Our Services

Energy Strategy

Energy audit
E2E Energy planning
Business case building
CAPEX planning

  • Energy Strategy: Smart Decisions for a Resilient Future

    Energy choices impact not just today but the years ahead. With PWRloop’s Energy Strategy, we take a long-term view on the whole site, helping businesses make well-informed, future-proof decisions that avoid costly mistakes down the line. Our approach starts from an end-to-end scan of locations, contracts, energy sources and consumers. We map out a long-term energy future, leading to no-regret investments. Rather than focusing only on the next step, we look ahead to ensure decisions made today remain relevant in the future. By considering market developments, regulatory changes, and technological advancements, we help you build an energy strategy that is both adaptable and financially sound.

    Our approach includes:

    • Energy Audit – A thorough review of your energy consumption, contracts, and costs to establish a clear baseline.

    • End-to-End Energy Planning – A structured analysis of your energy portfolio, exploring opportunities for efficiency, sustainability, and resilience.

    • Business Case Development – Scenario modeling to assess the financial and operational impact of different energy investments.

    • CAPEX Planning – Guidance on strategic investments that align with your long-term energy goals.

  • Optimizing Heat Pump Investments for a Sustainable Future

    A warehouse owner plans to transition to carbon-free heating with an industrial heat pump, incorporating a small buffer to minimize start-stop cycles. While the initial business case appears unfavorable, looking ahead reveals new opportunities.

    A future-proof approach: Industrial heat pumps can participate in energy markets, generating additional revenue. By increasing the buffer size, the owner can unlock flexibility potential and improve profitability through aFRR or mFRR market participation. Strategic adjustments today can turn a challenging investment into a financially viable and future-ready solution.

    Future-Proofing Energy Storage for E-Truck Charging
    A site owner plans to install a 250 kWh battery energy storage system (BESS) to optimize self-consumption of solar power. While this meets current needs, future developments should be considered.
    A future-proof approach: With e-truck charging on the horizon, securing a larger grid connection may be challenging. Investing in a larger BESS from the start can help accommodate future charging demand. In the meantime, excess capacity can generate additional revenue through energy market participation, ensuring both flexibility and financial returns.

Installation

Feasibility & Site integration
 Tender & selection
 Project management
Commissioning
 Scalability

  • Installation: Integration of Smart & Clean energy assets

    ​Integrating advanced energy infrastructure in commercial and industrial buildings comes with significant challenges. Extensive upgrades - such as Battery Energy Storage, Heat Pumps, EV & Truck charging, and solar integration - require careful coordination to avoid disruptions to operations, unforeseen costs, and technical bottlenecks making it crucial to have an expert partner managing the entire process. At PWRloop, we guide businesses with structured project management to ensure that energy investments are not only strategically sound but also executed with minimal risk and maximum efficiency.

    We take a holistic approach, aligning each installation, to ensure a resilient and profitable energy transition – without the risk of stranded assets.

    Our approach includes:​

    • Technical Feasibility & Site Integration – Assessing load profiles, infrastructure constraints, and compatibility to determine the most efficient and scalable solutions.

    • Tender & Selection – Running a structured procurement process to identify the best-fit technologies, suppliers, and partners for your project.

    • Project Management & Commissioning – Overseeing the full implementation process, from planning and execution to system validation, ensuring on-time and successful deployment.

    • Scalability & Future Readiness – Designing installations that can expand over time, supporting the growth of your business in line with your energy strategy.

  • Scaling Electrical Infrastructure for Future Energy Demands

    Many companies investing in renewable energy, EV charging, or electrified heating fail to consider their site’s long-term power needs. Without an upgraded electrical backbone, future expansions may become costly and inefficient.

    A future-proof approach: We conduct a full electrical audit, identifying bottlenecks and forecasting future demand. Redesigning and scaling the electrical distribution, upgrading transformers, switchgear, and metering to accommodate future energy consumers such as industrial heat pumps, expanded EV charging, or additional BESS capacity. By taking a long-term approach, businesses can implement new technologies without major disruptions or costly retrofits in the future.

    Replacing Gas Heating with a High-Capacity Heat Pump Network

    A warehouse owner wanted to replace their outdated gas heating system to improve their energy efficiency and unlock sustainability potential. Implementing a high-capacity heat pump system with an extensive piping network demands expertise in managing timelines, stakeholder expectations, and technical constraints.

    A future-proof approach: With unique expertise in natural refrigerants (GWP 1) and large-scale heat pump transitions, we manage procurement, contractor coordination, and commissioning. Our structured approach ensures efficient implementation without impacting daily operations. Additionally, we manage all grid connection upgrades and system integrations, ensuring businesses can maximize energy efficiency and leverage dynamic pricing opportunities.

Valorization

Opportunity evaluation
 Feasibility study
 BSP/FSP selection
 Asset preparation
 Administration & settlement

  • Valorization: untap monetization potential of your assets

    Industrial and tertiary energy consumers can do more than just consume energy—they can earn from it. PWRloop helps businesses navigate the complexities of energy markets and assess whether and how they can generate financial value from their energy infrastructure. We guide our clients through the entire process: from identifying opportunities and conducting feasibility studies to selecting the right flexibility service provider (BSP/FSP), preparing assets, and setting up the administrative and financial settlement. With our deep expertise in electricity markets and flexibility, we help businesses not only make strategic decisions but also ensure smooth operational implementation. This allows them to maximize the value of their flexibility with minimal impact on their core processes. We can support with respect to balancing markets, energy sharing, energy communities etc.

    Our approach includes:

    • Opportunity evaluation & feasibility analysis – scan the site and evaluate possibilities

    • BSP/FSP selection – find the right partner to monetize your assets

    • Asset preparation – make sure your assets are fit for purpose

    • Administration & settlement – tackle invoicing flows, hand in unavailabilities etc.

  • Unlocking Hidden Value in Backup Power

    During a flexibility scan, PWRloop identified an untapped opportunity: a warehouse owner's backup generator had been sitting idle for years. An initial assessment revealed that this 1MW generator could generate up to €150,000 per year on aFRR markets. PWRloop supports clients in understanding energy markets and their implications, engaging with market players to unlock value, arranging all necessary contracts, and handling settlement and billing—ensuring a seamless and profitable integration into flexibility markets.

    Turning Solar Curtailment into Profit
    During an energy strategy exercise, PWRloop uncovered a major inefficiency: a client had been injecting solar power into the grid at negative prices for an extended period, effectively paying to produce energy. An initial assessment showed that by actively managing curtailment, the client could avoid unnecessary losses and even generate additional value through optimized market participation. PWRloop helps clients understand the financial and operational impact of curtailment, identify market opportunities, engage with the right market parties, and set up the necessary contracts, settlement, and billing—ensuring that every kilowatt works in their favor.

Operation

EMS
Algorithmic optimization
Administration & settlement
PPA establishment

  • Smart Energy Operations: Seamless Control & Financial Optimization

    Managing a site with multiple energy systems - such as solar panels, EV chargers, heat pumps, and battery storage - can be challenging. Without proper coordination, energy is wasted, costs fluctuate, and grid limitations can restrict operations.

    At the same time, Power Purchase Agreements (PPAs) offer a way to secure renewable energy at competitive prices, but handling contracts, financial settlements, and reporting can be complex. PWRloop acts as your external energy department, optimizing energy flows while managing all administrative and financial aspects of your PPA - so you can focus on your core business.

    Our Approach Includes:

    • Energy Management System (EMS) – Integrating a smart platform that monitors and optimizes energy flows across your site, ensuring all assets work together efficiently.

    • Algorithmic Optimization – Data-driven automation for cost-effective energy use.

    • Administration & Settlement – We handle all financial transactions, reporting, and compliance, ensuring smooth energy operations without administrative burdens.

    • Power Purchase Agreement  – From contract negotiation to invoicing, we manage your renewable energy agreements, securing the best terms and ensuring correct settlements.

  • Enhancing energy efficiency for a logistics site

    A logistics site equipped with solar panels and heat pumps struggled with energy inefficiencies. Excess solar power was often lost, and peak electricity consumption led to high costs. The challenge was to improve self-consumption, reduce grid dependence, and optimize overall energy flows.

    A future-proof approach: Integrating a Battery Energy Storage System (BESS) alongside an Energy Management System (EMS) allows for smarter energy use. The BESS stores surplus solar power for later use, reducing waste and peak charges. Meanwhile, the EMS ensures that the heat pump operates when electricity prices are lowest and dynamically manages energy flows to prevent grid overloads. This intelligent coordination not only cuts costs but also future-proofs the site for further electrification.

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