References
- [1] Gathogo, & Amino (2017). Social-Environmental Effects of River Sand Mining: Case of Ephemeral River Kivou in Kitui County, Kenya. IOSR Journal of Humanities and Social Science.22 (11), 31-37. DOI: 10.9790/0837-2211103137
- [2] Waweru, S.W., Njoroge, J.B. & Adimo, A.O. (2018). Management Status and Perception of Post-Quarried Site in Ndarugu Kiambu, Kenya. Africa Journal of Environmental Science and Technology. 12 (8), 268-282. DOI: 10.5897/AJEST2018.247410.5897/AJEST2018.2474
- [3] United Nation Department of Economic and Social Affairs: Sustainable Development. Building Resilient Infrastructure Promote Inclusive and Sustainable Industrialization and Foster Innovation. Retrieved: 2020 https://sdgs.un.org/goals/goal9.
- [4] Kitio (2017). Innovative Building Materials for Sustainable Construction in Africa. Topical Session Innovative Building Materials Global science & Technology Innovation Conferences. 2017: 23rd - 26th October, 2017.
- [5] Aryampa, S. Maheshwari, B. Sabiili, E. Bateaanya, N.L. & Bukenya B. (2019). Status of Waste Management in East African Cities: Understand the Drivers of waste Generation, Collection and Disposal and Their Impacts on Kampala City’s Sustainability. Sustainability. 11, 5523: DOI:10.3390/su1119552310.3390/su11195523
- [6] Getachew, K.W., Muge, M.D., Fekadu, F.F. & Tewodros, G. (2019). Suitability of Scoria as Fine Aggregate and its Effect in Properties of Concrete. Suitability, 11, 4647. DOI: 10-3390/541117464710.3390/su11174647
- [7] Okwadha, G.D.O. & Ngengi, K.J. (2016). Partial Replacement of River Sand with Volcanic Pyroclastics as Fine Aggregates in Concrete Production. IOSR-Journal of Mechanical and Civil Engineering. 13 (5), 41-45. DOI: 10.9790/1684-130503414510.9790/1684-1305034145
- [8] Odera, B.J., Mutuku, R.N. & Kabubo, C.K. (2015). Mechanical Characteristics of Normal Concrete Partially Replaced with Crushed Clay Bricks. International Journal of Civil Engineering and Technology (IJCIET). 6 (1), 62-75. http://www.iaeme.com/citearticle.asp?Ed=4478&Jtype=IJCIET&VType=6&Itype=1
- [9] Nigussie, L.F., Muge, M.M. & Ghebrab, T. (2019). Recycled Fine Aggregate from Demolished Hollow Concrete Block for Green Concrete in Ethiopia. Global Journal of Engineering Science. 3 (2): 2019. GJES.MS.ID.000559. DOI: 10.33552/GJES.2019.03.00055910.33552/GJES.2019.03.000559
- [10] Lemma. Study of Partial Replacement of Sand with Wanza Sawdust to Produce Concrete. Msc. Thesis. Addis Ababa University, 2019. http://213.55.95.56/bitstream/handle/123456789/19551/Getish%20Lemma.pdf?sequence=1&isAllowed=y
- [11] Gemeda & Alemu (2020). Water Rubber Tires: A Partial Replacement of Coarse Aggregate in Concrete Floor Tile Production. American Journal of Civil Engineering. 8 (3), 57-63. DOI: 10.11648/j.ajce.20200803.1210.11648/j.ajce.20200803.12
- [12] Getahun, M.A., Shitote, S.M. and Gariy, Z.C.A. (2018). Experimental Investigation of Engineering Properties of Concrete Incorporating Reclaimed Asphalt Pavement and Rice Husk Ash. Buildings, 8:15 DOI:10.3390/buildings809011510.3390/buildings8090115
- [13] Mrema & Mboya. Feasibility of LightWeight Aggregate Concrete for Structural & Non-structural Works in Tanzania [Electronic Version]. University of Dar es Salaam Research Repository- 2013.
- [14] Philips, E.S., Mutuku, R.N. & Mwero, J.N. (2017). Palm Kernel Shell as Partial Replacement of Normal Weight Aggregate in Concrete. Civil & Environmental Research (CER). 9 (11). https://iiste.org/Journals/index.php/CER/article/download/39565/40686
- [15] Djima, M.O.A., Mang’uriu, G.N. & Mwero, J.N. (2018). Experimental Investigation of Lime Treated Palm Kernel Shell and Sugercane Bagasse Ash as Partial Replacement of Coarse Aggregate and Cement Respectively in Concrete. Open Journal of Civil Engineering, 8, 358-372. DOI:10.4236/ojce.2018.8402710.4236/ojce.2018.84027
- [16] Dorr, B.J., Kanali C.L., & Onchiri R.O. (2019). Effects of Recycled Tyre Steel Fibres on the Compressive, Splitting Tensile and Flexural Strenghts of Structural Lightweight Concrete Using Palm Kernel Shells as Partial Replacement of Coarse Aggregates [Electronic Version]. Civil and Environmental Research (CER), 11 (6). PP 35-41. July, 2020. Institutional repository, Technical University of Mombasa. DOI: 10.7176/CER10.7176/CER
- [17] Almaleeh, M.A., Shitote, S.M., & Nyomboi, T. (2017). Use of Waste Rubber Tyres as Aggregate in Concrete. Journal of Civil Engineering and Construction Technology. 8 (2), pp 11-19. DOI: 10.5897/JCECT2016.0421
- [18] Mang’uriu, G.N., Karugu, C.K., Oyawa, W.O., Aboudha, S.O., & Mulu, P.U. (2013). Partial Replacement of Natural River Sand with Crushed Sand in Concrete Production [Electronic Version]. Global Engineering and Technologist Review. http://www.jkuat.ac.ke/departments/civil/wp-content/uploads/2013/10/1.-PARTIAL-REPLACEMENT-OF-NATURAL-RIVER-SAND-WITH-CRUSHED-ROCK-SAND-Getviewmanguriuoyawa.pdf
- [19] Mang’uriu, G.N., Mutuku, R.N., Oyawa, W.O. & Aboudha, S.O. (2012). Properties of Pumice Light Weight Aggregate. Civil and Environmental Research. 2 (10), https://iiste.org/Journals/index.php/CER/article/view/3540/3588
- [20] Mutabaruka, J.D. & Pranesh, M.R. (2016). Assessing Suitability of Volcanic Rock of Rwanda as an Aggregate Based on the Engineering Characteristics. International Journal of Civil Engineering and Technology. 7 (6), 449-459
- [21] Koech (2017). Full Replacement of Fine Aggregate in Concrete with Crushed Ceramic Waste. Global Journal of Environmental Science and Technology. 5 (6), 488-520.
- [22] Mbereyaho, L., Amini, F., Bigirimana, F. & Isengwe R.C. (2019). The Use of Ceramic Tiles Waste in Concrete as Partial Replacement of Fine Aggregate. Mediterranean Journal of Basic and Applied Sciences. 3 (3). pp 122-130. http://mjbas.com/data/uploads/700011.pdf
- [23] Abebaw, & Muhammed (2020). Effect of Sewage Sludge as Partial Replacement of Fire Aggregate in Concrete at Elevated Temperature: Compressive and Mass Loss Characteristic. Global Scientific Journal. 8 (4), pp 46-57. http://www.globalscientificjournal.com
- [24] Makunza, J.K. (2014). Investigation of Fired Animal Bones as Aggregate Replacement in Concrete. RILEM International Workshop on Performance-Based Specification and Control of Concrete Durability, 11-13 June, 2014, Zagreb, Croatia.
- [25] Azunnna S.U.(2019). Compressive Strength of Concrete with Palm Kernel Shell as Partial Replacement of Coarse Aggregate. SN Appl. Sci.1, 342. https://doi.org/10.1007/s42452-019-0334-610.1007/s42452-019-0334-6
- [26] Okoroigwe E.C., Saffron C.M. & Kamdem P.D. (2014). Characterization of Palm Kernel Shell of Materials Reinforcement and Water Treatment. Journal of Chemical Engineering & Material Science. 5(1). pp 1-6. DOI: 10.5897/JCEMS 2014.017210.5897/JCEMS
- [27] Maina, K., Gwaya, A.O., & Koteng, D.O. (2018). Effects of Different Fine Aggregate on Concrete Strength. Proceedings of the sustainable research and innovation conference. 2-4 May 2018 (135-140). JKUAT Main Campus, Kenya.
- [28] Tejiona, T.F.R. (2018). Structural Performance of Sisal Fibers Reinforced Lightweight Concrete with Waste Plastic Pre-coat Volcanic Scoria Aggregates. Msc. Thesis Jomo Kenyatta University of Agriculture and Technology-JKUAT, JKUAT Digital Repository.
- [29] Odera, B.J. (2016). Physical and Mechanical Properties of Normal Concrete with Recycled Clay Products and the Plastic Fibres as Coarse Aggregates. Msc. Thesis Jomo Kenyatta University of Agriculture and Technology-JKUAT, JKUAT Digital Repository.
- [30] Musembi T.M. Laterized Quarry Dust and Recycled Concrete as Alternative Building Materials. Msc. Thesis-2009 Jomo Kenyatta University of Agriculture and Technology-JKUAT, JKUAT Digital Repository. http://ir.jkuat.ac.ke/handle/123456789/1278/recent-submissions?offset=200
- [31] Almaleeh A.M. Performance of Selected Waste Materials as Aggregates in Concrete. Msc. Thesis-2016 Jomo Kenyatta University of Agriculture and Technology-JKUAT, JKUAT Digital Repository. http://ir.jkuat.ac.ke/bitstream/handle/123456789/4007/M.Sc.%20THESIS.pdf?sequence=1&isAllowed=y