The Energy Is The New Real Estate · U.S. Patent 9,920,648 B2

Energy Is
The New
Real Estate.

Portable 20 MW Power Generation Solutions Through Jet Engines

The modern world demands instant, high-density, and reliable energy. At PTE — Portable Turbines Energy — we overcome the greatest global energy challenges: grid instability, high operating costs, and the urgency of decarbonization. Our aero-derivative turbine systems deliver continuous, stable, high-efficiency power for critical infrastructure where failure is simply not an option. With a plug-and-play architecture encapsulated in standard 20 and 40-foot container modules, we offer a minimal footprint without sacrificing power — mobilized and commissioned in hours, reaching full output in under 10 minutes, with fuel flexibility from natural gas and diesel to 100% green hydrogen.

Request a Free Energy Audit View Technical Specifications
20 MW
Output Capacity
<10 min
Full Power Response
24 hrs
Deployment Time
−40°/+60°
Operating Range
Welcome to PTE Power

Powering the Infrastructure of Tomorrow

Continuous, Stable & High-Efficiency Power Generation

PTE Power turbines provide continuous, stable, and high-efficiency power generation for critical infrastructure. Their modular design enables flexible integration into data centers, industrial facilities, and distributed energy systems, serving markets that demand uninterrupted, high-density energy on demand.

Built with high-performance components and an architecture designed for 24/7 operation, PTE Power solutions reduce energy risks, optimize operating costs, and ensure continuity for systems where power failure is not an option.

Certified Green Energy Source · U.S. Patent No. 9,920,648 B2
PTE Power turbine module encapsulated inside a standard container — 20 MW capacity
Turbine Module · Operational · 20 MW Capacity
Key Competitive Advantages

Built for environments where failure is not an option

01

Deployed in Under 24 Hours

Mobilization and installation in less than 24 hours for mobile configurations, drastically accelerating project timelines. Full operational output reached in under 10 minutes from startup — delivering critical power exactly when and where it is needed.

Industrial crane deploying a PTE Power container module on site
02

Significant kWh Cost Reduction

Achieve significant reductions in your cost per kWh versus conventional diesel generators, thanks to the superior thermodynamic efficiency of our aviation-grade turbine engines.

PTE Power generation facility showing cost-efficient turbine operations
03

Proven from −40°C to +60°C

Systems designed with advanced multi-layer air filtration and tested to operate without interruption under extreme temperatures, in any environment on earth.

PTE Power turbine operating under extreme desert heat conditions
04

24/7 IoT Monitoring & AI Prediction

Real-time IoT monitoring and AI algorithms predict failures before they occur, minimizing downtime and protecting operational continuity.

Two engineers monitoring PTE Power systems using IoT and AI dashboards
Industries & Applications

Where PTE Power makes the difference

PTE Power turbine module supplying a data center facility Data Centers
01 / Application

Data Centers

Our industrial turbines provide a reliable and fast-response power solution for modern data centers, ensuring continuous 24/7 operation. With rapid start-up, high efficiency, and seamless integration with UPS and microgrid systems, they reduce downtime risk, enhance energy resilience, and deliver stable power for critical digital infrastructure.

PTE Power unit deployed in a disaster-affected area Disaster Zone
02 / Application

Disaster Zone

Our industrial turbines deliver immediate, reliable power in disaster-affected areas where energy infrastructure has been damaged or completely lost. Designed for rapid deployment and flexible autonomous operation, they support emergency services, medical facilities, and communications — enabling fast recovery in the most demanding conditions.

PTE Power system powering a remote military installation Military Camps
03 / Application

Military Camps

Our industrial turbines provide secure, reliable power for military installations operating in remote or high-risk environments. Engineered for rapid deployment, easy transportation, and autonomous operation, they ensure stable energy for mission-critical systems, communications, and infrastructure supporting operational performance in mobile and temporary bases.

PTE Power multi-unit grid solution in the field Grid Solution
04 / Application

Grid Solution

Our industrial turbines enable the rapid creation of reliable electrical infrastructure in areas where grid access is limited or nonexistent. Designed for scalability and continuous operation, they generate stable power for industrial, commercial, and critical facilities — allowing communities and projects to establish independent, resilient energy systems with fast deployment and long-term reliability.

PTE Power module being deployed at a commercial port Ports
05 / Application

Ports

Our industrial turbines provide reliable and scalable power for commercial ports with high and continuous energy demand. Designed for rapid deployment and flexible operation, they support port infrastructure, logistics systems, and critical services — ensuring operational continuity, energy independence, and efficient power generation in dynamic maritime environments.

PTE Power powering a digital hub facility Digital Hubs
06 / Application

Digital Hubs

Digital hubs are the backbone of modern connectivity, hosting mission-critical systems that demand high availability, power stability, and continuous operation. Reliable and resilient energy generation is essential to support data processing, cloud services, and global communications — ensuring uninterrupted performance, scalability, and long-term operational continuity.

Power Where Reliability Matters

Powering The World,
One Solution At A Time

When it comes to aircraft propulsion adapted for industrial power generation, two primary turbine types define our technology: turbojet-derived and turbofan-derived engines. While both share core thermodynamic principles, their performance profiles make them suited for different operational contexts.

Turbojet-derived engines offer a straightforward architecture — compressor, combustion chamber, and turbine in series. The compressor draws in air, pressurizes it, and feeds it into the combustion chamber where fuel ignites. The resulting expanding gases drive the turbine, which simultaneously powers the compressor and generates mechanical output. This design excels at sustained high-load operation with minimal mechanical complexity.

Turbofan-derived engines add a large-diameter fan stage at the intake, bypassing a significant volume of air around the core. This bypass airflow generates additional thrust while substantially improving thermal efficiency and reducing specific fuel consumption — making turbofans quieter, more economical, and better suited for variable-load environments such as microgrids and hybrid energy systems.

PTE Power engineers inspecting a turbine installation
PTE Power aero-derivative turbine engine cross-section Aero-Derivative Engine

Get In Touch

Let's Talk
Power.

Ready to deploy 20 MW anywhere on Earth? Our team is available to answer your questions and design a solution for your specific needs.

Address
1428 Pearman Dairy Road
Anderson, SC 29695
Phone
646-350-3999
Hours
Mon – Fri   9:00 AM – 5:00 PM