Bearing Capacity Map for An-Najaf and Kufa Cities Using GIS

An-Najaf province is situated in south-western part of Iraq. It is 70 meters above the sea level in the dry desert environment. The city is considered as one of the most important cities in Iraq, facing a fast population growth and continuous development in constructions such as residential complexes, hotels, bridges and shopping malls. Soil investigation data for An-Najaf Province (An-Najaf and Kufa cities) from 464 boreholes drilled by the National Centre for Construction Laboratories & Researches (NCCLR)/Babylon laboratory were used in this research. The data were analysed and possessed using Excel program then represented on the Geographical Information System (GIS) program by Inverse Distance Weighted (IDW) tool to create an allowable bearing capacity map for the soil at depths 0 2 meters. The allowable bearing capacity is one of the most important soil characteristics to be considered when making a database for An-Najaf city soil. Geographical Information System GIS program enables to create reliable database for any characteristic and it is one of the best programs to produce an accurate map and allow ease in dealing with it. Those maps cover all the studied areas and by using contour lines, approximate values for no-data areas can be obtained. The results show that the allowable bearing capacity range is 5 20 Ton/m for both An-Najaf and Kufa cities. Kufa city has the range 5 9 Ton/m. An-Najaf city has the range 7 18 at the center, 8 10 Ton/m at the north eastern part, 7 14 Ton/m for the north western part, 6 12 Ton/m2 at the south eastern and 12 19 Ton/m at the south western. How to cite this paper: Al-Maliki, L.A.J., Al-Mamoori, S.K., El-Tawel, K., Hussain, H.M., Al-Ansari, N. and Al Ali, M.J. (2018) Bearing Capacity Map for An-Najaf and Kufa Cities Using GIS. Engineering, 10, 262-269. https://doi.org/10.4236/eng.2018.105018 Received: April 22, 2018 Accepted: May 19, 2018 Published: May 22, 2018 Copyright © 2018 by authors and Scientific Research Publishing Inc. This work is licensed under the Creative Commons Attribution International License (CC BY 4.0). http://creativecommons.org/licenses/by/4.0/


Introduction
The soil compressibility characteristic is very important when establishing any engineering structure.This compressibility is referred to as the bearing capacity of soil, which is the possibility of selecting the extent of dynamic and static loads without failure.Allowable bearing capacity is one of the important parameters used in deciding the engineering foundations [1].The ability of a foundation to carry a load depends on the bearing capacity [2].For any building to be constructed an extensive soil investigation must be carried out; this is a very strenuous, expensive and time-consuming task.Therefore, the need arose to minimize investigations as much as possible to meet the challenges of rapid expansion.Since soil exploration is too costly and mere guessing will not suffice when making foundations, this work suggests a quick way to over such engineering requirement [3].
The foundation is the supporting base of any structure which forms the interface across which the loads are transmitted to the underlying soil or rock [4].
The bearing capacity of soil is calculated from the standard penetration test (SPT) and core penetration test (CPT), or depends on engineering and physical properties obtained from test results for the samples in the laboratory [5].The data of bearing capacity (B.C) in this study was calculated using a dynamic method, which depends on the standard penetration test (SPT).From the results of on-site that took the number of blows (N) and got bearing capacity value depending on a formula.The bearing capacity depends on several factors such as soil quality, cohesion soil (fine-grained), cohesion less soil (coarse grained), and groundwater in addition to soil saturation condition, and wet and dry densities [6].By knowing the bearing capacity for the soil, the type of foundations and its depths can be guessed, as well as improving soil properties to take the necessary precautions to avoid the damages especially from earthquakes [7].This study included collecting, classification and analysis of the information for 464 boreholes in the study area and for depths 0, 2, 4, 6, 8, 10, 12, 14, 16 and 35 meters.The data that were used in this research were taken from the National Center for Construction Laboratories & Researches (NCCLR)/Babylon laboratory reports (NCCLR) [8].Using GIS program abilities, a digital data base was made for the allowable bearing capacity.This can be generalized later to cover all soil properties and for all parts of Iraq, which enables to do the re-cyclization and treatment and analysis easily in making the designing and planning of any engineering project [9] [10].and simple access to the information regarding foundation and allowable bearing capacity [11].In addition, it was also used in other Iraqi provinces such as Baghdad, Diyala and Basra [10].However, such a study has never been done with such a large amount of data, which gives greater accuracy to the results.Finally, such map will help in preliminary studies, feasibility studies, and land use policies.

The Study Area
The governorate of An Najaf is located in south-western Iraq about 161 km southwest the capital Baghdad and it borders Saudi Arabia (Figure 1).It also shares internal boundaries with the governorates of Anbar, Kerbala, Babil, Qadissiya and Muthanna.Desert plains dominate the landscape of the governorate.
It has an area of about 28,824 km 2 which is approximately 7% of Iraq's total area [12].The province comprising three districts: An-Najaf Center district (holly An-Najaf city, Kufa district and Al-Manathira district).This study cover parts of An-Najaf and Kufa districts and located between the coordinates 44˚17'00''E and 44˚25'0''E and 32˚7'0''N and 31˚N [13].An-Najaf city is located in Plateau region with an attitude of about 60 m.Its slopes are flat and gradual toward the north, northwest, east, south east, and south, while its very steep and forming natural edge toward west and southern west [14].The study area is consisting of successive rock formations from sedimentary origin [15].
An-Najaf province is located on the edge of the desert.It is located at the southwestern tip of the north section of the Mesopotamian plain and on the edge of the desert from the western side of the Euphrates River, which is 10 km away [16].This site has been developed within the desert climate, which is characterized with a hot dry summer, cold winter and large difference in the daily temperature.The general direction of the wind is Northwest [13]. in the analysis process.Then this file was used within the GIS (Arc-map) program for the purpose of data analysis and production of maps using a set of tools for this purpose.The GIS in its version (10.2.1) finally produced the bearing capacity geotechnical map.

Results and Discussion
The final map of allowable bearing capacity produced in Figure 3.In this map, the colour counters represent the bearing capacity for each neighborhood of the study area, where light colors indicate the lowest values while the dark colors indicate the highest values.
Figure 3 shows that the allowable bearing capacity for: 1) Najaf old city ranging between 11 to 16 Ton\m 2 .
3) At the north of the study area, the results show that the allowable bearing capacity ranged between 6 to 14 Ton\m 4) The west region of the study area shows an allowable bearing capacity ranging between 10 to 11 Ton\m 2 .
5) The highest results have emerged in Wadi Al-salam, while the lowest value emerged in Al-Salam Al-Jadeed neighborhood.

Conclusions
Using the information obtained from 464 soil test boreholes within the study area, an allowable bearing capacity map was constructed.This map can help in: 1) Using Geographic Information System (GIS) to produce geotechnical maps provides a helpful way to predict the allowable bearing capacity in non-Spatial data areas.
2) Geotechnical maps produced for the study area represent a very powerful database and visual display of the collected data.Besides, using these maps will help save time, cost and effort.
3) The produced maps can be used as a guidance for engineers and decisions makers to decide the suitability of any construction in the study area, the best foundation design and type of suitable treatment needed.
4) The allowable bearing capacity of the study area was ranging between 5 and 19 Ton\m 2 .
5) This map can be used in the applications of smart cities.
Faisalabad region and proved to be fast L. A. J. Al-Maliki et al.DOI: 10.4236/eng.2018.105018264 Engineering

Figure 3 .
Figure 3. Allowable bearing capacity map for the study area.