [λ (320-340) nm and Z (5.45-5.79) nm], UV-A1 [λ (340-400) nm and Z (5.79-6.82) nm].
2019-12-01T00:00:00ZPhysical security measures for radioactive materials in albania
http://hdl.handle.net/20.500.12575/77090
Physical security measures for radioactive materials in albania
Prifti, Dritan; Tushe, Kozeta; Bylyku, Elida; Daci, Brunilda
The primary responsibility for ensuring security and radiation protection is to the physical/legal person which operates with
ionizing radiation sources. The Radiation Protection Commission has over all role for security in Albania based on the
radiation protection law “On Protection from Ionizing Radiation”. The Regulation on Physical Protection of Radioactive
Material in Albania has the objective(s) to establish the basic requirements for physical protection of radioactive sources,
and apply to all activities relating to the possession, use, storage and transportation of radioactive sources. Physical
protection of radioactive sources aims to protect persons, property, society, and the environment from malicious acts, such
as theft or unauthorized removal and sabotage involving radioactive sources. In this paper, as a practical example, whole
physical protection system of radioactive materials implemented in Albania is explained on the basis of the established
legal.
2019-12-01T00:00:00Z