PassivDom technology – how does it work?

The warmest house in the world

Implementation of Carbon-fiberglass frame, vacuum thermal insulation, and PassivHause construction standards make our house the warmest residential building in the world. Combined with record warm windows, PassivDom has the lowest heat loss, and thus it is easy to implement its autonomy


Solar panels on the roof fully satisfy house energy needs. Surplus energy is stored in a battery which provides enough storage for two weeks of autonomous function of the module in conditions of total sun absence. In addition, the house heats and conditions the air on its own, cleans drinking water and generates oxygen.

Made using 3D-printer

3D-printing is used for the production of the house frame. We create the base of the future house – its walls, roof, fundamental platform. Factory-produced modules can be assembled on a land lot within a day.

The smart house

All house devices are connected into the Internet Of Things (IoT) network, so the systems of PassivDom are managed remotely with a smartphone.
The self-learning system controls the air quality inside: carbon dioxide content, humidity, oxygen.


  • autonomous Zero Energy Passive House
  • energy-saving and efficient building
  • zero carbon emission
  • 3D-printed prefabricated house
dom transparent
  • self-learning online smart system with the Internet Of Things network
  • 100% eco-friendly house that meet requirements for energy efficiency in Europe and USA for 2030


Fiberglass, carbon, aluminum. Only non-corrosive materials are used.


A unique development of the PassivDom team. The warmest mass-produced windows in the world.


Innovation of vacuum insulation technology.


There is no need for a foundation for PassivDom.

Solar energy

Solar panels on the roof and batteries for energy storage. Battery capacity enables 2 weeks of absolute autonomous function in conditions of TOTAL sun absence.


Energy-saving heating by under-floor heating across the whole house area. A heat pump for the air heating and cooling.


Self-learning heat recovery ventilation with carbon dioxide control system and air quality (oxygen content, humidity).

Security system

PassivDom is anti-theft. 3d class level security (WK3) DIN V ENV 1627-1630.

Internet of Things network

All house devises are connected into IoT network and managed remotely with the owner’s smartphone.

Video surveillance

A constant online house video surveillance system with face recognition integrated with iPhone/Android control.

PassivDom Windows

Копия windows 10.05
Копия windows+wall 10.05

What materials do we use?

We use only non-corrosive materials: we do NOT use rusting metal, wood that will rot over time or SIPs that lose their insulation properties. We construct houses from carbon fiber and fiberglass, the materials which are used in the production of rockets, aircraft, and hypercars.

PassivDom Batteries


We use Lithium Iron Phosphate batteries.
These are some of the most progressive batteries in the world, having the following properties:

  • 20 (!) year warranty
  • frost-resistance up to -55 С
  • no memory effect
  • 100% battery discharge possible

There are additional technical properties, such as stable discharge voltage, linear current, and revolutionary charge density which would be interesting to specialists.


PassivDom has a modular configuration, thus it is possible to construct big houses from separate modules (36 sq.m.) – based on Lego principles. You can construct a spacious house with the desired area for you and your family. One moduleOne unit is used as the main unit to manage microclimate and provide automation. Additional units of similar size are connected for multiple rooms. You can use any number of connected modules.

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Technical processes that are used in PassivDom:

  • Autonomous solar system with batteries
  • Autonomous water supply system: a secondary filtration system of “gray” water, double osmosis system for fresh water collection from any body of water, water generation system from condensed air by means of solar energy
  • Autonomous sewerage system
  • Heat recovery ventilation
  • Heat pump
  • Electric boiler
  • Electric heated floor
  • Premium grade household appliances
  • Internet of Things device network
  • House management system with iPhone or Android
  • Remote house video surveillance with iPhone or Android
  • Security monitoring, GSM
  • Sensors of temperature, humidity and anything-under-the-sun
  • Motor controlled blinds, awnings, and locks

Self-learning systems

Self-learning system of temperature control inside the house.

Functions: regulation and maintenance of microclimate parameters depending on the owner’s preferences, outer conditions, sunlight, online weather forecast, and number of people inside the house (presence sensors).

Low energy, high-efficiency inverter air heat pump for cooling, heating and drying the air inside the house.

Automated heat recovery ventilation system. Control of parameters of carbon dioxide and monoxide, relative air humidity and oxygen.

Autonomous alarm system with access control, online cloud video surveillance, GSP tracker.

Electrical device monitoring and lighting control system.

Control and management of all house systems with the owner’s smartphone. A network of Internet of Things (IoT) management devices.