We are redefining how advanced turbomachinery is designed, validated, and scaled — turning engineering into a cumulative, accelerating process.
Starting with e-pumps.
70%
Less time
hardware delivery
30%
Lower cost
vs. standard turbopumps
300+
Validated
test points
The Problem with Advanced Turbomachinery
Project-Based Development
Engineering effort is repeated for each new system.
Long Development Cycles
Up to 12–18 months to deliver hardware.
No Knowledge Compounding
Critical know-how is fragmented and not reusable.
Scaling Advanced Hardware Across Industries
Next-generation space, mobility and hydrogen systems depend on high-performance turbomachinery. DBSpace builds the engineering compounding capability to develop, validate, and scale it faster.
Engineering Turbomachinery, Reimagined
From architecture reuse to engineering compounding, DBSpace transforms turbomachinery development into a scalable, high-performance process.
Next-Generation Electric Pumps
High-performance e-pump architectures for space, hydrogen, and mobility applications.
Engineering Compounding Platform
Each design, simulation, prototype, and test improves the next product iteration.
Scalable & Reusable Architectures
Validated architectures are adapted across applications instead of restarted from scratch.
Accelerated Hardware Development
Integrated design, simulation, rapid prototyping and testing reduce development time.
Flexible Commercial & Deployment Models
From prototype validation to product supply, DBSpace adapts commercial models — including unit sales, services, and Hardware-as-a-Service — to each application and lifecycle requirement.
High-Performance E-Pumps
Five e-pump families built on reusable architectures for space and terrestrial applications.
#1 Gear
FUEL
STORABLE & COOLANT
PRESSURE RISE
10 – 40 bar
MASSFLOW RATE
10 – 300 g/s
#2 MICRO
FUEL
COOLANT
PRESSURE RISE
5 – 15 bar
MASSFLOW RATE
50 – 350 g/s
#3 MINI
FUEL
STORABLE
PRESSURE RISE
15 – 75 bar
MASSFLOW RATE
0.2 – 2.5 kg/s
#4 CORE
FUEL
STORABLE & CRYOGENIC
PRESSURE RISE
up to 100 bar
MASSFLOW RATE
1 – 5 kg/s
#5 MAXI
FUEL
STORABLE & CRYOGENIC
PRESSURE RISE
up to 100 bar
MASSFLOW RATE
2 – 10 kg/s
Cognix Turbo Platform
The engineering foundation behind our scalable e-pumps.
Our proprietary engineering platform transforms turbomachinery development into a continuous learning system. Each design, simulation, prototype, and test campaign improves the architectures, machine performance, model accuracy, and development speed.
- Architecture-based design reuse
- Design–simulation–test learning loops
- Validated model updates
- Knowledge continuously embedded into future architectures
Scaling E-Pumps Across Industries
One platform. Multiple e-pump architectures. Across space, mobility, and hydrogen.
From launch systems and in-orbit infrastructure to hydrogen and advanced mobility, DBSpace adapts reusable e-pump architectures across demanding applications.
Sustainable Launches
In-Space Multi-missions
In-Orbit Refueling
In-Orbit Data Centers & HPC
Sustainable Mobility & Energy
5
E-pump prototypes validated
2
Proprietary test benches
BACKED BY
300+
Validated test points
Let’s Build the Next Generation of Turbomachinery
Looking for high-performance e-pumps, scalable turbomachinery architectures, or industrial partnerships?