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Yıl 2022, Cilt 17, Sayı 1, 34 - 43, 30.03.2022

Öz

Kaynakça

  • Reference 1 Akyüz, T., Ergun, O., & Akyüz, S. (1991). Çankırı-Çorum Havzası, Uludağ Yöresi Tersiyer Zeolitlerinin Sezyum ve Stransiyum İyonlarını Soğurması. V. Ulusal Kil Sempozyumu Bildiriler Kitabı, EskiĢehir, 227-231.
  • Reference 2 Berkhout, E., Glover, D., & Kuyvenhoven, A. (2015). On-farm impact of the System of Rice Intensification (SRI): Evidence and knowledge gaps. Agricultural Systems, 132, 157-166.
  • Reference 3 Bhardwaj, A., Shainberg, I., Goldstein, D., Warrington, D., & J. Levy, G. (2007). Water retention and hydraulic conductivity of cross‐linked polyacrylamides in sandy soils. Soil Science Society of America Journal, 71(2), 406-412.
  • Reference 4 Breck, D. (1974). Zeolite Molecular Sieves Wiley. New York, 634.
  • Reference 5 Bürküt, Y., Esenli, V., Çelenli, A. 1997. “Bigadiç Zeolitik Tüflerinin Bazı Katyonik İyon Değiştirme Yetenekleri”, Su ve Çevre Sempozyumu 97, TMMOB Jeoloji Mühendisleri Odası, Yayın No. 46, İstanbul, 199-204.
  • Reference 6 Cabangon, R., Castillo, E., Bao, L., Lu, G., Wang, G., Cui, Y., Chen, C. (2001). Impact of alternate wetting and drying irrigation on rice growth and resource-use efficiency. Barker R, Loeve R, Li YH, Tuong TP, editors, 55-80.
  • Reference 7 Cancela, G. D., Huertas, F., Taboada, E. R., Sánchez-Rasero, F., & Laguna, A. H. (1997). Adsorption of water vapor by homoionic montmorillonites. Heats of adsorption and desorption. Journal of colloid and interface science, 185(2), 343-354.
  • Reference 8 Çetinel, G. (1993). Zeolite in the World wide and Turkey”. General directorate of mineral research and explaration, Ankara, 37-55.
  • Reference 9 Chimeddorj, M. (2007). Farklı Bentonitlerin Nem Alıcı (desikant) Özelliklerin Belirlenmesi. Fen Bilimleri Enstitüsü,
  • Reference 10 Demir, E., & Yalçın, H. (2014). Adsorbentler: Sınıflandırma, Özellikler, Kullanım ve Öngörüler/Adsorbents: Classification, Properties, Use and Projections.
  • Reference 11 Demirel, H., Akasanı, B., Öztürk, H. 1989. “Zeolitin Çimento Üretiminde Kullanım Olanakları”, Türkiye Madencilik Bilimsel ve Teknik 11. Kongresi, Ankara, 321-332
  • Reference 12 Dong, N. M., Brandt, K. K., Sørensen, J., Hung, N. N., Van Hach, C., Tan, P. S., & Dalsgaard, T. (2012). Effects of alternating wetting and drying versus continuous flooding on fertilizer nitrogen fate in rice fields in the Mekong Delta, Vietnam. Soil Biology and Biochemistry, 47, 166-174.
  • Reference 13 Dontsova, K. M., Norton, L. D., Johnston, C. T., & Bigham, J. M. (2004). Influence of exchangeable cations on water adsorption by soil clays. Soil Science Society of America Journal, 68(4), 1218-1227.
  • Reference 14 Ekebafe, L., Ogbeifun, D., & Okieimen, F. (2011). Polymer applications in agriculture. Biokemistri, 23(2).
  • Reference 15 Esposito, F., Del Nobile, M. A., Mensitieri, G., & Nicolais, L. (1996). Water sorption in cellulose‐based hydrogels. Journal of applied polymer science, 60(13), 2403-2407.
  • Reference 16 Evans, M. R. (2004). Ground bovine bone as a perlite alternative in horticultural substrates. HortTechnology, 14(2), 171-175.
  • Reference 17 Fahmi, W., Al-Shamary, A., Al-deen Al-Khateeb, B., Telfah, E., Ghani, A., Al-Antary, T., & Kahlel, A. (2021). The Influence of Perlite And Irrigation Management on the Properties of Potatoes in Gypsiferous Soil. Fresenius Environmental Bulletin. Reference 18 Gandhidasan, P. (2004). A simplified model for air dehumidification with liquid desiccant. Solar energy, 76(4), 409-416.
  • Reference 19 Gandhidasan, P., Al-Farayedhi, A. A., & Al-Mubarak, A. A. (2001). Dehydration of natural gas using solid desiccants. Energy, 26(9), 855-868.
  • Reference 20 Gandhidasan, P., & Mohandes, M. A. (2008). Predictions of vapor pressures of aqueous desiccants for cooling applications by using artificial neural networks. Applied Thermal Engineering, 28(2-3), 126-135.
  • Reference 21 Gholamhoseini, M., Ghalavand, A., Khodaei-Joghan, A., Dolatabadian, A., Zakikhani, H., & Farmanbar, E. (2013). Zeolite-amended cattle manure effects on sunflower yield, seed quality, water use efficiency and nutrient leaching. Soil and tillage research, 126, 193-202.
  • Reference 22 Göktekin, A. (1990). Bigadiç Tülü Ovası Zeolitlerinin Teknolojik Özelliklerinin AraĢtırılması Projesi Kesin Raporu. İTÜ Yer Bilimleri ve Yeraltı Kaynakları Uygulama-AraĢtırma Merkezi, İstanbul.
  • Reference 23 Hanna, H. (2006). A stir and disinfect technique to recycle perlite for cost-effective greenhouse tomato production. Journal of vegetable science, 12(1), 51-63.
  • Reference 24 He, C., Osbaeck, B., & Makovicky, E. (1995). Pozzolanic reactions of six principal clay minerals: Activation, reactivity assessments and technological effects. Cement and Concrete Research, 25(8), 1691-1702. doi:https://doi.org/10.1016/0008-8846(95)00165-4
  • Reference 25 Hüttermann, A., Zommorodi, M., & Reise, K. (1999). Addition of hydrogels to soil for prolonging the survival of Pinus halepensis seedlings subjected to drought. Soil and tillage research, 50(3-4), 295-304.
  • Reference 26 İpekoğlu, B., Kurşun, İ., Bilge, Y., & Barut, A. (1997). Türkiye bentonit potansiyeline genel bir bakış. 2. Endüstriyel hammaddeler sempozyumu, 16-17.
  • Reference 27 Johnson, M., & Piper, C. (1997). Cross‐linked, water‐storing polymers as aids to drought tolerance of tomatoes in growing media. Journal of Agronomy and Crop Science, 178(1), 23-27.
  • Reference 28 Ju, M., Xu, Z., Wei-Ming, S., Guang-Xi, X., & Zhao-Liang, Z. (2011). Nitrogen balance and loss in a greenhouse vegetable system in southeastern China. Pedosphere, 21(4), 464-472.
  • Reference 29 Karimi, S., Reaney, I., Han, Y., Pokorny, J., & Sterianou, I. (2009). Crystal chemistry and domain structure of rare-earth doped BiFeO 3 ceramics. Journal of materials science, 44(19), 5102-5112.
  • Reference 30 Kazanskii, K., & Dubrovskii, S. (1992). Chemistry and physics of “agricultural” hydrogels. Polyelectrolytes hydrogels chromatographic materials, 97-133.
  • Reference 31 Kima, A. S., Chung, W. G., & Wang, Y.-M. (2014). Improving irrigated lowland rice water use efficiency under saturated soil culture for adoption in tropical climate conditions. Water, 6(9), 2830-2846.
  • Reference 32 Köktürk, U. (1995). Zeolit madenciliği ve çevre sağlığına etkileri. Endüstriyel hammaddeler sempozyumu, 21-22.
  • Reference 33 Krishnan, K. A., & Anirudhan, T. (2003). Removal of cadmium (II) from aqueous solutions by steam-activated sulphurised carbon prepared from sugar-cane bagasse pith: Kinetics and equilibrium studies. Water Sa, 29(2), 147-156.
  • Reference 34 Kurama, H., Kaya, M. 1995. “Doğal Klinoptilolitin İyon Değişim Özellikleri, Pb++, Cu++, Cd++, Hg++/Na++ Dengesi”, Endüstriyel Hammaddeler Sempozyumu, İzmir, 313-321.
  • Reference 35 Manjaiah, K. M., Mukhopadhyay, R., Paul, R., Datta, S. C., Kumararaja, P., & Sarkar, B. (2019). Chapter 13 - Clay minerals and zeolites for environmentally sustainable agriculture. In M. Mercurio, B. Sarkar, & A. Langella (Eds.), Modified Clay and Zeolite Nanocomposite Materials (pp. 309-329): Elsevier.
  • Reference 36 Mumpton, F. A. (1999). La roca magica: Uses of natural zeolites in agriculture and industry. Proceedings of the National Academy of Sciences, 96(7), 3463-3470.
  • Reference 37 Nalley, L., Linquist, B., Kovacs, K., & Anders, M. (2015). The economic viability of alternative wetting and drying irrigation in Arkansas rice production. Agronomy Journal, 107(2), 579-587.
  • Reference 38 Nie, L., Peng, S., Chen, M., Shah, F., Huang, J., Cui, K., & Xiang, J. (2012). Aerobic rice for water-saving agriculture. A review. Agronomy for Sustainable Development, 32(2), 411-418.
  • Reference 39 Özaydın, S., 2008. Gizli Kalmış Zenginlik: Zeolit. http://www.madenhaber.net/haber.
  • Reference 40 Ozbahce, A., Tari, A. F., Gönülal, E., Simsekli, N., & Padem, H. (2015). The effect of zeolite applications on yield components and nutrient uptake of common bean under water stress. Archives of Agronomy and Soil Science, 61(5), 615-626.
  • Reference 41 Özgüner, A. M. (2004). Doğu ve Güneydoğu Anadolu Doğal Kaynaklarının Bölge Kalkınmasında Kullanılması. MTA Dergisi.
  • Reference 42 Pill, W. G., & Jacono, C. C. (1984). Effects of hydrogel incorporation in peat‐lite on tomato growth and water relations. Communications in soil science and plant analysis, 15(7), 799-810.
  • Reference 43 Qin, J., Wang, X., Hu, F., & Li, H. (2010). Growth and physiological performance responses to drought stress under non-flooded rice cultivation with straw mulching. Plant, Soil and Environment, 56(2), 51-59.
  • Reference 44 Rafatullah, M., Sulaiman, O., Hashim, R., & Ahmad, A. (2010). Adsorption of methylene blue on low-cost adsorbents: a review. J Hazard Mater, 177(1-3), 70-80. doi:10.1016/j.jhazmat.2009.12.047
  • Reference 45 Rahle, U. (2006). Desiccant kurutma ile nem kontrolü. Tesisat Mühendisliği Dergisi, 95, 37-42.
  • Reference 46 Sabah, Y., Sabah, E., & Berktay, A. (2011). Doğal Zeolitlerin (Klinoptilolit) Su Yumuşatiminda Kullanimi. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 5(3), 1155-1161.
  • Reference 47 Sarkar, S., Datta, S., & Biswas, D. (2015). Effect of fertilizer loaded nanoclay/superabsorbent polymer composites on nitrogen and phosphorus release in soil. Proceedings of the National Academy of Sciences, India Section B: Biological Sciences, 85(2), 415-421.
  • Reference 48 Sherman, J. D., Breck, D. W., & engineers, A. i. o. c. (1978). Adsorption and ion exchange separations: American Institute of Chemical Engineers.
  • Reference 49 Suner, F. (1991). Soda ve Zeolit Minerallerinin OluĢumu. İTÜ Dergisi, 49(1), 1-5.
  • Reference 50 Ülkü, S. (1984). Application of natural zeolites in water treatment. Çevre Dergisi.
  • Reference 51 Viero, P., Chiswell, K., & Theron, J. (2002). The effect of a soil-amended hydrogel on the establishment of a Eucalyptus grandis clone on a sandy clay loam soil in Zululand during winter. Southern African Forestry Journal, 2002(193), 65-76.
  • Reference 52 Xiubin, H., & Zhanbin, H. (2001). Zeolite application for enhancing water infiltration and retention in loess soil. Resources, conservation and recycling, 34(1), 45-52.
  • Reference 53 Yakupoğlu, T., Gülümser, E., ÇOPUR, M. D., & Başaran, U. (2019). Tek yıllık yem bitkisi yetiştiriciliği altındaki su tutucu uygulanmış topraktan meydana gelen sediment ve yüzey akış. Toprak Bilimi ve Bitki Besleme Dergisi, 7(2), 99-109.
  • Reference 54 Yapparov, F. S., Shilovskij, L., Tsitsishvili, G., & Andronikashvili, T. (1988). Growing tomatoes and cucumbers on substrates containing natural zeolites.
  • Reference 55 Yörükoğulları, E., Orhun, Ö., Ġnel, O., Kayıkçı, N. 1989. “Doğal Zeolit ve Bazı Yöresel Killerin Islanma Isıları ve Katyon Değişim Kapasitelerinin Tayini”, IV. Ulusal Kil Sempozyumu, Cumhuriyet Üniversitesi, Bildiriler, Sivas, 177-181
  • Reference 56 Yücel, H., & Çulfaz, A. (1984). Doğal ve yapay zeolitlerin endüstriyel kullanım alanları. ODTÜ Uygulamalı Araştırmalar Dergisi Eki, 3(10), 1-20.
  • Reference 57 Zheng, J., Chen, T., Xia, G., Chen, W., Liu, G., & Chi, D. (2018). Effects of zeolite application on grain yield, water use and nitrogen uptake of rice under alternate wetting and drying irrigation. International Journal of Agricultural and Biological Engineering, 11, 157-164. doi:10.25165/j.ijabe.20181101.3064.

Techno-Economic Analyses of the Moisture Adsorbed Materials

Yıl 2022, Cilt 17, Sayı 1, 34 - 43, 30.03.2022

Öz

The use of adsorbents, which are naturally formed in nature or created in a laboratory environment, in agriculture, industry, and daily life is increasing day by day. It is possible to classify adsorbents according to different criteria, however in this study, they are considered natural and synthetic adsorbents. Considering the laborious and costly preparation of synthetic adsorbents in the laboratory environment, and the abundance, cheap costs, and accessibility of the natural adsorbents in Turkey, it is necessary for our country to have an important place in the world markets, by establishing eco-friend, clean, and high-tech production facilities and orienting towards natural adsorbents.

Kaynakça

  • Reference 1 Akyüz, T., Ergun, O., & Akyüz, S. (1991). Çankırı-Çorum Havzası, Uludağ Yöresi Tersiyer Zeolitlerinin Sezyum ve Stransiyum İyonlarını Soğurması. V. Ulusal Kil Sempozyumu Bildiriler Kitabı, EskiĢehir, 227-231.
  • Reference 2 Berkhout, E., Glover, D., & Kuyvenhoven, A. (2015). On-farm impact of the System of Rice Intensification (SRI): Evidence and knowledge gaps. Agricultural Systems, 132, 157-166.
  • Reference 3 Bhardwaj, A., Shainberg, I., Goldstein, D., Warrington, D., & J. Levy, G. (2007). Water retention and hydraulic conductivity of cross‐linked polyacrylamides in sandy soils. Soil Science Society of America Journal, 71(2), 406-412.
  • Reference 4 Breck, D. (1974). Zeolite Molecular Sieves Wiley. New York, 634.
  • Reference 5 Bürküt, Y., Esenli, V., Çelenli, A. 1997. “Bigadiç Zeolitik Tüflerinin Bazı Katyonik İyon Değiştirme Yetenekleri”, Su ve Çevre Sempozyumu 97, TMMOB Jeoloji Mühendisleri Odası, Yayın No. 46, İstanbul, 199-204.
  • Reference 6 Cabangon, R., Castillo, E., Bao, L., Lu, G., Wang, G., Cui, Y., Chen, C. (2001). Impact of alternate wetting and drying irrigation on rice growth and resource-use efficiency. Barker R, Loeve R, Li YH, Tuong TP, editors, 55-80.
  • Reference 7 Cancela, G. D., Huertas, F., Taboada, E. R., Sánchez-Rasero, F., & Laguna, A. H. (1997). Adsorption of water vapor by homoionic montmorillonites. Heats of adsorption and desorption. Journal of colloid and interface science, 185(2), 343-354.
  • Reference 8 Çetinel, G. (1993). Zeolite in the World wide and Turkey”. General directorate of mineral research and explaration, Ankara, 37-55.
  • Reference 9 Chimeddorj, M. (2007). Farklı Bentonitlerin Nem Alıcı (desikant) Özelliklerin Belirlenmesi. Fen Bilimleri Enstitüsü,
  • Reference 10 Demir, E., & Yalçın, H. (2014). Adsorbentler: Sınıflandırma, Özellikler, Kullanım ve Öngörüler/Adsorbents: Classification, Properties, Use and Projections.
  • Reference 11 Demirel, H., Akasanı, B., Öztürk, H. 1989. “Zeolitin Çimento Üretiminde Kullanım Olanakları”, Türkiye Madencilik Bilimsel ve Teknik 11. Kongresi, Ankara, 321-332
  • Reference 12 Dong, N. M., Brandt, K. K., Sørensen, J., Hung, N. N., Van Hach, C., Tan, P. S., & Dalsgaard, T. (2012). Effects of alternating wetting and drying versus continuous flooding on fertilizer nitrogen fate in rice fields in the Mekong Delta, Vietnam. Soil Biology and Biochemistry, 47, 166-174.
  • Reference 13 Dontsova, K. M., Norton, L. D., Johnston, C. T., & Bigham, J. M. (2004). Influence of exchangeable cations on water adsorption by soil clays. Soil Science Society of America Journal, 68(4), 1218-1227.
  • Reference 14 Ekebafe, L., Ogbeifun, D., & Okieimen, F. (2011). Polymer applications in agriculture. Biokemistri, 23(2).
  • Reference 15 Esposito, F., Del Nobile, M. A., Mensitieri, G., & Nicolais, L. (1996). Water sorption in cellulose‐based hydrogels. Journal of applied polymer science, 60(13), 2403-2407.
  • Reference 16 Evans, M. R. (2004). Ground bovine bone as a perlite alternative in horticultural substrates. HortTechnology, 14(2), 171-175.
  • Reference 17 Fahmi, W., Al-Shamary, A., Al-deen Al-Khateeb, B., Telfah, E., Ghani, A., Al-Antary, T., & Kahlel, A. (2021). The Influence of Perlite And Irrigation Management on the Properties of Potatoes in Gypsiferous Soil. Fresenius Environmental Bulletin. Reference 18 Gandhidasan, P. (2004). A simplified model for air dehumidification with liquid desiccant. Solar energy, 76(4), 409-416.
  • Reference 19 Gandhidasan, P., Al-Farayedhi, A. A., & Al-Mubarak, A. A. (2001). Dehydration of natural gas using solid desiccants. Energy, 26(9), 855-868.
  • Reference 20 Gandhidasan, P., & Mohandes, M. A. (2008). Predictions of vapor pressures of aqueous desiccants for cooling applications by using artificial neural networks. Applied Thermal Engineering, 28(2-3), 126-135.
  • Reference 21 Gholamhoseini, M., Ghalavand, A., Khodaei-Joghan, A., Dolatabadian, A., Zakikhani, H., & Farmanbar, E. (2013). Zeolite-amended cattle manure effects on sunflower yield, seed quality, water use efficiency and nutrient leaching. Soil and tillage research, 126, 193-202.
  • Reference 22 Göktekin, A. (1990). Bigadiç Tülü Ovası Zeolitlerinin Teknolojik Özelliklerinin AraĢtırılması Projesi Kesin Raporu. İTÜ Yer Bilimleri ve Yeraltı Kaynakları Uygulama-AraĢtırma Merkezi, İstanbul.
  • Reference 23 Hanna, H. (2006). A stir and disinfect technique to recycle perlite for cost-effective greenhouse tomato production. Journal of vegetable science, 12(1), 51-63.
  • Reference 24 He, C., Osbaeck, B., & Makovicky, E. (1995). Pozzolanic reactions of six principal clay minerals: Activation, reactivity assessments and technological effects. Cement and Concrete Research, 25(8), 1691-1702. doi:https://doi.org/10.1016/0008-8846(95)00165-4
  • Reference 25 Hüttermann, A., Zommorodi, M., & Reise, K. (1999). Addition of hydrogels to soil for prolonging the survival of Pinus halepensis seedlings subjected to drought. Soil and tillage research, 50(3-4), 295-304.
  • Reference 26 İpekoğlu, B., Kurşun, İ., Bilge, Y., & Barut, A. (1997). Türkiye bentonit potansiyeline genel bir bakış. 2. Endüstriyel hammaddeler sempozyumu, 16-17.
  • Reference 27 Johnson, M., & Piper, C. (1997). Cross‐linked, water‐storing polymers as aids to drought tolerance of tomatoes in growing media. Journal of Agronomy and Crop Science, 178(1), 23-27.
  • Reference 28 Ju, M., Xu, Z., Wei-Ming, S., Guang-Xi, X., & Zhao-Liang, Z. (2011). Nitrogen balance and loss in a greenhouse vegetable system in southeastern China. Pedosphere, 21(4), 464-472.
  • Reference 29 Karimi, S., Reaney, I., Han, Y., Pokorny, J., & Sterianou, I. (2009). Crystal chemistry and domain structure of rare-earth doped BiFeO 3 ceramics. Journal of materials science, 44(19), 5102-5112.
  • Reference 30 Kazanskii, K., & Dubrovskii, S. (1992). Chemistry and physics of “agricultural” hydrogels. Polyelectrolytes hydrogels chromatographic materials, 97-133.
  • Reference 31 Kima, A. S., Chung, W. G., & Wang, Y.-M. (2014). Improving irrigated lowland rice water use efficiency under saturated soil culture for adoption in tropical climate conditions. Water, 6(9), 2830-2846.
  • Reference 32 Köktürk, U. (1995). Zeolit madenciliği ve çevre sağlığına etkileri. Endüstriyel hammaddeler sempozyumu, 21-22.
  • Reference 33 Krishnan, K. A., & Anirudhan, T. (2003). Removal of cadmium (II) from aqueous solutions by steam-activated sulphurised carbon prepared from sugar-cane bagasse pith: Kinetics and equilibrium studies. Water Sa, 29(2), 147-156.
  • Reference 34 Kurama, H., Kaya, M. 1995. “Doğal Klinoptilolitin İyon Değişim Özellikleri, Pb++, Cu++, Cd++, Hg++/Na++ Dengesi”, Endüstriyel Hammaddeler Sempozyumu, İzmir, 313-321.
  • Reference 35 Manjaiah, K. M., Mukhopadhyay, R., Paul, R., Datta, S. C., Kumararaja, P., & Sarkar, B. (2019). Chapter 13 - Clay minerals and zeolites for environmentally sustainable agriculture. In M. Mercurio, B. Sarkar, & A. Langella (Eds.), Modified Clay and Zeolite Nanocomposite Materials (pp. 309-329): Elsevier.
  • Reference 36 Mumpton, F. A. (1999). La roca magica: Uses of natural zeolites in agriculture and industry. Proceedings of the National Academy of Sciences, 96(7), 3463-3470.
  • Reference 37 Nalley, L., Linquist, B., Kovacs, K., & Anders, M. (2015). The economic viability of alternative wetting and drying irrigation in Arkansas rice production. Agronomy Journal, 107(2), 579-587.
  • Reference 38 Nie, L., Peng, S., Chen, M., Shah, F., Huang, J., Cui, K., & Xiang, J. (2012). Aerobic rice for water-saving agriculture. A review. Agronomy for Sustainable Development, 32(2), 411-418.
  • Reference 39 Özaydın, S., 2008. Gizli Kalmış Zenginlik: Zeolit. http://www.madenhaber.net/haber.
  • Reference 40 Ozbahce, A., Tari, A. F., Gönülal, E., Simsekli, N., & Padem, H. (2015). The effect of zeolite applications on yield components and nutrient uptake of common bean under water stress. Archives of Agronomy and Soil Science, 61(5), 615-626.
  • Reference 41 Özgüner, A. M. (2004). Doğu ve Güneydoğu Anadolu Doğal Kaynaklarının Bölge Kalkınmasında Kullanılması. MTA Dergisi.
  • Reference 42 Pill, W. G., & Jacono, C. C. (1984). Effects of hydrogel incorporation in peat‐lite on tomato growth and water relations. Communications in soil science and plant analysis, 15(7), 799-810.
  • Reference 43 Qin, J., Wang, X., Hu, F., & Li, H. (2010). Growth and physiological performance responses to drought stress under non-flooded rice cultivation with straw mulching. Plant, Soil and Environment, 56(2), 51-59.
  • Reference 44 Rafatullah, M., Sulaiman, O., Hashim, R., & Ahmad, A. (2010). Adsorption of methylene blue on low-cost adsorbents: a review. J Hazard Mater, 177(1-3), 70-80. doi:10.1016/j.jhazmat.2009.12.047
  • Reference 45 Rahle, U. (2006). Desiccant kurutma ile nem kontrolü. Tesisat Mühendisliği Dergisi, 95, 37-42.
  • Reference 46 Sabah, Y., Sabah, E., & Berktay, A. (2011). Doğal Zeolitlerin (Klinoptilolit) Su Yumuşatiminda Kullanimi. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 5(3), 1155-1161.
  • Reference 47 Sarkar, S., Datta, S., & Biswas, D. (2015). Effect of fertilizer loaded nanoclay/superabsorbent polymer composites on nitrogen and phosphorus release in soil. Proceedings of the National Academy of Sciences, India Section B: Biological Sciences, 85(2), 415-421.
  • Reference 48 Sherman, J. D., Breck, D. W., & engineers, A. i. o. c. (1978). Adsorption and ion exchange separations: American Institute of Chemical Engineers.
  • Reference 49 Suner, F. (1991). Soda ve Zeolit Minerallerinin OluĢumu. İTÜ Dergisi, 49(1), 1-5.
  • Reference 50 Ülkü, S. (1984). Application of natural zeolites in water treatment. Çevre Dergisi.
  • Reference 51 Viero, P., Chiswell, K., & Theron, J. (2002). The effect of a soil-amended hydrogel on the establishment of a Eucalyptus grandis clone on a sandy clay loam soil in Zululand during winter. Southern African Forestry Journal, 2002(193), 65-76.
  • Reference 52 Xiubin, H., & Zhanbin, H. (2001). Zeolite application for enhancing water infiltration and retention in loess soil. Resources, conservation and recycling, 34(1), 45-52.
  • Reference 53 Yakupoğlu, T., Gülümser, E., ÇOPUR, M. D., & Başaran, U. (2019). Tek yıllık yem bitkisi yetiştiriciliği altındaki su tutucu uygulanmış topraktan meydana gelen sediment ve yüzey akış. Toprak Bilimi ve Bitki Besleme Dergisi, 7(2), 99-109.
  • Reference 54 Yapparov, F. S., Shilovskij, L., Tsitsishvili, G., & Andronikashvili, T. (1988). Growing tomatoes and cucumbers on substrates containing natural zeolites.
  • Reference 55 Yörükoğulları, E., Orhun, Ö., Ġnel, O., Kayıkçı, N. 1989. “Doğal Zeolit ve Bazı Yöresel Killerin Islanma Isıları ve Katyon Değişim Kapasitelerinin Tayini”, IV. Ulusal Kil Sempozyumu, Cumhuriyet Üniversitesi, Bildiriler, Sivas, 177-181
  • Reference 56 Yücel, H., & Çulfaz, A. (1984). Doğal ve yapay zeolitlerin endüstriyel kullanım alanları. ODTÜ Uygulamalı Araştırmalar Dergisi Eki, 3(10), 1-20.
  • Reference 57 Zheng, J., Chen, T., Xia, G., Chen, W., Liu, G., & Chi, D. (2018). Effects of zeolite application on grain yield, water use and nitrogen uptake of rice under alternate wetting and drying irrigation. International Journal of Agricultural and Biological Engineering, 11, 157-164. doi:10.25165/j.ijabe.20181101.3064.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik, Jeoloji, Çevre Çalışmaları
Bölüm Makaleler
Yazarlar

Ahmet SAMANCI>
NECMETTİN ERBAKAN ÜNİVERSİTESİ
0000-0002-5412-1575
Türkiye


Gülin GENÇOĞLU KORKMAZ> (Sorumlu Yazar)
KONYA TEKNİK ÜNİVERSİTESİ MÜHENDİSLİK VE DOĞA BİLİMLERİ FAKÜLTESİ JEOLOJİ MÜHENDİSLİĞİ BÖLÜMÜ
0000-0003-0185-2806
Türkiye

Teşekkür The authors thank Rota Mining, which has the most important zeolite deposits in Turkey, for its contributions.
Yayımlanma Tarihi 30 Mart 2022
Yayınlandığı Sayı Yıl 2022, Cilt 17, Sayı 1

Kaynak Göster

Bibtex @derleme { jieas1048677, journal = {Journal of International Environmental Application and Science}, issn = {1307-0428}, eissn = {2636-7661}, address = {}, publisher = {Selçuk Üniversitesi}, year = {2022}, volume = {17}, number = {1}, pages = {34 - 43}, title = {Techno-Economic Analyses of the Moisture Adsorbed Materials}, key = {cite}, author = {Samancı, Ahmet and Gençoğlu Korkmaz, Gülin} }
APA Samancı, A. & Gençoğlu Korkmaz, G. (2022). Techno-Economic Analyses of the Moisture Adsorbed Materials . Journal of International Environmental Application and Science , 17 (1) , 34-43 . Retrieved from https://dergipark.org.tr/tr/pub/jieas/issue/69211/1048677
MLA Samancı, A. , Gençoğlu Korkmaz, G. "Techno-Economic Analyses of the Moisture Adsorbed Materials" . Journal of International Environmental Application and Science 17 (2022 ): 34-43 <https://dergipark.org.tr/tr/pub/jieas/issue/69211/1048677>
Chicago Samancı, A. , Gençoğlu Korkmaz, G. "Techno-Economic Analyses of the Moisture Adsorbed Materials". Journal of International Environmental Application and Science 17 (2022 ): 34-43
RIS TY - JOUR T1 - Techno-Economic Analyses of the Moisture Adsorbed Materials AU - AhmetSamancı, GülinGençoğlu Korkmaz Y1 - 2022 PY - 2022 N1 - DO - T2 - Journal of International Environmental Application and Science JF - Journal JO - JOR SP - 34 EP - 43 VL - 17 IS - 1 SN - 1307-0428-2636-7661 M3 - UR - Y2 - 2022 ER -
EndNote %0 Journal of International Environmental Application and Science Techno-Economic Analyses of the Moisture Adsorbed Materials %A Ahmet Samancı , Gülin Gençoğlu Korkmaz %T Techno-Economic Analyses of the Moisture Adsorbed Materials %D 2022 %J Journal of International Environmental Application and Science %P 1307-0428-2636-7661 %V 17 %N 1 %R %U
ISNAD Samancı, Ahmet , Gençoğlu Korkmaz, Gülin . "Techno-Economic Analyses of the Moisture Adsorbed Materials". Journal of International Environmental Application and Science 17 / 1 (Mart 2022): 34-43 .
AMA Samancı A. , Gençoğlu Korkmaz G. Techno-Economic Analyses of the Moisture Adsorbed Materials. JIEAS. 2022; 17(1): 34-43.
Vancouver Samancı A. , Gençoğlu Korkmaz G. Techno-Economic Analyses of the Moisture Adsorbed Materials. Journal of International Environmental Application and Science. 2022; 17(1): 34-43.
IEEE A. Samancı ve G. Gençoğlu Korkmaz , "Techno-Economic Analyses of the Moisture Adsorbed Materials", Journal of International Environmental Application and Science, c. 17, sayı. 1, ss. 34-43, Mar. 2022

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