اختيار موقع لمكب النفايات البلدية الصلبة بمدينة مصراتة-ليبيا باستخدام الطرق متعددة المعايير

.] شتية، ضرغام، وغضية، أحمد. ) 2017 (. "اختيار أفضل المواقع لمكبات

النفايات في الضفة الغربية باستخدام نظم المعلومات الجغرافية". جامعة النجاح.

. Demirbas, A. (2011). Waste management, waste resource facilities and waste conversion processes. Energy Conversion and Management, 52(2), pp 1280-1287.

. Samwine, T., Wu, P., Xu, L., Shen, Y., Appiah, E., & Yaoqi, W. (2017). Challenges and prospects of solid waste management in Ghana. International Journal of Environmental Monitoring and Analysis, 5(4), pp. 96-102.

. Kabera, T., Wilson, D. C., & Nishimwe, H. (2019). Benchmarking performance of solid waste management and recycling systems in East Africa: Comparing Kigali Rwanda with other major cities. Waste Management & Research, 37(1_suppl), pp. 58-72.

. Erasu, D., Feye, T., Kiros, A., & Balew, A. (2018). Municipal solid waste generation and disposal in Robe town, Ethiopia. Journal of the Air & Waste Management Association, 68(12), pp. 1391-1397.

[ 6 .] الدليل الإرشادي لإدارة النفايات البلدية الصلبة في دول مجلس التعاون لدول

الخليج العربية، 2013 . الأمانة العامة لمجلس التعاون لدول الخليج العربية.

[ 7 .] السويلم، فارس. "النفايات المنزلية بين إعادة التدوير والأضرار الصحية

والبيئية".

[ 8 .] وزان، أحمد. ) 2014 (. "دراسة كمية المخلفات المعاشية المجمعة في مدينة

اللاذقية وحاجتها من الحاويات والتوزيع المكاني لها باستخدام نظم المعلومات

الجغرافية". مجلة جامعة تشرين للدراسات والبحوث العلمية. 36 ( 5 .)

. Badi, I., A. Abdulshahed, A. Shetwan, and W. Eltayeb, (2019). Evaluation of solid waste treatment methods in Libya by using the analytic hierarchy process. Decision Making: Applications in Management and Engineering, vol. 2, pp. 19-35.

. Hamad, T. A., Agll, A. A., Hamad, Y. M., & Sheffield, J. W. (2014). Solid waste as renewable source of energy: current and future possibility in Libya. Case studies in thermal Engineering, 4, pp. 144-152.

. Sawalem, M., Badi, I., & Aljamel, S. (2015). Evaluation of Solid Wastes for Utilisation in Biogas Plant in Libya–a Case Study. International journal of engineering sciences & research technology, 4(11), pp 577-583.

. Badi, I., Ž. Stević, and S. Sremac, (2019). An Integrated Fuzzy Model for Solid Waste Management in Libya. in Sustainability Modeling in Engineering: A multi-criteria perspectives, ed: World Scientific. pp. 117-143.

[ 13 .] كريديش، مصطفى و بادي، إبراهيم. ) 2020 .) “ تقييم أهمية المعايير المحددة

لاتخاذ قرار تحديد موقع لمكب النفايات البلدية الصلبة: حالة دراسية في ليبيا". مجلة

البحوث الأكاديمية. العدد ) 16 .)

. Badi, I., A. Shetwan, and A. Hemeda. (2019). A grey-based assessment model to evaluate health-care waste treatment alternatives in Libya. Operational Research in Engineering Sciences: Theory and Applications, vol. 2, pp. 92-106.

. Moslem, Sarbast, and Szabolcs Duleba. (2018). Application of AHP for evaluating passenger demand for public transport improvements in Mersin, Turkey. Pollack Periodica, 13.2. pp. 67-76.

. Kiracı, K., & Bakır, M. (2018). Using the Multi Criteria Decision Making Methods in Aircraft Selection Problems and an Application. Journal of Transportation and Logistics, 3(1), 13-24.

. Bakır, M., Akan, Ş., & Durmaz, E. (2019). Exploring service quality of low-cost airlines in Europe: An integrated MCDM approach. Economics and Business Review, 5(2), 109-130.

. Farooq, D., & Moslem, S. (2020). Evaluation and Ranking of Driver Behavior Factors Related to Road Safety by Applying Analytic Network Process. Periodica Polytechnica Transportation Engineering, 48(2), 189-195.

. Moslem, S., Gul, M., Farooq, D., Celik, E., Ghorbanzadeh, O., & Blaschke, T. (2020). An integrated approach of best-worst method (bwm) and triangular fuzzy sets for evaluating driver behavior factors related to road safety. Mathematics, 8(3), 414.

. Kasim, K., & Mahmut, B. (2020). Evaluation of Airlines Performance Using an Integrated Critic and Codas Methodology: The Case of Star Alliance Member Airlines. Studies in Business and Economics, 15(1), 83-99.

. Radović, D., Stević, Ž., Pamučar, D., Zavadskas, E. K., Badi, I., Antuchevičiene, J., & Turskis, Z. (2018). Measuring performance in transportation companies in developing countries: a novel rough ARAS model. Symmetry, 10(10), 434.

. Aljamel, S. A., Badi, I. A., & Shetwan, A. G. (2017). Using analytical hierarchy process to select the best power generation technology in Libya. The international journal of engineering and information technology, 3(2), 159-163.

. D. Pamučar, Ž. Stević, and S. Sremac. (2018). A new model for determining weight coefficients of criteria in mcdm models: Full consistency method (FUCOM), Symmetry, vol. 10, p. 393.

. Erceg, Ž., Starčević, V., Pamučar, D., Mitrović, G., Stević, Ž., & Žikić, S. (2019). A New Model for Stock Management in Order to Rationalize Costs: ABC-FUCOM-Interval Rough CoCoSo Model. Symmetry, 11(12), 1527.

. Badi, I., and A. Abdulshahed. (2019). Ranking the Libyan airlines by using full consistency method (FUCOM) and analytical hierarchy process (AHP). Operational Research in Engineering Sciences: Theory and Applications, vol. 2, pp. 1-14.

. Pamucar, D., Deveci, M., Canıtez, F., & Bozanic, D. (2020). A fuzzy Full Consistency Method-Dombi-Bonferroni model for prioritizing transportation demand management measures. Applied Soft Computing, 87, 105952.

. Pamucar, D., Deveci, M., Canıtez, F., & Bozanic, D. (2020). A fuzzy Full Consistency Method-Dombi-Bonferroni model for prioritizing transportation demand management measures. Applied Soft Computing, 87, 105952.

. D. Đorđević, G. Stojić, Ž. Stević, D. Pamučar, A. Vulević, and V. Mišić. (2019). A New Model for Defining the Criteria of Service Quality in Rail Transport: The Full Consistency Method Based on a Rough Power Heronian Aggregator. Symmetry, vol. 11, p. 992.

. E. Durmić. (2019). Evaluation of criteria for sustainable supplier selection using FUCOM method. Operational Research in Engineering Sciences: Theory and Applications, vol. 2, pp. 91-107.

. Stević, Ž., Durmić, E., Gajić, M., Pamučar, D., & Puška, A. (2019). A Novel Multi-Criteria Decision-Making Model: Interval Rough SAW Method for Sustainable Supplier Selection. Information, 10(10), 292. [31]. Stević, Ž., Pamučar, D., Puška, A., & Chatterjee, P. (2020). Sustainable supplier selection in healthcare industries using a new MCDM method: Measurement of Alternatives and Ranking according to COmpromise Solution (MARCOS). Computers & Industrial Engineering, 140, 106231. [32]. Badi, I., & Pamucar, D. (2020). Supplier selection for Steelmaking Company by using combined Grey-MARCOS methods. Decision Making: Applications in Management and Engineering, 3(2), 37-48. [33]. Puška, A., Stojanović, I., Maksimović, A., & Osmanović, N. (2020). Evaluation software of project management used measurement of alternatives and ranking according to compromise solution (MARCOS) method. Operational Research in Engineering Sciences: Theory and Applications, 3(1), 89-102.

. Beskese, A., Demir, H. H., Ozcan, H. K., & Okten, H. E. (2015). Landfill site selection using fuzzy AHP and fuzzy TOPSIS: a case study for Istanbul. Environmental Earth Sciences, 73(7), 3513-3521.

. Isalou, A. A., Zamani, V., Shahmoradi, B., & Alizadeh, H. (2013). Landfill site selection using integrated fuzzy logic and analytic network process (F-ANP). Environmental Earth Sciences, 68(6), 1745-1755.

. Yazdani, M., Tavana, M., Pamučar, D., & Chatterjee, P. (2020). A Rough Based Multi-Criteria Evaluation Method for Healthcare Waste Disposal Location Decisions. Computers & Industrial Engineering, 106394.

. Nazari, A., Salarirad, M. M., & Bazzazi, A. A. (2012). Landfill site selection by decision-making tools based on fuzzy multi-attribute decision-making method. Environmental Earth Sciences, 65(6), 1631-1642.