Энергоснабжение, которое не требует никакой сопроводительной сети
ТОПАЗ успешно решает задачи по автономному электропитанию
Power Supply for Cellular and Radio Communication Sites, and Data Transmission Systems in Remote Areas
Robust Backup Power Systems Unaffected by Weather Conditions
Power Supply Systems for Surveillance and Perimeter Security Infrastructure
Applications in the Oil and Gas Industry: Cathodic Protection Stations, SCADA and Measurement Equipment, Reagent Injection Pumps, and Valve Activation
Power Supply for Surveillance Systems (Including Tower and Route Lighting) for Remote Monitoring of Critical Infrastructure/Sensitive Facilities and Hard-to-Reach Areas During Construction and Operation
Power Supply for Meteorological Stations (Including Weather Monitoring, Flood Situations, and Wildfire Detection)
Power Supply for Emergency Communication and Heating Stations on Regional and Local Highways
Mobile Power Stations «Field Power Hub» - for Outdoor Tourism, Expeditions and Rescue Operations
Power Supply Systems for Mobile Electric Transport and Robotics
ТОПАЗ TOPAZ
ТОПАЗ TOPAZ
ТОПАЗ TOPAZ
ТОПАЗ TOPAZ
INTEGRATED SOLUTIONS
FOR AUTONOMOUS POWER SUPPLY
Courses & Training: Laboratory Educational Kits and Training Courses for New Energy studies
The operating principle of a fuel cell involves the direct conversion of the energy from a chemical reaction between a fuel and an oxidant (oxygen from the air) into electrical energy, bypassing intermediate conversions into thermal and mechanical energy.
An SOFC consists of an anode and a cathode - gas-permeable electrodes separated by a gas-tight ceramic electrolyte. Syngas (H₂ + CO), produced from the primary fuel (e.g., natural gas) in a catalytic reactor integrated into the electrochemical generator, is supplied to the anode. An oxidant (oxygen from the air) is supplied to the cathode. Oxygen ions (O²⁻) migrate from the cathode side to the anode through the ion-conducting electrolyte layer. As a result of the oxidation reaction of the syngas at the anode, water and carbon dioxide are produced.
Solid Oxide Fuel Cells (SOFCs) offer high efficiency and can operate not only on hydrogen but also on hydrocarbon-based fuels.
TECHNOLOGY TECHNOLOGY TECHNOLOGY
SOFC
Afterburner
Fuel SOFC stack
Fuel processing unit
Power generator modules can be produced in capacities from 30 W up to 1 kW.
Syngas
Air
Functional Cathode Layer
Buffer Layer
Microtubular SOFC
Electrolyte
Current-Collecting Cathode
Functional Anode Layer
Supporting Anode
Products
Topaz – GAMMA
M 400
M 400
Modular Stationary Power Unit
Rated Electrical Output (per module):
at least 300 W
Primary Fuel: Natural Gas / Propane-Butane; Diesel / Gasoline – optional
Weight: 30 kg
Operating Temperature Range:
–50 to +50 °C
In Development
Rated Electrical Output (per module):
at least 300 W
Primary Fuel: Natural Gas / Propane-Butane; Diesel / Gasoline – optional
Weight: 30 kg
Operating Temperature Range:
–50 to +50 °C
In Development
Topaz – GAMMA
M 2000
M 2000
Modular Stationary Power Unit
Rated Electrical Output: up to 2 kW
Primary Fuel: Natural Gas / Propane-Butane; Diesel / Gasoline – optional
Operating Temperature Range:
–50 to +50 °C
In Development
Rated Electrical Output: up to 2 kW
Primary Fuel: Natural Gas / Propane-Butane; Diesel / Gasoline – optional
Operating Temperature Range:
–50 to +50 °C
In Development
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High Efficiency
High Energy Density
Resilience to Harsh Climate Conditions
Stability
The electrical efficiency of SOFCs is at least twice that of conventional engine-driven generator systems.
The generator internally reforms organic fuel into syngas, enabling highly efficient power generation. It can also run on pure hydrogen for zero-emission operation. When using liquid fuel, the system achieves a record-breaking specific energy density of up to 3,000 Wh/kg—more than 10 times higher than lithium-ion batteries of equivalent weight.
The electrochemical reactions in SOFCs generate heat as a byproduct. This heat helps maintain stable operation of the generator's internal components. Additionally, the thermal energy can be utilized to keep user equipment or batteries warm in subzero temperature conditions.
SOFC-based electrochemical generators function as continuous chemical current sources, operating indefinitely with a constant supply of air and fuel.
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Electrochemical generator technology, based on fuel cells, is fully aligned with today's key technological trends
Decentralization
Mobility
Customization
Eco-Friendliness
About the company..About the company..About the company
About Us
- Resident of the Skolkovo Innovation Center and member of the Moscow Innovation Cluster;
- Supported by the National Technology Initiative Fund and the Agency for Strategic Initiatives;
- Winner of the BRICS SOLUTIONS AWARDS 2024 in the «New Industry & Energy» nomination;
- Double Laureate of the 2025 National Award «The Country is Changed by People»:
- For strengthening the nation's talent pool.
TOPAZ Research Center is a unique integration of a pilot production facility and a dedicated R&D division. We specialize in developing cutting-edge technologies for solid oxide fuel cell (SOFC) based electrochemical generators (ECGs).
Our Core Focus
- R&D from Concept to Reality: We conduct both fundamental and applied research to advance ECG technology;
- Pilot and Serial Production: We bridge the gap between lab-scale innovation and commercial manufacturing, producing prototypes and serial products;
- Strategic Collaborations: We partner with leading institutions of the Russian Academy of Sciences (RAS), top-tier technical universities, and federal research centers, including Moscow Institute of Physics and Technology (MIPT), Vyatka State University, the Institute of Solid-State Chemistry and Mechanochemistry SB RAS, and many others;
- Global Commercialization: We focus on the industrial implementation of our technologies and actively seek partnerships in Russia and internationally;
- Protected Intellectual Property: Our robust IP portfolio includes 14 granted patents across Russia, Algeria, and South Africa, 3 trade secrets, and a registered trademark, with an additional 14 patents pending in key global markets.
RELIABILITY - Operation in any climate, anywhere in the world, 24/7;
AUTONOMY - A power supply that is independent of the grid;
SUSTAINABILITY - Zero harmful emissions;
ACCESSIBILITY - Operation using widely readily available fuels.
AUTONOMY - A power supply that is independent of the grid;
SUSTAINABILITY - Zero harmful emissions;
ACCESSIBILITY - Operation using widely readily available fuels.
OUR MISSION
To create a global energy ecosystem where every consumer gains:
Examples of Successfully Implemented Projects
400 W system for automated process control, telemetry, and communications at a gas regulation station
Primary Power Supply System
«Gazprom Transgaz Kazan» (GRP RS-4), LLC
Fuel: Methane
Dimensions (L×H×W): 800 × 1940 × 600 mm
Operating temperature range: –45 to +45 °C
Maintenance interval: 1 year
Dimensions (L×H×W): 800 × 1940 × 600 mm
Operating temperature range: –45 to +45 °C
Maintenance interval: 1 year
ООО «ГАЗПРОМ ТРАНСГАЗ КАЗАНЬ» (ГРП РС-4)
СИСТЕМА ОСНОВНОГО ЭЛЕКТРОПИТАНИЯ
систем АСУ ТП, телеметрии и связи мощностью 400 Вт на газорегуляторном пункте.
Электроустановка Гамма на базе планарных ТОТЭ
Топливо – метан
Габариты (Д х В х Ш) – 800 х 1940 х 600 мм
Диапазон рабочих температур – минус 45 ... +45 °C
Интервал технического обслуживания – 1 год
СИСТЕМА ОСНОВНОГО ЭЛЕКТРОПИТАНИЯ
систем АСУ ТП, телеметрии и связи мощностью 400 Вт на газорегуляторном пункте.
Электроустановка Гамма на базе планарных ТОТЭ
Топливо – метан
Габариты (Д х В х Ш) – 800 х 1940 х 600 мм
Диапазон рабочих температур – минус 45 ... +45 °C
Интервал технического обслуживания – 1 год
Fuel: Methane
Dimensions (L×H×W): 930 × 1840 × 1043 mm
Operating temperature range: –45 to +45 °C
Maintenance interval: 1 year
Dimensions (L×H×W): 930 × 1840 × 1043 mm
Operating temperature range: –45 to +45 °C
Maintenance interval: 1 year
Total output power of 1200 W at valve site KP-251 to provide electrochemical protection for a pipeline section
Primary Power Supply System
«Gazprom Transgaz Kazan» (KP-251), LLC
«Gamma» power unit based on planar solid oxide fuel cells (SOFCs)
«Gamma» power unit based on planar solid oxide fuel cells (SOFCs)
Partners
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Contact Us
«TOPAZ», LLC
Actual address:
Building 1, 4A Zolotorozhsky Val Street
Moscow, 111033
Russia
Legal address:
Office 54, Room 334, Floor 1
Building 1, 42 Bolshoy Boulevard
Skolkovo Innovation Center
Moscow, 121205
Russia
Email: topaz@inenergy.ru
Building 1, 4A Zolotorozhsky Val Street
Moscow, 111033
Russia
Legal address:
Office 54, Room 334, Floor 1
Building 1, 42 Bolshoy Boulevard
Skolkovo Innovation Center
Moscow, 121205
Russia
Email: topaz@inenergy.ru
© «TOPAZ», LLC, 2025
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