Our site civil team retains intimate knowledge of the geographic and subsurface characteristics that make up the Carolinas. Whether it is industrial or agricultural facilities, commercial or institutional developments, subdivisions or master-planned communities, our team is here to help prepare your site — even in the most complex environments. We walk you through the site-civil engineering and construction process, including predevelopment, regulatory approvals, design drawings and specifications, construction permits, contract administration, construction inspection, and project closeouts.

Our specialties include:

  • Surveying & Mapping

  • Site Layout

  • Hydrologic Analysis

  • Utility Engineering

  • Roadway Plans

  • Erosion & Sedimentation Plans

  • Subdivision Plans/Plats

  • Coastal Development

  • Permitting

  • Stormwater Design

Our Work in Your Communities

Novo Nordisk Site Design - Clayton, North Carolina    

Design for expansion of numerous water and sewer services

The Wooten Company provided site design services for the facility expansion at the Novo Nordisk plant in Clayton, NC. These services included water distribution design for domestic and fire service, sanitary sewer design - including separate pumping stations for process waste and domestic waste, storm drainage design (including three main stormwater networks ranging in size from 15-inch to 54-inch diameter to collect and deliver the site stormwater to the on-site stormwater wetlands), erosion control design and retaining wall design. This work also included electrical design for the new pump stations.

Campbell Football Stadium Design - Lillington, North Carolina

Improvements to stadium boost a football program returning from a hiatus

Campbell University was in need of updating and expanding their football stadium, Barker-Lane Stadium. Prior to the renovation, the stadium only held 2,000 people on temporary grand stands. The project was a joint venture between Little Diversified, the Architect and The Wooten Company. The project added an additional 3,000 seats and a two-story press box to bring the capacity up to a 5,000 person maximum. Working with the University and the project architect, our design team created the site's plans. These plans included site layout, grading, utilities, lighting, landscaping and storm drainage, and the site layout plan included additional parking facilities and associated stormwater management. The expansion to the Stadium was designed with the anticipation of future improvements, since ultimately, Campbell University anticipates the need for a stadium that can hold more than 10,000 fans, as the University continues to ramp up their football program.

M8 Leesville Church Middle School - Wake County Public Schools System

Engineers and architects coordinate to deliver a locally funded school project

Ratio Architects contracted with The Wooten Company for the design of a new 3-story middle school in the North Raleigh area.  The architectural firm asked us to provide design services, construction administration and construction observation services for both on-site and off-site water, on-site sewer and roadway extensions and improvements.  On-site water included a fire loop around the school together with off-site water designs including the extension of 3,250 feet of water main.  The project's roadway design called for 2,100 feet of extension adjacent to the site and the addition of dedicated turn lanes to assist with high traffic volumes at nearby intersections.  Design and construction of the school required concerted coordination efforts between all design team members in order to bring the locally funded project to completion.  

Richmond Community College New Classroom Building - Laurinburg, North Carolina

Design of a multi-purpose classroom building

This 19,010 square-foot facility on the campus of Richmond Community College features a nurse training center that houses teaching classrooms, computer classrooms and a 100-seat community room, and a vocational training center that houses classrooms to teach HVAC mechanical system repairs, welding and steel fabrication.   The vocational training area is connected to an outdoor teaching area and indoor classrooms and is also connected to the main classroom building with a covered walk.
Our teams performed a complete programming analysis to determine the needs for the nursing and industrial arts curriculums and was responsible for the architectural, mechanical, electrical, plumbing, civil and site design, including landscape architecture for the project. Specific features included glass enclosed entrances and the covered walkways connecting the main classroom building and the vocational training center.   We also designed extensive landscaping that includes wetlands and bioretention ponds to control stormwater.