Determination of animal, agricultural, urban and treatment sludge waste potential and calculation of total combustion energy values of Uşak, Turkey

Year 2021, Volume: 5 Issue: 2, 60 - 70, 22.12.2021

Kazım Kumaş , Ragıp Yıldırım , Ali Özhan Akyüz

Abstract

In order to ensure a sustainable quality of life, a sustainable energy system needs to be created. Energy sources of fossil origin are not infinite. Therefore, the search for alternative sources for these resources has intensified in recent years. Animal, agricultural, urban organic and treatment sludge from these sources are organic waste or residues. Energy is obtained by burning these wastes. In this study, animal, agricultural, urban organic and treatment sludge wastes and combustion energy values of different years were calculated for Uşak, Turkey. The total annual energy values were determined as 2342215 GJ of animal origin, 6302240 GJ of agricultural waste, 1294897 GJ of urban organic waste and 291 GJ of treatment sludge waste.

Keywords

Manure, Agricultural Waste, Urban Waste, Sludge Waste, Biomass, Combustion

References

• [1]. Kumaş, K., Akyüz, A.Ö., Temiz, D., Güngör, A. (2019). Biomass to Energy: The Potential of Biogas in Turkey and World. Mesleki Bilimler Dergisi (MBD), 8 (2), 70-77.
• [2]. Horuz A., Korkmaz, A., Akınoğlu, G. (2015). Biofuel Plants and Technology, Toprak Bilimi ve Bitki Besleme Dergisi 3(2), 69-81.
• [3].Ertürk,O.,Erdinç Ertürk,A.(2018). The Effect of Renewable Energy Sources on Power Generation and Current Account Deficit in Turkey, 4 th SCF International Conference on “Economic and Social Nevsehir Impacts of Globalization” and “Future of Turkey-EU Relations, 26th -28th April, Nevşehir, 103-113.
• [4]. Karayılmazlar,S., Saraçoğlu, N., Çabuk, Y., Kurt, R. (2011). Utilizations of Biomass as An Energy Source in Türkey, Bartın Orman Fakültesi Dergisi, 13, 19, 63-75.
• [5]. Anonim, 2020a TSKB Aylık Enerji Bülteni Mayıs 2020 http://www.tskb.com.tr/i/assets/document/pdf/enerji-bulteni-mayis-2020.pdf
• [6]. Anonim,2020b. https://icci.com.tr/2020de-18-onlisansin-12-adeti-biyokutle-santral-projelerine-verildi/
• [7]. Callejón-Ferre AJ, Velázquez-Martí B, López-Martínez JA, Manzano-Agugliaro F (2011) Greenhouse crop residues: Energy potential and models for the prediction of their higher heating value. Renewable and Sustainable Energy Reviews 15: 948–955.
• [8]. Bilgin S, Ertekin C, Kürklü A (2012) Türkiye’deki sera bitkisel biyokütle atık miktarının belirlenmesi. 27. Tarımsal Mekanizasyon Ulusal Kongresi Bildiri Kitabı, Samsun, s. 499-508.
• [9]. Külcü, R. 2016. Afyonkarahisar ilinin tarımsal biyokütle potansiyelinin incelenmesi. Akademia Mühendislik ve Fen Bilimleri Dergisi, 1(2): 1-9.
• [10]. Karaca, C. (2017). The mapping of greenhouse biomass residues potential and their usage for energy production potential in Antalya. Mediterranean Agricultural Sciences, 30(1), 21-25.
• [11]. Mutlu, N., Tolay, M., Karaca, C., Öztürk, H. H. (2019) Agricultural Biomass Potential of the Southeastern Anatolia Project (GAP) Region, Journal of Agricultural Machinery Science, 15 (3), 77-81.
• [12]. Karabaş, H. (2019). Investigation of Waste Amount and Energy Potential of Sakarya Province by Vegetative Biomass, Ulusal Çevre Bilimleri Araştırma Dergisi, 2(1), 35-43.
• [13]. Polat, M. (2020). Determination of Agricultural Residues Biomass Energy Potential of Transitional Zone Research Institute Responsibility Provinces, Eskişehir Technical University Journal of Science and Technology B- Theoretical Sciences, 8(1), 133-142.
• [14]. Diken, B., Kayışoğlu, B. (2020). Determination of Biomass Potential From Field Products Waste in Tekirdağ Province, Journal of Agricultural Machinery Science, 16(3),12-17.
• [15]. Gürel, B. (2020). Determination of Current Biomass Potential in Turkey and Calculation of Sectoral and Total Combustion Energy Values for Wastes Which are A Good Alternative for Energy Production by Combustion, Journal of Engineering Sciences and Design, 8(2), 407 – 416.
• [16]. Anonim 2021a. https://www.enerjigunlugu.net/usakta-atik-camurlar-elektrige-donusecek-30471h.htm (Erişim Tarihi:05.06.2021).
• [17]. Anonim 2021b. TÜİK, Veritabanları, Tarım. http://www.tuik.gov.tr/PreTabloArama.do. (Erişim Tarihi:05.06.2021).
• [18]. Öztürk, H., Başçetinçelik, A. (2006). Energy Exploitation of Agricultural Biomass Potential in Turkey. Energy Exploration and Exploitation, 24(9), 313-330.
• [19]. Yildiz, S., Yaman, C., Demir, G., Ozcan, H. K., Coban, A., Okten, H. E., Goren, S. (2013). Characterization of municipal solid waste in Istanbul, Turkey. Environmental Progress & Sustainable Energy, 32(3), 734-739.