Lead Mechanical Engineer

About DC BLOXAt DC BLOX, we’re shaping the future of digital infrastructure. Our mission is to empower businesses with robust, secure, and reliable solutions that enable them to thrive in an increasingly connected world.Founded on the principles of innovation, integrity, and customer-centricity, DC BLOX provides cutting-edge colocation, cloud services, and network solutions tailored to our clients' unique needs.Our team is made up of passionate professionals dedicated to excellence. We foster a collaborative and inclusive workplace culture where every voice is valued and innovation is encouraged. Whether you’re an experienced industry veteran or just starting your career, DC BLOX offers a range of opportunities for growth and development.DC Blox operates on a hybrid schedule. We work in the office Tuesday - Thursday and remote on Mondays and Fridays.Description SummaryThe Lead Mechanical Engineer, will lead the development, standardization, and deployment of advanced cooling systems across a data center platform. This role serves as the mechanical Subject Matter Expert (SME) for next-generation thermal solutions, with a focus on hydronic system design and direct-to-chip liquid cooling to support high-density AI and HPC workloads.The position operates at both strategic and execution levels—defining design standards while partnering with development, construction, commissioning, and operations teams to ensure successful project delivery. The ideal candidate brings deep technical expertise, strong cross-functional leadership, and a forward-looking approach to scalable, efficient, and sustainable infrastructure.Essential DutiesStrategic Leadership & InnovationDefine and evolve cooling system architectures across air-cooled, liquid-cooled, and hybrid data center environments.Lead development of hydronic system strategies supporting direct-to-chip cooling, including CDU integration, secondary TCS loop design, and rack-level heat rejection.Establish and maintain mechanical design standards, including redundancy models, system topologies, and equipment selections.Drive innovation in AI/HPC-ready infrastructure, including liquid-to-chip, immersion cooling, and high-density thermal management solutions.Develop and guide thermal performance modeling practices, including CFD, co-simulation modeling, load profiling, and optimization tied to PUE, WUE, and dynamic workloads.Support sustainability initiatives related to water usage, refrigerant strategy, and lifecycle optimization.Design Engineering & Standards DevelopmentCreate and maintain Owner’s Project Requirements (OPR) and Basis of Design (BoD) documentation for mechanical systems.Lead standardization of cooling plant designs, hydronic distribution systems, and mechanical sequences of operation (SOOs).Conduct technical reviews of:CFD and thermal modelsMechanical system redundancy and failure scenariosEquipment submittals (chillers, pumps, CDUs, CRAHs, heat exchangers)Evaluate and integrate new technologies, vendors, and products to improve performance, cost, and scalability.Develop engineering guidelines, templates, and specifications to support rapid and consistent deployment.Project Delivery & Execution SupportPartner with design, construction, and commissioning teams to ensure mechanical systems are executed in alignment with design intent.Review construction documents, RFIs, and submittals to identify risks and ensure quality delivery.Support on-site validation and commissioning, including performance testing under load conditions.Provide technical leadership across the full lifecycle:Concept and site due diligenceDetailed design and procurementConstruction and commissioningTurnover to operationsCollaborate with controls teams on BAS, PLC, and system integration strategies.Vendor & Cross-Functional LeadershipLead technical engagement with OEMs and vendors for cooling systems, packaged skids, and modular plant solutions.Support procurement in equipment selection, standardization, and cost optimization.Coordinate across internal stakeholders including development, construction, operations, and capacity planning.Capture and implement lessons learned from project execution to continuously improve standards and delivery.Operational & Continuous Improvement FocusSupport Operations teams in optimizing system performance, reliability, and maintainability.Balance CAPEX vs. OPEX considerations through value engineering and lifecycle analysis.Develop tools and metrics to track cooling system performance and efficiency across the fleet.Education/Training/ExperienceBachelor’s degree in Mechanical Engineering (Master’s preferred).10–15+ years of experience in mechanical engineering within data centers or mission-critical facilities.Deep expertise in:Hydronic systems (chilled water, condenser water, pumping, distribution)Direct-to-chip liquid cooling and CDU systemsCentral utility plants and cooling infrastructureAir Management and CFD modelingStrong understanding of HVAC systems (CRAHs, chillers, cooling towers, pumps, heat exchangers).Experience developing OPR, BoD, and design standards and guide specifications.Proven ability to review construction documents, submittals, and commissioning processes.Knowledge of ASHRAE standards, building codes, and mission-critical redundancy design.Preferred QualificationsProfessional Engineer (PE) license.Experience supporting AI/HPC or high-density environments.Proficiency with CFD modeling and thermal analysis tools.Working knowledge of BAS, PLCs, and controls integration as applied to data center mechanical systems.Experience with modular/prefabricated data center delivery models.Exposure to global or multi-site deployments.