Power Archives

Substation 138-kV Transmission Line Improvements

Substation 138-kV Transmission Line Improvements Houston, Texas DCCM performed detailed structural engineering for the Substationb138-kV transmission line, 72-count ADSS single mode fiber cable, and the underground 72-count single-mode fiber routes and connections at both substations. The project included designing 3.7 miles of 72-count single-mode ADSS, bundled Suwannee ACSS, and 3/8-inch high-strength steel static, the design of several new concrete pole structures and extensively modified existing lattice structures. The team placed splice boxes along the transmission line. New drilled shaft foundations were designed for several of the new steel poles. We also performed construction support. At the end of both substation projects, we provided design and drawings for the Substation campus fiber routes to connect ADSS fiber to the telecommunications shelter and substation control rooms, created CAD plan and profile drawings, and CAD details for butt fusions splicing connections and fiber patch panels. At a Glance 2022 Project Completed 138kV Transmission Line 72-count ADSS Single Mode Fiber Cable Markets Power Services Utilities

Missouri City Substation

Missouri City Substation Missouri City, Texas DCCM provided planning, surveying, civil engineering, and permitting services for the development of a new 138 kV distribution substation in Missouri City, replacing an aging facility with a modern, redundant design. The new substation enhances reliability through a double-feed configuration that allows continuous service during maintenance or equipment outages. Services included preparation of site development plans, grading and drainage design, and coordination of utility relocations. DCCM also managed the entitlement process, including preparation of a Specific Use Permit (SUP) application and supporting documentation for City approval. Surveying services included preparation of a subdivision plat and coordination of easements with local utility districts. DCCM supported construction procurement and continues to provide construction phase services, including coordination with contractors and resolution of field conditions. The upgraded facility increases system capacity, improves operational flexibility, and supports continued growth in Fort Bend County. Photo is a stock image and does not represent the project above. At a Glance 138 kV Electric Distribution Facility Markets Power Services Power

Pythias Solar Substation

Pythias Solar Substation Brazoria County, Texas DCCM provided civil engineering design, permitting, and construction support for the Pythias Substation, a 138 kV–34.5 kV facility developed to interconnect a utility-scale solar farm into the Client’s transmission network. The substation serves as a critical grid-tie facility, enabling the delivery of renewable energy into the regional power system. Scope included site layout, grading, and stormwater management design, as well as preparation of construction plans and specifications. DCCM coordinated closely with Brazoria County and local drainage authorities to secure permitting approvals and ensure compliance with environmental and drainage requirements. The design incorporated a detention system and erosion control measures to protect surrounding infrastructure and natural resources. During construction, DCCM provided engineering support, responded to contractor inquiries, and coordinated survey and layout data. The project supports the integration of renewable energy, enhances grid capacity, and contributes to long-term sustainability and energy reliability in the region. Photo is a stock image and does not represent the project above. At a Glance 138 kV – 34.5 kV Electric Distribution Facility Markets Power Services Power

Seabrook Substation

Seabrook Substation Seabrook, Texas DCCM provided civil engineering, permitting, and construction phase services for the new Seabrook Substation, a 138 kV electric distribution facility designed to enhance reliability and capacity for the Seabrook and Kemah area. The substation steps down transmission voltage to distribution levels and incorporates a low-profile, double-bus configuration that allows for operational flexibility and redundancy without service interruption. DCCM led the site civil design, including grading, drainage, and stormwater management systems to meet Harris County flood control criteria. Services also included preparation of construction documents and technical specifications, coordination with local and county agencies for permitting approvals, and ongoing construction administration support. The design incorporated a detention system, erosion control measures, and site screening elements to address community concerns, including a landscaped perimeter wall. Through proactive coordination and regulatory navigation, DCCM supported timely project approvals and construction progress. The completed facility improves grid resiliency, reduces outage risks, and supports continued residential and commercial growth in this coastal region. Photo is a stock image and does not represent the project above. At a Glance 138 kv Electric Distribution Facility Markets Power Services Power

Crockett Substation Distribution Development Plan and Internal Request

Crockett Distribution Substation Distribution Development Plan and Internal Request Houston, Texas As part of the Client’s 2022 DDP, DCCM provided engineering and design for the Crockett Substation. The design of 25,000 feet of new build circuit and upgrades to the existing overhead facilities. This included multiple terminal poles, capacitor banks, and pole top switches that were all done in highly congested areas with limited space and clearances. Several places required circuits to be built double-stacked due to limited space in the established commercial and residential areas. In addition, the plan included six railroad crossings that must meet strict clearance and enhanced building requirements. Three of these crossings required the use of load-bearing concrete poles, and two of these were double-circuit crossings. In addition to the DDP work, DCCM provided engineering and design of the Internal Request (ILRT) work going on inside the substation yard to convert the outdated Crockett substation to a low-profile design. In doing so, our design team had to relocate existing escapes out of the way so that the new low-profile substation could be built. This all had to be done while keeping the circuits energized. DCCM came up with the most efficient action plan. After many field meetings where our staff represented the Client’s Overhead department for this project, we designed and engineered four overhead and six terminal pole work orders and provided consulting for the entirety of this project. We had to relocate circuits CR01 through CR06 and coordinate our work with the substation, transmission, and MUG engineering. At a Glance 25,000 Feet of Build Circuit Markets Power Services Power

Brazos River Overhead Distribution Design

Brazos River Overhead Distribution Design Fort Bend County, Texas The Client retained DCCM to provide engineering and design for the installation of a new 35 kV circuit crossing the Brazos River. This crossing represented a critical tie needed to bring a 35 kV line to feed new developments. This was required to relieve load on existing circuits. The planning department had originally called for this new 35 kV line to double-stack with an existing 12 kV crossing. However, due to distance and NESC® construction grade requirements, this new circuit had to be located on the opposite side of the street. Abstracts and topography maps were required to ensure proper pole placement. To make up for sag of over 975 feet of spacing and ground elevation changes relative to the bridge between poles, the concrete poles had to be 110 feet. This job required working closely with the Client’s Standards and Materials department to create special standards of framing specific to this work. The project required permitting from TxDOT, GLO, and USACE. At a Glance 110 Foot Concrete Poles Markets Power Services Power

Overloaded Pole Replacement Program

Overloaded Pole Replacement Program Houston, Texas DCCM provided electrical distribution pole analysis for the Client’s pole replacement program. We received periodic spreadsheets from the Client listing numerous poles to be analyzed. The poles were deemed to be possibly overloaded structurally due to conductor size, type of framing, angle of distribution line, equipment, or other circumstances. Overloaded poles were evaluated to ensure proper clearances over roadways, railroads, or other types of terrain. Each pole had a unique six- or seven-digit identification number, and DCCM was able to locate the pole in the Client’s GIS mapping system. A notification, work order, and DDS project were created for each pole. We were limited to one pole per order, thus creating the need for multiple projects. The poles were spotted in DDS with adjacent facilities for analysis. Structural and profile analyses were performed for the overloaded poles. The structural analysis evaluated the side bearing, vertical bearing, insulator, guy, anchor, cross-arm, and stress on the pole itself. The profile analysis measured the clearance of the conductors under maximum load conditions. The structures were replaced with a larger/taller poles to meet the Client’s standards. A subsequent sketch, material list, and work order were created and scheduled for construction. At a Glance Electrical Distribution Pole Analysis Markets Power Services Power

Distribution Development Plan

Distribution Development Plan Houston, Texas DCCM was responsible for engineering and design of the Client’s 2014–2023 distribution development plans. This covered new circuits and system hardening of electrical overhead distribution facilities for new and existing substations. DCCM coordinated with the Client’s MUG, Overhead Consultants, Distribution Planning, Land and ROW, and Forestry departments to determine the most feasible design for the projects. DCCM worked with the Transmission department for crossings and designs within transmission ROW and assisted in the design of three- phase 35 kV and 12 kV primary, three-phase underground terminal poles, pole top switches, reclosers, and capacitor banks. The projects included multiple freeway crossings requiring concrete structures and road closures. Proper fuse coordination was applied on all small wire laterals. Permits were acquired from TxDOT, Union Pacific Railroad, surrounding cities, and counties where neede At a Glance 2014 – 2023 Distribution Development Plan Markets Power Services Power

Downtown Underground Transmission Duct Bank Installation

Downtown Underground Transmission Duct Bank Installation Houston, Texas DCCM provided engineering and construction support services for the design of a 138-kilovolt transmission duct bank to replace aging oil-filled facilities serving the growing, highly congested Downtown and Midtown areas of Houston. More than 12,600 linear feet of underground transmission duct back was designed to connect three critical substations that serve these areas. The design included installations within existing substation facilities along and across TxDOT right-of-way, through the St. Joseph Medical Center, in front of the Toyota Center, and under the METRORail Red Line. DCCM worked with the client to optimize the duct bank configuration and layout to maximize the efficiency of construction and operational methods. DCCM utilized specialized planning and equipment to accommodate two horizontal directional drilling rigs in very restrictive, narrow, and congested areas of the project. Professional services included engineering analysis and design, topographic survey, signed and sealed plan and profile drawings, traffic control plans, construction method solutions, conflict resolutions, utility research, coordination and permitting (with TxDOT, City of Houston, and Metropolitan Transit Authority of Harris County [METRO]), signed and sealed as-built plans, geotechnical services, and construction phase support. All designs complied with the client’s standards and specifications, as well as federal, state, and municipal requirements. At a Glance 12,600 Linear Feet $303,000 Design Cost Markets Power Services Utilities

Transmission Counterpoise along BNSF Railroad

Transmission Counterpoise along BNSF Railroad Montgomery County, Texas With growing concerns about the effects of electromagnetic fields generated by overhead electric transmission lines on the rails of tracks managed by the Burlington Northern Santa Fe (BNSF). DCCM was selected to design and coordinate with the client and BNSF for the installation of a counterpoise system to neutralize electromagnetic fields along 12 miles of paralleling tracks and a 345-kilovolt transmission line. This counterpoise system consisted of four 500 MCM buried bare copper cables along the BNSF right-of-way, two on each side, installed at strategic distances from the tracks to achieve optimal efficiency for its purpose. DCCM developed detailed construction drawings for cable installation, including horizontal directional drilling, a railroad plow, and an open trench. DCCM obtained all necessary permits from the County, TxDOT, the US Army Corps of Engineers, and BNSF. At a Glance 345 kV Transmission Line 12 Miles Railroad Markets Power Services Utilities

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