Efficient systems for industry, trade,
production & logistics
Hall heating systems not only ensure pleasant temperatures in production halls, warehouses or workshops, but also an optimum working climate, higher productivity and lower operating costs.
Modern hall heating systems simultaneously save energy, reduce emissions and adapt flexibly to the requirements of your building. Choosing the right hall heating system is an important step towards acting economically and environmentally consciously in the long term.
With our combination of over 60 years of experience, innovative technologies and customized solutions, we offer you efficient, reliable and cost-saving heating systems – all from a single source.
Make a non-binding inquiry now and let us convince you of our efficiency, quality and individual planning!
Hall ventilation
– Nominal air volume flow of up to 10,000 m³/h
– Compact design & low maintenance
– Roof or wall mounting possible
– Up to 84% heat recovery
– 100% CO2-neutral
Hall ventilation
– Nominal air volume flow of up to 100,000 m³/h
– High efficiency of up to 99%
– Heating medium liquid gas, electricity, wood chips, pellets, etc.
Industrial halls for processing, production and storage require reliable ventilation. Our specially designed RK-K ventilation system uses the latent heat contained in the combustion air (condensing boiler technology) for heating. A modulating liquid gas burner supplies only the amount of heat required to precisely maintain the desired discharge temperature. The high efficiency of 99 % ensures maximum efficiency.
The system can be equipped with liquid gas, hot water or heat pump operation. An optional supply and exhaust air function with heat recovery is also possible. It can be installed flexibly in the hall, on the roof or next to the hall.
Warm air heater
– Nominal heating output from 25 to 150 kW
– Nominal air volume flow from 5,000 to 15,000 m³/h
– 100% CO2-neutral
– Cooling possible in summer
Hot air heating
– Nominal heating output from 50 to 250 kW
– Nominal air volume flow from 5,000 to 22,000 m³/h
– Efficiency up to 99%
– Heating medium BIO-LPG gas with up to 65% CO2 reduction
Industrial air purifier
– Removes 99.995% of viruses, bacteria & germs
– Nominal air volume flow of up to 10,000 m³/h
– Three-stage filter system incl. H14 HEPA filter
– CO2 sensor system
Stop cold air
– Significant reduction in cold air incidence
– low investment costs
– high savings potential
– vertical or horizontal installation
The staff at goods inwards are familiar with the problem: every time the hall doors are opened, cold air enters the building, which can lead to anything from brief chills to health problems.
A door air curtain significantly reduces the amount of cold air entering by directing preheated air downwards via adjustable nozzles. This keeps the hall warm. It is available in heated and unheated versions – the heated version is mainly used in sensitive production areas.
Control is automatic via door contact or door control. The number of modules depends on the door width. Important: For optimum function, the air conditions in the hall must be balanced.
Solar air collector
– Supplement to warm air heaters & ventilation systems
– Heating cost savings of up to 30%
– For pitched, flat roof or wall mounting
– Meets the requirements of the Building Energy Act (GEG)
Thermal compensation from the roof to the floor
– up to 10% energy savings
– low energy consumption
– easy upgrade of existing systems
– infinitely variable speed adjustment
Our return air ceiling fans minimize temperature stratification in halls and ensure even heat distribution from the roof to the floor. An infinitely variable speed controller prevents draughts in the occupied zone.
Proportional speed control maximizes heat recovery depending on the temperature difference in the roof area. If the minimum temperature is reached, a limit thermostat switches the fans off automatically.
The controller with selector switch is installed in the occupied zone, while the temperature sensor is placed under the roof.
Climate-neutral heating and lower operating costs at the same time?
We show you how modern hall heating technology can be optimally combined with local heating.
– Integration of heat recovery
– Robust, durable components
– Individual control and instrumentation technology for maximum efficiency
Roland Abel
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Harald Wimmer2010-08-20 07:09:592025-12-16 15:36:18Three temperature ranges – one solutionMake a non-binding inquiry now and let us convince you of our efficiency, quality and individual planning!
In principle, hall heating systems can be planned centrally or decentrally – but what are the differences and the respective advantages and disadvantages?
In central hall heating systems, the heat is generated in a central system and from there is fed into various areas of the hall or building via a distribution system. These are often boiler systems or large heat generators that supply the entire property with heat. Central heating systems are suitable wherever a central supply makes logistical sense and there is a relatively constant demand for heat.
Advantages:
– High efficiency: Larger boiler or heat generation units can often be operated with higher efficiencies.
– Easy maintenance: Maintenance is concentrated at a central point, which reduces service costs.
Disadvantages:
– Complex infrastructure: Longer pipe runs increase heat losses and require more complex distribution systems.
– Failure risk: If the central system fails, all connected areas are affected.
– Less flexibility: Adjusting the heating output to individual hall areas is limited.
Decentralized systems use several independent heating units. Each unit supplies a specific hall section or an individual zone. Liquid gas, natural gas, heating oil and electricity are often used as energy sources. Decentralized hall heating systems are particularly suitable for halls that need to be heated evenly over a large area. Decentralized hall heating systems can also be used to create different temperature zones (e.g. storage vs. production). The decentralized warm air heaters can be retrofitted at any time if the hall is extended.
Advantages:
– High flexibility: Each zone can be heated or controlled individually and thus respond optimally to different usage and temperature requirements.
– Independent units: A failure of one unit does not affect the entire building.
– Easy expandability: If required, additional heating units can be added without having to reschedule the entire system.
– Low maintenance
– Fast heating response to temperature changes
Disadvantages:
– Installation effort: Depending on the number and positioning, the setup can be more complex.
Make a non-binding inquiry now and let us convince you of our efficiency, quality and individual planning!
When planning and installing a hall heating system, it is not only important to install a certain heat output, but also to ensure that it is effective in the area where people spend time and at the right time. The following questions about the building and its use must be considered:
What influence does the hall height have on the room temperature?
As the height of the hall increases, the choice of the right heating system becomes even more important. Rising heat caused by thermal buoyancy can nowadays be avoided by using suitable warm air and ventilation systems. This prevents unwanted heat build-up in the ceiling area.
What role does air exchange play in hall buildings?
Long open doors (e.g. during loading processes) or production-related air changes for the removal of welding gases or other vapors can lead to high ventilation heat losses in halls, which increase with rising air temperatures and can significantly exceed the transmission losses of the building. The heating system must react quickly to heat sinks as well as to the occurrence of internal heat sources and create a balance.
How important is the spatial utilization of the hall building?
At times, only partial areas (e.g. partial areas or individual workstations) are used in hall buildings or several different temperature zones are required for different uses. With central heating systems, it is almost impossible to heat such partial areas economically.
What role does intermittent use play (fluctuations in employment/shift operation)?
If the building is only used for 40 out of 168 hours a week, for example, heating and cooling processes play a very important role in the annual energy balance. Decentralized heating systems with their very low thermal inertia demonstrate their great advantage over central heating systems in halls here: they bring the heat precisely to where it is really needed. Heat transfer systems such as water or steam are not required for decentralized heating, and there are no standstill and distribution losses.
Long heating-up times are a serious factor in wasting energy in hall buildings, and these are largely avoided with decentralized systems. In contrast to centralized systems, decentralized heating systems offer the option of completely switching off the system outside of the usage period while simultaneously lowering the temperature or providing frost protection. A permanent supply of district heating, hot water or steam with the resulting energy consumption is not necessary.
Your contact for hall heating
Your contact for sales in the area of hall heating. Er kombiniert technisches Know-how mit praxisnaher Beratung rund um effiziente Warmluft, Klima- und Lüftungslösungen für Industriehallen.
