BibTex RIS Kaynak Göster

Determination of Some Physical Properties of Wild Stone Pine (Pinus pinea L.) Kernel and Pits Grown in Turkey

Yıl 2015, Cilt: 29 Sayı: 1, 1 - 9, 15.09.2015

Öz

In this research some physical properties at different moisture content were determined in developing Pinus pinea L. fruits (stone pine) from Mut (İçel), Turkey. Physical properties of stone pine kernel and pits were determined as a function of moisture content in the range of 7.25-20.52% dry basis (d.b.) for pit and 8.82-28.84 % (d.b.) for kernel. The correlation coefficient between length and mass of stone pine pit and kernel were found significant at 7.25% moisture content (d.b.) for pit and 8.82% moisture content (d.b.) for kernel. As the moisture content increased, the sphericity, thousand grain mass, bulk density, true density, terminal velocity, and projected area increased for stone pine pit and kernel. The coefficient of static friction of stone pine pit and kernel increased against the surface of two structural materials, namely, a galvanised steel sheet (0.343-0.489) and plywood sheet (0.5-0.521) for stone pine pit, and a galvanized steel sheet (0.383-0.435) and plywood sheet (0.442-0.471) for stone pine kernel as the moisture content from 7.25 to 20.52% and 8.82 to 28.84% (d.b.), respectively. Both the rupture strength value of stone pine pit and the hardness of stone pine kernel decreased as the moisture content increased.

Kaynakça

  • Ayata M, Yalcın M, Kirisci V (1997). Evaluation of soil-tine interaction by using image processing system. National Symposium on mechanization in Agriculture, Tokat, Turkey, pp: 267-274 (in Turkish).
  • Aydın C, Ogut H (1991). Determination of some biological properties Amasya apple and hazelnuts. Selcuk University. The Journal of Agricultural Faculty 1 (1): 45-54 (In Turkish).
  • Baryeh EA (2001). Physical properties of bambara groundnuts. Journal of Food Engineering 47: 321-326.
  • Büyüksarı U, Ayrilmis N, Avci E, Koc E (2010). Evaluation of the physical, mechanical properties and formaldehyde emission of particleboard manufactured from waste stone pine (Pinus pinea L.) cones. Bioresource Technology 101: 255–259.
  • Cárcel LM, Bon J, Acuña L, Nevares I, del Álamo M, Crespo R (2012). Moisture dependence on mechanical properties of pine nuts from Pinus pinea L. Journal of Food Engineering 110: 294-297.
  • Chandrasekar V, Visvanathan R (1999). Physical and thermal properties of coffee. Journal of Agricultural Engineering Research 73: 227-234.
  • Deshpande SD, Bal S, Ojha TP (1993). Physical properties of soybean. Journal of Agricultural Engineering Research 56: 89-98.
  • Dutta SK, Nema VK, Bhardwaj RK (1988). Physical properties of gram. Journal of Agricultural Engineering Research 39: 259-268.
  • Gharibzahedi SMT, Etemad V, Mirarab-Razi J, Fos'hat M (2010). Study on some engineering attributes of pine nut (Pinus pinea) to the design of processing equipment. Research Agricultural Engineering. 56: 99-106.
  • Ghasemi Varnamkhasti M, Mobli H, Jafari A, Rafiee S, Heidari Soltanabadi M, Kheiralipour K (2007). Some engineering properties of Paddy (var. Sazandegi). Internatinal Journal of Agriculture & Biology 5: 763-766.
  • Gupta RK, Das SK (1997). Physical properties of sunflower seeds. Journal of Agricultural Engineering Research 66: 1-8.
  • Guner M, Vatandas M, Dursun E (1999). Determination of cracking characistics of some variety of apricot stones. Journal of Agricultural Sciences 5(1): 95-103 (in Turkish).
  • Hauhout-O'hara M, Criner BR, Brusewitz GH, Solie JB (2000). Selected physical characteristics and aerodynamic properties of cheat seed for separation from wheat. International Commission of Agricultural Engineering (CIGR, Commission Internationale du Genie Rural) E-Journal Volume 2.
  • Jain RK, Bal S (1997). Physical properties of pearl millet. Journal of Agricultural Engineering Research 66: 85-91.
  • Joshi DC, Das SK, Mukherjee RK (1993). Physical properties of pumpkin seeds. Journal of Agricultural Engineering Research 54: 219-229.
  • Mohsenin NN (1986). Physical properties of plant and animal material. Gordon and Breach Science Publishers, New York.
  • Ozcan MM, Yıldız MU, Calışır S, Haciseferogullari H, Unver A, Arslan D (2009). Studies on physico-chemical properties of Turkish wild stone pine (Pinus pinea L.) kernel and pits. World Applied Sciences Journal 6 (5): 680-691.
  • Ozgüven F, Vursavuş K (2005). Some physical, mechanical and aerodynamic properties of pine (Pinus pinea) nuts. Journal of Food Engineering 68: 191-196.
  • Singh KK, Goswami TK (1996). Physical properties of cumin seed. Journal of Agricultural Engineering Research 64: 93-98.
  • Suthar SH, Das SK (1996). Some physical properties of karingda seeds. Journal of Agricultural Engineering Research 65: 15-22.
  • Trooien TP, Heerman DF (1992). Measurement and simulation of potato leaf area using image processing I, II, III. Transaction of the ASEA 35 (5): 1709-1722.
  • Tsang-Mui-Chung M, Verma LR, Wright ME (1984). A device for friction measurement of grains. Transaction of the ASAE 27: 1938-1941.
Yıl 2015, Cilt: 29 Sayı: 1, 1 - 9, 15.09.2015

Öz

Kaynakça

  • Ayata M, Yalcın M, Kirisci V (1997). Evaluation of soil-tine interaction by using image processing system. National Symposium on mechanization in Agriculture, Tokat, Turkey, pp: 267-274 (in Turkish).
  • Aydın C, Ogut H (1991). Determination of some biological properties Amasya apple and hazelnuts. Selcuk University. The Journal of Agricultural Faculty 1 (1): 45-54 (In Turkish).
  • Baryeh EA (2001). Physical properties of bambara groundnuts. Journal of Food Engineering 47: 321-326.
  • Büyüksarı U, Ayrilmis N, Avci E, Koc E (2010). Evaluation of the physical, mechanical properties and formaldehyde emission of particleboard manufactured from waste stone pine (Pinus pinea L.) cones. Bioresource Technology 101: 255–259.
  • Cárcel LM, Bon J, Acuña L, Nevares I, del Álamo M, Crespo R (2012). Moisture dependence on mechanical properties of pine nuts from Pinus pinea L. Journal of Food Engineering 110: 294-297.
  • Chandrasekar V, Visvanathan R (1999). Physical and thermal properties of coffee. Journal of Agricultural Engineering Research 73: 227-234.
  • Deshpande SD, Bal S, Ojha TP (1993). Physical properties of soybean. Journal of Agricultural Engineering Research 56: 89-98.
  • Dutta SK, Nema VK, Bhardwaj RK (1988). Physical properties of gram. Journal of Agricultural Engineering Research 39: 259-268.
  • Gharibzahedi SMT, Etemad V, Mirarab-Razi J, Fos'hat M (2010). Study on some engineering attributes of pine nut (Pinus pinea) to the design of processing equipment. Research Agricultural Engineering. 56: 99-106.
  • Ghasemi Varnamkhasti M, Mobli H, Jafari A, Rafiee S, Heidari Soltanabadi M, Kheiralipour K (2007). Some engineering properties of Paddy (var. Sazandegi). Internatinal Journal of Agriculture & Biology 5: 763-766.
  • Gupta RK, Das SK (1997). Physical properties of sunflower seeds. Journal of Agricultural Engineering Research 66: 1-8.
  • Guner M, Vatandas M, Dursun E (1999). Determination of cracking characistics of some variety of apricot stones. Journal of Agricultural Sciences 5(1): 95-103 (in Turkish).
  • Hauhout-O'hara M, Criner BR, Brusewitz GH, Solie JB (2000). Selected physical characteristics and aerodynamic properties of cheat seed for separation from wheat. International Commission of Agricultural Engineering (CIGR, Commission Internationale du Genie Rural) E-Journal Volume 2.
  • Jain RK, Bal S (1997). Physical properties of pearl millet. Journal of Agricultural Engineering Research 66: 85-91.
  • Joshi DC, Das SK, Mukherjee RK (1993). Physical properties of pumpkin seeds. Journal of Agricultural Engineering Research 54: 219-229.
  • Mohsenin NN (1986). Physical properties of plant and animal material. Gordon and Breach Science Publishers, New York.
  • Ozcan MM, Yıldız MU, Calışır S, Haciseferogullari H, Unver A, Arslan D (2009). Studies on physico-chemical properties of Turkish wild stone pine (Pinus pinea L.) kernel and pits. World Applied Sciences Journal 6 (5): 680-691.
  • Ozgüven F, Vursavuş K (2005). Some physical, mechanical and aerodynamic properties of pine (Pinus pinea) nuts. Journal of Food Engineering 68: 191-196.
  • Singh KK, Goswami TK (1996). Physical properties of cumin seed. Journal of Agricultural Engineering Research 64: 93-98.
  • Suthar SH, Das SK (1996). Some physical properties of karingda seeds. Journal of Agricultural Engineering Research 65: 15-22.
  • Trooien TP, Heerman DF (1992). Measurement and simulation of potato leaf area using image processing I, II, III. Transaction of the ASEA 35 (5): 1709-1722.
  • Tsang-Mui-Chung M, Verma LR, Wright ME (1984). A device for friction measurement of grains. Transaction of the ASAE 27: 1938-1941.
Toplam 22 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Review Articles
Yazarlar

Mustafa Örnek

Mehmet Sonmete Bu kişi benim

Ali Seflek Bu kişi benim

Nurettin Kayahan Bu kişi benim

Haydar Hacıseferogulları Bu kişi benim

Yayımlanma Tarihi 15 Eylül 2015
Gönderilme Tarihi 10 Mart 2015
Yayımlandığı Sayı Yıl 2015 Cilt: 29 Sayı: 1

Kaynak Göster

EndNote Örnek M, Sonmete M, Seflek A, Kayahan N, Hacıseferogulları H (01 Eylül 2015) Determination of Some Physical Properties of Wild Stone Pine (Pinus pinea L.) Kernel and Pits Grown in Turkey. Selcuk Journal of Agriculture and Food Sciences 29 1 1–9.

Selcuk Journal of Agriculture and Food Sciences Creative Commons Atıf-GayriTicari 4.0 Uluslararası Lisansı (CC BY NC) ile lisanslanmıştır.