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Go to Editorial ManagerMunicipal solid waste management in Syria remains primitive in many cases, both in terms of waste collection and disposal methods, particularly in areas that have experienced severe population density due to the war. Waste recycling processes are neglected, and waste is often disposed of in specific plots of land, often far from residential areas. This research aims to identify criteria related to decision-making for selecting the optimal site for a landfill, in line with the local context and Syrian conditions. This was achieved by reviewing several previous studies and interviewing local experts interested in this type of research. (21) criteria were identified and divided into (6) main groups: (environmental criteria, site-related criteria, external and weather conditions, economic and social criteria, and criteria related to sustainable transportation). The relative importance of these criteria was then calculated using the Fuzzy Hierarchy Process (FAHP). After obtaining the weights, these criteria were used to evaluate the current site of the Safita landfill using the Fuzzy Inference System (FIS). The evaluation results were very weak due to decision makers' neglect of many factors and conditions that must be met at the selected site. A set of recommendations and proposals were identified for consideration when selecting the optimal site for a landfill, consistent with the local context of the study area (Syria), and for improving existing sites.
Very little attention was given to study learning curves phenomenon in the construction industry, for many reasons related to the nature of production in this industry and also because of the variety of factors which affect these works. This research aims to measure the amount of improvement in the acquired production by the workers on the repeated construction operation because of the experience and learning in Iraq compared with a neighboring country (Syria).The measurement technique involves recording the time required to achieve every unit and finding out the mathematical relation which represents the learning curve for each item of production. The study involves six items (activities) of construction as follows: 1- Ceramic tiles (20 × 20 cm) for walls. 2- Paving the pavement of the street with concrete blocks. 3- Tiling the rooms with mosaic (30 × 30 cm). 4- Building the walls with concrete blocks (20 × 20 × 40 cm). 5- Coating the walls with emulsion paints. 6- Finishing the walls with gypsum The most important results of the research are that the amount of learning varies from 4.2% to 8.6% in Iraq, and 3.3% to 11.8% in Syria, which considered little compared to the developed countries.
The look for the new water resources and the optimal using of available water is very important because of high change in the climate of the earth, the dry wave in the region as well as the decreases of the water inflow to the Euphrates and the tigress river because of the building of the dams upstream the basin in Turkey and Syria. In the present study, four biggest catchments area in the Iraqi western desert (wadi Horan, wadi AlGhadaf, wadi Ubayiad, wadi Tubul) were selected to study the hydrologic properties to determine the best region for the water harvesting because these areas include the most water harvesting project such as the small dams. Present hydrologic study was depended on the available data to determine the amount of runoff that can be harvested according to measuring data of metrological station in the region with the method of hydrograph for analysis. For the period (1971-1976) the study showed wadi Al-ghdaf is the best region for water harvesting according to the number of floods to the cathment area (44 floods) with water volume (1047*106m3), and the average water harvesting (7098.64 m3/km2). The second is wadi Horan the number of floods to the cathment area (33 floods) with water volume (2033.29*106m3), and the average water harvesting (6115.16 m3/km2). Then wadi al Ubyaid number of floods to the cathment area (21 floods) with water volume (405.197*106m3) and the average water harvesting (2493.52 m3/km2). The last one is wadi Tubul with number of floods to the cathment area (18 floods) with water volume (909.36 and the average water harvesting (2231.6 m3/km2)*106m3)