Starch Synthesis from Air Pollution Formation with a Converter System
Yıl 2020,
Cilt: 3 Sayı: 1, 11 - 19, 31.03.2020
Sezgin Ersoy
,
Sadullah Çalı
Öz
In this study, in addition to the conversion of carbon dioxide to glucose produced by trees, a mechanical device was designed to obtain starch from glucose and make it usable and to obtain starch in a usable way. The important point in the design is to do the conversion process of the trees with the help of a mechanical device and to clean the air more quickly than the trees and to prevent the air pollution to a certain extent. As the first stage of the work the design of the system and the possibility of its realization will be evaluated. In the following stages, the implementation of the work and the operability of the system will be determined.
Kaynakça
- [1] Özkan, Y. (2017, Aralık 20). BBC Türkçe. BBC: https://www.bbc.com/turkce/haberler-dunya-42425649 adresinden alındı
- [2] Atmaca, G. (2019, Mayıs 20). KBT Bilim Sitesi. KBT Bilim Sitesi: http://www.kuark.org/2012/08/dunyanin-en-verimli-yapay-fotosentez-sistemi-gelistirildi/ adresinden alındı
- [3] Kulaklı, G. (2018, Kasım 22). Web Tekno. WebTekno: https://www.webtekno.com/bilim-insanlari-fotosentez-yapan-yapay-yapraklar-uretti-h29850.html adresinden alındı
- [4] Logan, M. W., Ayad, S., Adamson, J. D., Dilbeck, T., Hanson, K., & Uribe-Romo, F. J. (2017). Systematic variation of the optical bandgap in titanium based isoreticular metal–organic frameworks for photocatalytic reduction of CO2 under blue light. Journal of Materials Chemistry A, 11854-11863
- [5] Hurriyet Popular Science. (2018, Ocak 13). Hurriyet Teknoloji. Hurriyet Popular Science: http://www.hurriyet.com.tr/teknoloji/yapay-fotosentez-ortami-olusturmak-mumkun-olabilir-mi-40708559 adresinden alındı.
- [6] Saraçoğlu, O. G. (2018, Mayıs 8). Bilgi Ustam. Bilgi Ustam: https://www.bilgiustam.com/yapay-fotosentez-enerji-uretimi/ adresinden alındı.
- [7] Okatan, A. (2019, Mart 20). TUBİTAK. TUBİTAK Bilim Genç: http://www.bilimgenc.tubitak.gov.tr/makale/dogada-fotosentez-yapabilen-yapay-yapraklar adresinden alındı
- [8] Bilimsel Dünya. (2018, Haziran 27). Bilimsel Dünya. Bilimsel Dünya: https://www.bilimseldunya.com/yapay-fotosentez-ortami-mumkun-mu/ adresinden alındı
- [9] Turesson , H., Andersson, M., Marttilla, S., Thulin, I., & Hofvander, P. (2014). Starch biosynthetic genes and enzymes are expressed and active in the absence of starch accumulation in sugar beet tap-root. BMC Plant Biol, 104.
- [10] InterPro. (2019). Phosphoglucose isomerase (PGI) . InterPro, Cambridgeshire, İngiltere.
- [11] Katsouyanni, K. (199). Short-term effects of ambient sulphur dioxide and particulate matter on mortality in 12 European cities: results from time series data from the APHEA project. Air Pollution and Health: a European Approach. BMJ, 1658-63.
- [12] Samet J.M., D. F. (2000). Fine particulate air pollution and mortality in 20 U.S. cities, 1987-1994. N Engl J Med., 1742-9.
- [13] Mc Michael AJ, A. H. (1998). Inappropriate use of daily mortality analyses to estimate longer-term mortality effects of air pollution. Int J Epidemiol. , 450-3.
- [14] PJ, F. (1986). Air quality in Ireland: the present position. Dublin
- [15] proteopedia.org. (2018,Ağustos/20). proteopedia.org/wiki/index.php/Phosphoglycerate_Mutase adresinden alındı
- [16] D.W., L. (1987). Photosynthesis: Metabolism, Control, and Physiology. Oxford: OAI.
- [17] M.F., H. (1986). Photosynthesis: Energy Transduction: A Practical Approach. Oxford: Oxford University Press .
- [18] Zeeman, S., Smith SM, & Smith AM. (2007). The diurnal metabolism of leaf starch. Biochem J., 13-28.
- [19] Toros H., Bağış S, Gemici Z. (2018). Modelling of Spatial Distribution of Air Pollution in Ankara. Ulusal Çevre Bilimleri Araştırma Dergisi, 1 (1), 20-53
- [20] Kunt F., Dursun Ş. (2018). Impacts of Some Meteorological Factors on Air Pollution of Konya City Centre. Ulusal Çevre Bilimleri Araştırma Dergisi, 1 (1), 54-61.
- [21] Kara G., İbiç A., Yağcıoğlu E. (2018). Greenhouse Gas Emissions from Cement Industry. Ulusal Çevre Bilimleri Araştırma Dergisi. 1 (2), 87-90
- [22] Ersoy S. (2014). Vortex with the Formation of Electricity Generation and System Modelling. Int. J. Environ. Sci. Dev. 5 (2), 152-154
- [23] Ersoy S., Taş M.E. (2019). Determining Unmanned Aerial Vehicle Design Parameters For Air Pollution Detection System. The Online Journal of Science and Technology. 10 (1), 6-18
- [24] Nazelle A., and others. (2013). Improving estimates of air pollution exposure through ubiquitous sensing Technologies. Environmental Pollution. 92-99
- [25] Leson G., Winer A.M. (1991). Biofiltration: An Innovative Air Pollution Control Technology For VOC Emission. Journal of the Air & Waste Management Association. 47 (8). 1045-1054.
- [26] Purchas D.B. (1971). Filtration in Process Plant Design and Development: Liquid–Solids Separation.
- [27] W. Strauss, (1975). Industrial Gas Cleaning, 2nd ed., Pergamon, Oxford.
- [28] US EPA. Cyclones. (2004). APTI Virtual Classroom. Lesson 2. http//search.epa.gov. US Environmental Protection Agency, Washington DC.
- [29] White, H.J., (1974). Proc. Symp. Control Fine-Particulate Emissions Ind. Sources. 58–76
- [30] US EPA. (1994). Control Techniques for Fugitive VOC Emissions from Chemical Process Facilities, EPA/625/R-93/005, US Environmental Protection Agency, Cincinnati.
Konvertör Bir Sistem ile Hava Kirliliği Oluşumundan Nişasta Sentezleme
Yıl 2020,
Cilt: 3 Sayı: 1, 11 - 19, 31.03.2020
Sezgin Ersoy
,
Sadullah Çalı
Öz
Bu çalışmada ağaçların yapmış olduğu karbondioksitten glikoza dönüştürme işlemine ek olarak glikozdan nişasta’ elde ederek doğaya salınımı gerçekleştirilen zararlı karbondioksiti hem kullanılabilir hale getirmek, hem de kullanılabilir bir şekilde nişasta eldesini sağlayacak bir mekanik cihaz tasarımı yapmaktır.
Tasarımda önemli olan nokta, ağaçların yaptığı dönüştürme işlemini mekanik bir cihaz yardımıyla yapıp ağaçlardan daha hızlı bir şekilde havayı temizlemek ve hava kirliliğinin belirli bir nebze de olsa önüne geçebilmektir. Çalışmanın ilk aşaması olarak sistemin tasarlanması ve gerçekleşme ihtimallerinin değerlenmesi yapılacaktır. Daha sonraki aşamalarda çalışmanın gerçeklemesi ve sistemin çalışabilirliği saplanılacaktır.
Kaynakça
- [1] Özkan, Y. (2017, Aralık 20). BBC Türkçe. BBC: https://www.bbc.com/turkce/haberler-dunya-42425649 adresinden alındı
- [2] Atmaca, G. (2019, Mayıs 20). KBT Bilim Sitesi. KBT Bilim Sitesi: http://www.kuark.org/2012/08/dunyanin-en-verimli-yapay-fotosentez-sistemi-gelistirildi/ adresinden alındı
- [3] Kulaklı, G. (2018, Kasım 22). Web Tekno. WebTekno: https://www.webtekno.com/bilim-insanlari-fotosentez-yapan-yapay-yapraklar-uretti-h29850.html adresinden alındı
- [4] Logan, M. W., Ayad, S., Adamson, J. D., Dilbeck, T., Hanson, K., & Uribe-Romo, F. J. (2017). Systematic variation of the optical bandgap in titanium based isoreticular metal–organic frameworks for photocatalytic reduction of CO2 under blue light. Journal of Materials Chemistry A, 11854-11863
- [5] Hurriyet Popular Science. (2018, Ocak 13). Hurriyet Teknoloji. Hurriyet Popular Science: http://www.hurriyet.com.tr/teknoloji/yapay-fotosentez-ortami-olusturmak-mumkun-olabilir-mi-40708559 adresinden alındı.
- [6] Saraçoğlu, O. G. (2018, Mayıs 8). Bilgi Ustam. Bilgi Ustam: https://www.bilgiustam.com/yapay-fotosentez-enerji-uretimi/ adresinden alındı.
- [7] Okatan, A. (2019, Mart 20). TUBİTAK. TUBİTAK Bilim Genç: http://www.bilimgenc.tubitak.gov.tr/makale/dogada-fotosentez-yapabilen-yapay-yapraklar adresinden alındı
- [8] Bilimsel Dünya. (2018, Haziran 27). Bilimsel Dünya. Bilimsel Dünya: https://www.bilimseldunya.com/yapay-fotosentez-ortami-mumkun-mu/ adresinden alındı
- [9] Turesson , H., Andersson, M., Marttilla, S., Thulin, I., & Hofvander, P. (2014). Starch biosynthetic genes and enzymes are expressed and active in the absence of starch accumulation in sugar beet tap-root. BMC Plant Biol, 104.
- [10] InterPro. (2019). Phosphoglucose isomerase (PGI) . InterPro, Cambridgeshire, İngiltere.
- [11] Katsouyanni, K. (199). Short-term effects of ambient sulphur dioxide and particulate matter on mortality in 12 European cities: results from time series data from the APHEA project. Air Pollution and Health: a European Approach. BMJ, 1658-63.
- [12] Samet J.M., D. F. (2000). Fine particulate air pollution and mortality in 20 U.S. cities, 1987-1994. N Engl J Med., 1742-9.
- [13] Mc Michael AJ, A. H. (1998). Inappropriate use of daily mortality analyses to estimate longer-term mortality effects of air pollution. Int J Epidemiol. , 450-3.
- [14] PJ, F. (1986). Air quality in Ireland: the present position. Dublin
- [15] proteopedia.org. (2018,Ağustos/20). proteopedia.org/wiki/index.php/Phosphoglycerate_Mutase adresinden alındı
- [16] D.W., L. (1987). Photosynthesis: Metabolism, Control, and Physiology. Oxford: OAI.
- [17] M.F., H. (1986). Photosynthesis: Energy Transduction: A Practical Approach. Oxford: Oxford University Press .
- [18] Zeeman, S., Smith SM, & Smith AM. (2007). The diurnal metabolism of leaf starch. Biochem J., 13-28.
- [19] Toros H., Bağış S, Gemici Z. (2018). Modelling of Spatial Distribution of Air Pollution in Ankara. Ulusal Çevre Bilimleri Araştırma Dergisi, 1 (1), 20-53
- [20] Kunt F., Dursun Ş. (2018). Impacts of Some Meteorological Factors on Air Pollution of Konya City Centre. Ulusal Çevre Bilimleri Araştırma Dergisi, 1 (1), 54-61.
- [21] Kara G., İbiç A., Yağcıoğlu E. (2018). Greenhouse Gas Emissions from Cement Industry. Ulusal Çevre Bilimleri Araştırma Dergisi. 1 (2), 87-90
- [22] Ersoy S. (2014). Vortex with the Formation of Electricity Generation and System Modelling. Int. J. Environ. Sci. Dev. 5 (2), 152-154
- [23] Ersoy S., Taş M.E. (2019). Determining Unmanned Aerial Vehicle Design Parameters For Air Pollution Detection System. The Online Journal of Science and Technology. 10 (1), 6-18
- [24] Nazelle A., and others. (2013). Improving estimates of air pollution exposure through ubiquitous sensing Technologies. Environmental Pollution. 92-99
- [25] Leson G., Winer A.M. (1991). Biofiltration: An Innovative Air Pollution Control Technology For VOC Emission. Journal of the Air & Waste Management Association. 47 (8). 1045-1054.
- [26] Purchas D.B. (1971). Filtration in Process Plant Design and Development: Liquid–Solids Separation.
- [27] W. Strauss, (1975). Industrial Gas Cleaning, 2nd ed., Pergamon, Oxford.
- [28] US EPA. Cyclones. (2004). APTI Virtual Classroom. Lesson 2. http//search.epa.gov. US Environmental Protection Agency, Washington DC.
- [29] White, H.J., (1974). Proc. Symp. Control Fine-Particulate Emissions Ind. Sources. 58–76
- [30] US EPA. (1994). Control Techniques for Fugitive VOC Emissions from Chemical Process Facilities, EPA/625/R-93/005, US Environmental Protection Agency, Cincinnati.