ORALS

SESSION: AdvancedMaterialsFriAM-R2	5th Intl. Symp. on New and Advanced Materials and Technologies for Energy, Environment and Sustainable Development
Fri Oct, 25 2019 / Room: Leda (99/Mezz. F)
Session Chairs: Nikoloz Chikhradze; Ivanka Netinger Grubesa; Session Monitor: TBA

12:10: [AdvancedMaterialsFriAM03]
AGRICULTURAL BIOMASS ASH IN CIVIL ENGINEERING - FROM ENERGY TO SUSTAINABLE DEVELOPMENT
Ivana Barisic¹ ; Ivanka Netinger Grubesa² ; Tihomir Dokšanović³ ; Hrvoje Draganić³ ; Mirjana Malešev⁴ ; Slobodan Supic⁴ ; Miroslava Radeka⁴ ; Vlastimir Radonjanin⁴ ; ¹INTERREG IPA CBC Croatia-Serbia ECO Build HR-RS38, Osijek, Croatia; ²Faculty of Civil Engineering and Architecture Osijek, VAT HR04150850819, INTERREG IPA CBC Croatia-Serbia ECO Build HR-RS38, Osijek, Croatia; ³Faculty of Civil Engineering and Architecture Osijek, University in Osijek, Osijek, Croatia; ⁴Department of Civil Engineering and Geodesy, Faculty of Technical Sciences, University in Novi Sad, Novi Sad, Serbia and Montenegro;
Paper Id: 40 [Abstract]

Every year in the world, millions of tons of harvest residues are generated, such as, corn stalks and corn cob blanks, wheat, soy and rice straw, sunflowers, and rice husk. Those harvest residues can be used as a replacement for fossil fuels and represents a renewable energy source. Ash, which is generated by combustion of harvest residues, is usually deposited in landfills, causing environmental pollution and potential human health risks. These risks are caused by non-existent bio-ash management and the absence of pollution control [1]. In order to promote biomass as an energy source, the available quantities of agricultural biomass in Croatia and Serbia are presented. Its heating power is determined and compared to the heating power of standard energy sources. The possibilities of using biomass ash as a waste material in the building industry are outlined. As presented in [2-4], different kind of biomass ashes can be successfully used to replace cement in mortars and concrete and have positive influence on geotechnical properties of the soil. Preliminary results of ash suggest that these ashes exhibit the potential for use in the building industry, but because of the differences in their characteristics, each of them needs to be investigated in more detail.

References:
1. Carević, I., Banjad Pečur, I., Štirmer, N., Milovanović, Bojan; Baričević, A.: Potencijal biopepela i stanje u Republici Hrvatskoj, Sabor hrvatskih graditelja 2016 - EU i hrvatsko graditeljstvo - zbornik radova / Lakušić, Stjepan (Ed.), Hrvatski savez građevinskih inženjera, Zagreb, 2016., 133-142 (in Croatian)\n2. Antonio P., Ryan Y.,Ellie F., Taher Abu-L.: Investigating effects of introduction of corncob ash into portland cements concrete: mechanical and thermal properties, American Journal of Engineering and Applied Sciences, 7, 2014., 137-148\n3. Biricik, H., Akoz, F., Turker, F., Berktay, I.: Resistance to magnesium sulfate and sodium sulfate attack of mortars containing wheat straw ash, Cement and Concrete Research, 30(8), 2000., 1189-1197\n4. Singh, M., Sharma, R.: Soill stabilization using industrial waste (wheat husk and sugarcane straw ash), International Research Journal of Engineering and Technology, 4(9), 2017., 589-596