Support of Battery Energy Storage Systems with Helical Pile Foundations

Construction of large-scale battery energy storage systems (BESS) is becoming prevalent throughout the United States to meet demands of the electric grid and optimize effectiveness of alternative energy sources. Helical pile foundations are regularly used for support of battery containers and transformers. This type of foundation system is reuseable and sustainable, and is advantageous because of its ability to carry high axial loads at relatively low cost. This paper presents multiple case histories of BESS supported on helical pile foundations and explores the design and implementation aspects of helical piles. Case histories include several sites in Texas, one in Mississippi, and one in Nevada. The quantity of individual BESS units at each site ranged from approximately fifty to two-hundred. Each individual unit was supported on six or eight helical piles, resulting in thousands of helical piles utilized across all sites. For design, the feasibility of using helical pile foundations is first considered by review of the site-specific geotechnical report. A boring analysis is constructed. If the project site is suitable for helical pile foundations, an initial helix sizing is performed. Given the dimensions and weight of the BESS units and environmental factors, the required helical pile loads and layout is developed. Helical pile capacity can be verified based on torque correlations. To confirm the helical pile design is acceptable, test installation programs are implemented at each site. The purpose of the test is to measure the depth at which the required installation torque is achieved. Based on the data collected, helical pile length is optimized across the subject site. If site grading has not been performed prior to the test installation, adjustments are made to account for expected cut/fill. This method of optimization through field testing results in an economic and speedy foundation system for rapid deployment of BESS.