Our Services

Engineering, delivering and operating integrated energy infrastructure

Planning

Turning energy transition plans into executable projects

✔ Energy infrastructure and electrification roadmapping
✔ Grid capacity and utility interface preparation
✔ CAPEX definition and investment decision support
✔ Permitting and regulatory pathway preparation

  • From planning to execution readiness

    At PWRloop, planning starts from an execution mindset.

    We identify technical, grid, regulatory and investment constraints early, allowing projects to move forward without delays or costly redesigns.

    Our role is to bridge the gap between ambition and execution.
    Rather than delivering theoretical studies, we prepare projects so they can move directly into engineering, procurement and construction.

    We typically support clients when they are:

    • Preparing major electrification investments
    • Facing grid connection or capacity challenges
    • Evaluating multi-technology energy infrastructure options
    • Moving from concept or feasibility into execution preparation

    Planning is often the first phase of a broader delivery journey, enabling a seamless transition into EPC execution when required.

  • Example: Preparing a Large-Scale Heat Electrification Project for Execution

    A logistics site plans to replace gas heating with industrial heat pumps to reduce emissions and future-proof operations.
    While the ambition is clear, early analysis shows potential grid capacity constraints and space limitations for new technical installations.

    At PWRloop, we approach planning from an execution perspective.

    Instead of focusing only on technology selection, we assess the full project feasibility early, including grid interface requirements, electrical infrastructure impact, phasing constraints and permitting considerations.

    By identifying these constraints early, the client avoids costly redesigns later in the project and can move forward with a realistic implementation roadmap.

    Execution-ready outcome:
    The project moves forward with a validated grid connection strategy, defined technical concept and CAPEX clarity, enabling a seamless transition into engineering and EPC delivery.

    Example: Preparing a Site for Future Electrified Fleet Charging

    A distribution center plans to electrify its truck fleet in phases over the coming years.

    PWRloop supports early grid capacity evaluation, infrastructure phasing design and long-term connection strategy, ensuring the site can scale charging capacity without repeated infrastructure upgrades.

Delivery

Engineering and building energy infrastructure that performs from day one

Electrical infrastructure upgrades ( HS / MS / LV )
 Thermal electrification projects ( heat pumps and electrical heating systems )
 Energy efficiency and optimisation through EMS and BMS installation
 Energy systems implementation ( PV, BESS, EV & ET )
 EPC-based contractor execution and commissioning responsibility

  • From engineering design to project delivery

    At PWRloop, delivery is led from a technical and engineering perspective.

    We take responsibility for translating energy transition ambitions into built, operational infrastructure. From detailed engineering and technical integration to construction execution and commissioning, projects are delivered safely, reliably and according to performance expectations.

    Our approach is focused on reducing execution risk for clients.
    We act as a single technical delivery partner, ensuring alignment between design, construction and operational performance from day one.

    We are typically involved in projects where:

    • Electrical infrastructure upgrades are required (HS / MS / LV)
    • Thermal electrification systems are implemented (heat pumps, electric heating systems)
    • On-site energy systems are deployed (PV, battery storage, EV charging, energy optimisation systems)
    • Multiple technical disciplines must be integrated into one execution-ready project

    Our delivery model ensures technical consistency, clear accountability and predictable project outcomes.

  • Scaling Electrical Infrastructure for Electrification and Future Energy Demand

    Many companies are investing in electrification, EV charging or renewable energy without upgrading their core electrical infrastructure. Without a properly designed and scaled electrical backbone, new energy systems quickly create operational risk, grid constraints or costly retrofits.

    Execution-focused approach:
    PWRloop designs, engineers and delivers electrical infrastructure upgrades that enable electrification and future energy expansion.

    This typically includes upgrading medium- and low-voltage distribution, transformers, protection systems and metering infrastructure, ensuring compatibility with heat pumps, EV charging, battery storage and future load growth.

    We ensure full integration between electrical infrastructure, on-site energy systems and operational processes, delivering infrastructure that is ready for immediate use and future expansion.

    Replacing Gas Heating with Industrial Heat Pump Systems

    Many industrial and logistics sites are transitioning away from fossil-based heating but face technical challenges around integration, grid capacity and system performance.

    Execution-focused approach:
    PWRloop designs and delivers integrated heat pump and thermal electrification systems, including hydraulic integration, electrical upgrades, control system integration and commissioning.

    From detailed engineering through installation and system start-up, we ensure systems operate reliably under real operational conditions and deliver the expected energy and cost performance.

    Where required, we also integrate buffer storage, EMS control and grid infrastructure upgrades to ensure stable operation and long-term performance.

Performance

Making energy assets perfrom smarter over time

Self-consumption optimisation and load orchestration
 Energy performance optimisation through EMS and control systems
 Optional participation in energy and flexibility markets
 Continuous performance monitoring and optimisation

  • Optimising energy assets for long-term operational performance

    At PWRloop, performance means making sure installed energy infrastructure keeps delivering real value over time.

    We use EMS platforms, control system integration and operational optimisation to improve self-consumption, reduce peak loads and increase overall energy efficiency across sites.

    The focus is on how systems actually perform in daily operation. Not just how they were designed to perform on paper.

    Our performance support typically includes:

    • EMS-driven optimisation of energy consumption and load behaviour
    • Self-consumption optimisation between on-site generation, storage and demand
    • Continuous monitoring and improvement of installed energy systems
    • Where relevant, integration with flexibility or energy markets when this makes economic sense

    Performance is not treated as a separate service. It is a natural continuation of delivery, making sure installed infrastructure keeps creating value after commissioning.

  • Getting More Value from Installed Energy Systems

    Many industrial sites already have energy assets installed, but these are often not operating at their full potential.

    In one project, a site had installed backup generation and battery capacity mainly for security of supply. By integrating these assets into the site EMS and optimising load behaviour, the site was able to reduce peak power costs and improve overall energy efficiency without additional hardware investments.

    The main value came from smarter operation, not new equipment.

    Improving Solar Self-Consumption and Site Energy Balance

    At another site, significant solar production was regularly exported to the grid while the facility still imported power during other periods.

    By adjusting control logic, integrating storage operation and optimising load scheduling, self-consumption increased significantly and energy cost exposure was reduced.

    In this case, performance optimisation created value through better system coordination rather than new infrastructure.

Operations

Operating and improving your energy infrastructure over time

Energy asset perfromance monitoring and optimisation
EMS service contracts and continuous system tuning
Technical lifecycle support of installed energy systems
Performance reporting and improvement recommendations

  • Reliable Operation of Installed Energy Infrastructure

    Energy infrastructure only creates value if it performs reliably over time.

    At PWRloop, operations focus on keeping installed energy systems running safely, efficiently and in line with expected performance levels. This includes continuous monitoring, EMS tuning, preventive maintenance coordination and performance optimisation based on real operational data.

    Our goal is simple: ensure that installed infrastructure keeps delivering technical and financial value throughout its lifetime.

    We typically support clients after project delivery by:

    • Monitoring system performance and identifying optimisation opportunities
    • Maintaining and updating EMS control strategies as site conditions evolve
    • Supporting technical lifecycle management of energy infrastructure
    • Providing performance reporting and concrete improvement recommendations

    As sites evolve, new loads, assets and operating patterns emerge. We help adapt control logic, operating strategies and system integration to keep performance aligned with business needs.

    Operations is not a separate service.
    It is a natural continuation of delivery, ensuring long-term asset performance and predictable operating costs.

  • Continuous Improvement of Building & Energy Control Systems

    Many clients start with a first layer of energy monitoring and control to gain visibility on consumption, peak loads and asset behaviour.

    In a first phase, PWRloop typically implements an initial EMS layer to centralise data, monitor performance and enable basic optimisation strategies.

    As regulatory requirements evolve, we support clients in upgrading their control infrastructure.
    For example, in the context of BACS requirements, we implement the necessary upgrades at both EMS and BMS level to ensure compliance while improving operational control of technical installations.

    After implementation, our role shifts to long-term performance support.
    Through yearly or periodic performance reviews, we identify optimisation opportunities based on real operational data, site evolution and changing energy pricing conditions.

    Where relevant, we also implement the proposed improvement measures, ensuring that system performance continues to improve over time.

    This approach allows clients to remain compliant, reduce operational energy costs and extend the lifetime value of their installed energy infrastructure.

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