Pioneering Sustainable Power

Sustainable Solutions for Your Energy Needs

Green Tech Powerplant delivers the future of clean, local energy through Kinetic Power Plant (KPP) technology. Unlike solar and wind, KPP provides stable, 24/7 power with nearly 100% capacity factor, minimal land use, and zero emissions. Based on Archimedes’ principle, compressed air lifts floaters that drive advanced Rosch generators, converting kinetic energy into reliable electricity.

Our modular systems start at 200 kW and can be scaled without upper limits, always equipped with built-in reserve for redundancy. Customers benefit from predictable long-term power costs – with fixed-price agreements and no grid fees – while contributing to the green shift with a solution that is both space-efficient and cost-efficient.

Together with leading partners, we ensure professional installation, maintenance, and financing options, making KPP the most effective local energy alternative on the market.

Green Tech Powerplant – sustainable energy, delivered where it matters most.

Example KIP's

1. Technical Infrastructure
KPP provides a future-proof backbone for the building’s energy supply:
Baseload capacity: 1 MW KPP produces ~8.76 GWh annually, enough to cover the building’s full electricity needs (offices + heating) plus charging of 300 EVs.
Integration with heat pumps: Powers modern high-efficiency heat pumps, replacing the outdated hydronic system and cutting heating costs by 60–70%.
Scalable & robust: Modular design with (200 kW units, 1 MW = 300 m²) ensures flexibility for future growth. 40-year lifespan with >30% redundancy guarantees operational reliability.
Controllable: Unlike wind or solar, KPP production is fully dispatchable to match demand.
Outcome: A modernized, resilient energy infrastructure that reduces OPEX and secures energy independence for decades.
2. Space Efficiency
The project demands maximum energy performance with minimal use of building area:
Compact footprint: A 1 MW KPP requires only 300 m² (~3.3% of total building area).
Energy density:
KPP = 1,006 kWh/m²/year
Wind = ~355 kWh/m²/year
Solar (Norway) = 117–120 kWh/m²/year
KPP is 800% more area-efficient than solar and several times more efficient than wind.
Building-friendly: Units can be integrated into existing technical rooms or adjacent sites without disturbing architectural or functional design.
Outcome: The building gains the highest possible energy density per square meter, maximizing usable space for tenants and operations.
3. Energy Efficiency (ENØK)
KPP aligns directly with Enova’s goals for energy optimization:
Cost savings: Eliminates reliance on volatile spot prices, reducing electricity costs by ~16 MNOK annually compared to electricity from the grid.
Dynamic load management:
Energy Management System (EMS) ensures smart balancing between building consumption, heat pumps, and EV charging.
Surplus utilization: Excess electricity can be sold locally or to the grid.
Climate impact: Zero emissions, 40-year lifetime, and significant CO₂ reductions.
Outcome: Meets Enova’s funding criteria while reducing energy use and generating new revenue streams from surplus electricity.

1 MW Kinetic Power Plant positions a renovation project as a national flagship for sustainable energy innovation.

Technical Infrastructure: Delivers robust, scalable, and controllable baseload supply.
Space Efficiency: 300 m² footprint ensures maximum area utilization.
ENØK: Significant energy cost reduction, Enova alignment, and revenue potential from surplus.

With 40 years of operation, stable production, and strong financial ROI, KPP offers a future-ready, independent, and green energy ecosystem that meets all project KPIs and sets a replicable standard for municipalities across Norway and Europe.

Technical Infrastructure – Modernizing the Backbone

Technical Infrastructure – Modernizing the Backbonem Areal Efficiency, ENØK Measures, Financial & Strategic Strength and Strategic Impact

KPP-driven modernization:
Install 1 MW KPP plant (300 m² footprint) as primary baseload supply.
Delivers 8,76 GWh/year, covering:

Office building operations, Factory machines, Heat pump system for heating/cooling, EV charging .

Smart EMS (Energy Management System) balances loads between building, machines, heating, and EVs.

Key value:
- Stable baseload avoids grid dependency.
- Modular scaling → e.g., 200 kW add-on modules (60 m² each) if demand grows.
- Lifecycle: 40+ years → far longer than solar/wind

- Only 60 m2 pr 200KW/1.75GW pr år

With a 300 m² footprint for a MW, KPP is more than 800% efficient per m² than solar. It is energy efficient, compact, environmental and urban-friendly.

We have the backing from Rosch and Green Planet investors.

We provide a bank guarantee for the project.

40-year life spreads risk, with more than 2 decades of zero-CAPEX production after amortization it purchased. If you choose to purchase electricity, you can buy the plant for a small value based on the rest value/time.

We help you create a business case comparing this with alternatives in the market using the available values from you or the statistic central bureau and online sources.

The green alternative aligned with the green shift

In Norway you have the opportunty to align with ENØK that supports the green shift in different ways

ENØK Measures – Efficiency & Enova Alignment
KPP-driven ENØK framework:

* Zero emission power plant
* Offloading the public grid
* Continuous baseload supply
* Eliminates expensive peak-hour grid purchases.
* Reduces demand charges by 20–40%.
* High-efficiency heating
* KPP electricity can power advanced heat pumps in order to increase the energy density. Cuts heating demand by 60–70% vs. direct hydronic electricity.
* Load analytics & optimization
* EMS forecasts building load (weather, occupancy, EV demand).
* Power all electric factory machines and tools
* Sell excess electricity at beneficial prices to the grid or local partners.
* Industrial synergies

This positions your company as net producer of green power.