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Drying Technology
An International Journal
Volume 34, 2016 - Issue 12
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Original Articles

Study of the electron densities of some food products dried using the new method

Emine NuroğluCentral Research Laboratory, Atatürk University, Erzurum, Turkey
,
Ertuğrul O. BursalıoğluDepartment of Bioengineering, Faculty of Engineering, Sinop University, Sinop, Turkey
,
Yaşar KarabulDepartment of Physics, Faculty of Arts and Sciences, Yıldız Technical University, Istanbul, Turkey
,
Sezgin BakırdereDepartment of Chemistry, Faculty of Arts and Sciences, Yıldız Technical University, Istanbul, Turkey
&
Orhan İçelliDepartment of Physics, Faculty of Arts and Sciences, Yıldız Technical University, Istanbul, TurkeyCorrespondence[email protected]
Pages 1445-1454 | Published online: 25 Feb 2016

References

  • Al Faris, N.A.; Ahmad, D. Distribution of trace elements like calcium, copper, iron and zinc in serum samples of colon cancer—A case control study. Journal of King Saud University—Science 2011, 23, 337–340.
  • Mertz, W. The essential trace elements. Science 1981, 213, 1332–1338.
  • Fukuda, H.; Masaaki, E.; Hiroyuki, Y.; Manaka, A.; Shinichiro, O.; Masamichi, O.; Masaharu, Y.; Nobuyuki, S.; Hiromitsu, S. Trace elements and cancer. Japan Medical Association Journal 2004, 47, 391–395.
  • Fuster, V.; Badimon, L.; Badimon, J.J.; Chesebro, J.H. The pathogenesis of coronary artery disease and the acute coronary syndromes. The New England Journal of Medicine 1992, 326, 310–318.
  • Shokrzadeh, M.; Ghaemian, A.; Salehifar, E.; Aliakbari, S.; Saravi, S.; Ebrahimi, P. Serum zinc and copper levels in ischemic cardiomyopathy. Biological Trace Element Research 2009, 127, 116–123.
  • Schwartz, M.K. Role of trace elements in cancer. Cancer Research 1975, 35, 3481–3487.
  • Desai, V.; Kaler, S.G. Role of copper in human neurological disorders. The American Journal of Clinical Nutrition 2008, 88, 855S–858S.
  • Waggoner, D.J.; Bartnikas, T.B.; Gitlin, J.D. The role of copper in neurodegenerative disease. Neurobiology of Disease 1999, 6, 221–230.
  • Magalhães, T.; von Bohlen, A.; Carvalho, M.L.; Becker, M. Trace elements in human cancerous and healthy tissues from the same individual: A comparative study by TXRF and EDXRF. Spectrochimica Acta Part B: Atomic Spectroscopy 2006, 61, 1185–1193.
  • De la Fuente-Blanco, S.; Riera-Franco de Sarabia, E.; Acosta-Aparicio, V.M.; Blanco-Blanco, A.; Gallego-Juárez, J.A. Food drying process by power ultrasound. Ultrasonics 2006, 44, 523–527.
  • Drouzas, A.E.; Schubert, H. Microwave application in vacuum drying of fruits. Journal of Food Engineering 1996, 28, 203–209.
  • Kostaropoulos, A.E.; Saravacos, G.D. Microwave pre-treatment for sun-dried raisins. Journal of Food Science 1995, 60, 344–347.
  • Kaensup, W.; Chutima, S.; Wongwises, S. Experimental study on drying of chilli in a combined microwave-vacuum-rotary drum dryer. Drying Technology 2002, 20, 2067–2079.
  • Arslan, D.; Musa, Ö.M. Study the effect of sun, oven and microwave drying on quality of onion slices. LWT—Food Science and Technology 2010, 43, 1121–1127.
  • Kohno, M.; Yamazaki, M.; Kimura, I.; Wada, M. Effect of static magnetic fields on bacteria: Streptococcus mutans, Staphylococcus aureus, and Escherichia coli. Pathophysiology 2000, 7, 143–148.
  • Memmedov, A.; Abbasov, T.; Şeker, M. Theoretical modeling and experimental analysis of drying process in electromagnetic field. World Journal of Engineering and Technology 2014, 2, 41–53.
  • Kueppers, S.; Haider, M. Process analytical chemistry—Future trends in industry. Analytical and Bioanalytical Chemistry 2003, 376, 313–315.
  • Budwig, J. Wellness Cancer Guide; Budwig Center: Malaga, 2012.
  • Bruice, P.Y. Organic Chemistry; Prentice Hall: Santa Barbara, 2014.
  • Antoniassi, M.; Conceição, A.L.C.; Poletti, M.E. Study of electron densities of normal and neoplastic human breast tissues by Compton scattering using synchrotron radiation. Applied Radiation and Isotopes 2012, 70, 1351–1354.
  • Shrimpton, P.C. Electron density values of various human tissues: In vitro Compton scatter measurements and calculated ranges. Physics in Medicine and Biology 1981, 26, 907–911.
  • Bankole, S.A.; Ogunsanwo, B.M.; Osho, A.; Adewuyi, G.O. Fungal contamination and aflatoxin B1 of ‘egusi’ melon seeds in Nigeria. Food Control 2006, 17, 814–818.
  • Rusen, M.; Turan, A. Organic Nut Cultivation. Ministry of Agriculture and Rural Affairs, General Directorate of Agricultural Research; Hazelnut Research Institute: Ankara, Turkey, 2003.
  • Isaeva, J. Experimental and theoretical investigation of dried apricots. M. Sc. Thesis. Yıldız Technical University, Turkey, 2007.
  • Ertekin, C.; Yaldız, O.; Mühlbauer, W. Determination of drying characteristics and modeling drying behavior of figs. In Proceedings of Agricultural Mechanization 20th National Congress, Şanlıurfa, Turkey, 2011; 405–411.
  • Inan, M.S. The effects of potassium bicarbonate application by spraying method on drying characteristics of Sultani grape variety. M. Sc. Thesis. Gaziosmanpaşa University, Turkey, 2012.
  • Iqbal, S.; Paterson, R.R.; Bhatti, I.A.; Asi, M.R.; Sheikh, M.A.; Bhatti, H.N. Aflatoxin B1 in chilies from the Punjab region, Pakistan. Mycotoxin Research 2010, 26, 205–209.
  • Delele, M.A.; Weigler, F.; Mellmann, J. Advances in the application of a rotary dryer for drying of agricultural products: A review. Drying Technology 2015, 33(5), 541–558.
  • Riadh, M.H.; Ahmad, S.A.B.; Marhaban, M.H.; Soh, A.C. Infrared heating in food drying: An overview. Drying Technology 2015, 33(3), 322–335.
  • Duan, X.; Zhang, M.; Mujumdar, A.S.; Wang, R. Trends in microwave-assisted freeze drying of foods. Drying Technology 2010, 28(4), 444–453.
  • Moses, J.A.; Norton, T.; Alagusundaram, K.; Tiwari, B.K. Novel drying techniques for the food industry. Food Engineering Reviews 2014, 6(3), 43–55.
  • Rattanadecho, P.; Makul, N. Microwave-assisted drying: A review of the state-of-the-art. Drying Technology 2016, 34(1), 541–558.
  • Içelli, O.; Erzeneoğlu, S.; Boncukçuoğlu, R. Determination of molecular, atomic, electronic cross-sections and effective atomic number of some boron compounds and TSW. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 2008, 266, 3226–3230.
  • Duvauchelle, P.; Peix, G.; Babot, D. Effective atomic number in the Rayleigh to Compton scattering ratio. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 1999, 155, 221–228.
  • Duvauchelle, P.; Peix, G.; Babot, D. Rayleigh to Compton ratio computed tomography using synchrotron radiation. NDT & E International 2000, 33, 23–31.
  • Donativi, M.; Quarta, S.; Cesareo, R.; Castellano, A. Rayleigh to Compton ratio with monochromatic radiation from an X-ray tube (preliminary results). Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 2007, 264, 189–193.
  • Gerward, L.; Guilbert, N.; Bjorn Jensen, K.; Levring, H.X-ray absorption in matter. Reengineering XCOM. Radiation Physics and Chemistry 2001, 60, 23–24.
  • Gerward, L.; Guilbert, N.; Jensen, K.B.; Levring, H. WinXCom—A program for calculating X-ray attenuation coefficients. Radiation Physics and Chemistry 2004, 71, 653–654.
  • Berger, M.J.; Hubbell, J.H. XCOM: Photon cross sections on a personal computer. NIST Standard Reference Database 8 (XGAM) 87–3597, 1987.
  • Manohara, S.R.; Hanagodimath, S.M.; Thind, K.S.; Gerward, L. On the effective atomic number and electron density: A comprehensive set of formulas for all types of materials and energies above 1 keV. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 2008, 266, 3906–3912.
  • Yalçın, Z.; Içelli, O.; Okutan, M.; Boncukçuoglu, R.; Artun, O.; Orak, S. A different perspective to the effective atomic number (Zeff) for some boron compounds and trommel sieve waste (TSW) with a new computer program ZXCOM. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 2012, 686, 43–47.
  • Schneider, U.; Pedroni, E.; Lomax, A. The calibration of CT Hounsfield units for radiotherapy treatment planning. Physics in Medicine and Biology 1996, 41, 111–124.
  • Manjunatha, H.C.; Rudraswamy, B. Photon interaction parameters of dosimetric interest in bone. Health Physics 2012, 103, 322–329.
  • Manjunatha, H.C.; Rudraswamy, B. Study of effective atomic number and electron density for tissues from human organs in the energy range of 1 keV-100 GeV. Health Physics 2013, 104, 158–162.

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