International Journal of Trend in Scientific Research and Development (IJTSRD) Volume 4 Issue 3, April 2020 Available Online: www.ijtsrd.com e-ISSN: 2456 – 6470
Mass-Haul Diagrams in Optimization of Earthwork Computations Koustav Dutta, Nilmay Mondal, Mrityunjay Malakar Student (UG), Department of Civil Engineering, Purulia Government Engineering College (Govt. of WB), Purulia, West Bengal, India ABSTRACT One important aspect of Roadway design is determining the amount of Earthwork necessary on a project. The execution of earthwork comprises four fundamental operations, viz., cutting, loading, hauling and filling. Except hauling, the costs of all the remaining three operations depend upon the character of the material. The haulage cost is a function of the weight of the material as well as the distance from the place of excavation to the place of fill. Since overhaul is an added cost and as it affects the economy of the project considerably, it is highly desirable to deal with the problem very carefully. This necessitates proper planning of movements of excavated soil of work site from cuts to fills so that the haul distance is minimum to reduce the cost of Earthwork. This may be accomplished graphically by means of a distribution diagram known as the Mass Diagram or Mass Curve or Mass-Haul Diagram. It is an important tool in Civil Engineering discipline used to compare the economy of various alternatives methods of Earthwork distributions on road or railway construction schemes to ultimately determine the most feasible option for Earthwork as far as economic viability and suitability is concerned to subsequently reduce the costs, labour, time and the complexity involved in the project. This paper aims at discussing the effectiveness and the suitability of Mass-Haul Diagrams in any operation of Earthwork involved in any Civil Engineering project thus undergoing a comprehensive discussion on its various aspects through suitable illustrations as and when required. At the end of this paper, the implications of Mass Diagrams using some popular computer softwares such as MS Excel and Autodesk CIVIL 3D has also been discussed, which considerably increases the efficiency of the project, that is otherwise lost in the preparation of the diagrams using the conventional methods involving manual plotting of graphs.
How to cite this paper: Koustav Dutta | Nilmay Mondal | Mrityunjay Malakar "Mass-Haul Diagrams in Optimization of Earthwork Computations" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 24566470, Volume-4 | IJTSRD30681 Issue-3, April 2020, pp.765-770, URL: www.ijtsrd.com/papers/ijtsrd30681.pdf Copyright © 2020 by author(s) and International Journal of Trend in Scientific Research and Development Journal. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0) (http://creativecommons.org/licenses/ by/4.0)
KEYWORDS: Mass-Haul Diagram, Earthwork, Cut & Fill, Haulage, Formation Level, Cost Economy INTRODUCTION Mass haul is defined as the volume of material multiplied by the distance it is moved during construction. A MassHaul Diagram consists of two objects: a mass haul line and a mass haul view. The mass haul lines represent the free haul and overhaul volumes in cut and fill conditions along an alignment. On the other hand the mass haul view is the grid on which the mass haul line is drawn. The middle axis of the mass haul view is known as the balance line. The location of the mass haul line relative to the balance line indicates material movement in the current design. When the mass haul line rises above the balance line, it indicates a region in which material is cut. When the mass haul line falls below the balance line, it indicates a region in which material is fill. There are two methods to compare free haul volume and overhaul volume: A. Grade Points Method Grade points are stations at which the proposed project design transitions from cut to fill occur. In a mass haul @ IJTSRD
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Unique Paper ID – IJTSRD30681
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diagram, a grade point is the highest or lowest point in a mass haul region. Thus a grade point is the highest point in a mass haul region where the profile transitions from a cut condition to a fill condition takes place. It may also be the lowest point in a mass haul region where the profile transitions from a fill condition to a cut condition. In the grade points method of measuring free haul, a horizontal line that is the length of the specified free haul distance is drawn. The line is positioned so that it is both parallel to the balance line and touches the mass haul line. The volume that is enclosed in the area formed by this line and the mass haul line is free haul. B. Balance Points Method Balance points are the stations at which the net cut and fill volumes are equal. In a mass haul diagram, the balance points are located on the balance line, where the net volume is zero. In the balance points method of measuring
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