JERT is an infrastructure network combining energy production, AI compute capacity and LNG cold energy recovery into a distributed system of autonomous compute islands.
Each JERT node is designed as a mobile infrastructure unit capable of operating independently from traditional data center energy systems.
Each JERT DC Island consists of two containers:
20 ft Compute Container
40 ft LNG Energy Container
The compute container hosts GPU infrastructure with approximately 300 kW compute load.
The energy container includes a 20 ton LNG cryogenic tank, methane genset, BTU cold recovery system and heat recovery loop.
Total thermal output of one island is approximately 550 kW.
Each compute island uses LNG as primary energy source.
Typical LNG consumption: ~60 kg per hour
With a 20 ton cryogenic storage tank the system can operate autonomously for more than 10 days without external power supply.
LNG regasification releases cryogenic energy at temperatures near −162°C.
Most LNG terminals waste this energy during regasification.
JERT infrastructure captures this cold energy and converts it into useful cooling capacity for compute infrastructure, refrigeration and industrial cold storage.
Each compute island contains GPU infrastructure designed for AI inference and HPC workloads.
Typical configuration:
10 GPU servers
40 GPUs total
Mixed GPU architecture allows the system to support both large AI models and high-efficiency inference workloads.
JERT token is used as the settlement unit of the infrastructure network.
Instead of speculative token trading the system operates through infrastructure access units.
Three core units exist:
Cold Energy
Compute Capacity
SLA Infrastructure
Typical DC Island capital cost:
$4M – $5M
Revenue sources include:
AI compute services
SLA infrastructure contracts
heat recovery sales
Estimated payback period: 3–5 years.
The JERT network follows the Eurasian Middle Corridor connecting China, Central Asia and Europe.
Each node replicates the Aktobe infrastructure model combining LNG terminals, compute nodes and cold energy recovery.
JERT strategy prioritizes ownership of physical infrastructure rather than leased logistics capacity.
Nodes are intended to include fully owned small-scale LNG terminals, cryogenic storage, compute infrastructure and logistics yards.
This ensures long-term stability and independence of the network.
The infrastructure network is designed to expand across the entire Eurasian corridor including:
China
Kazakhstan
Caucasus region
Romania
European Union
Switzerland
Each region will host infrastructure nodes built on the same energy-compute architecture.
JERT creates a distributed network of autonomous energy-powered compute infrastructure.
By combining LNG cold energy, AI compute and logistics infrastructure the system forms a new class of energy-compute networks across Eurasia.