What do Radiator Covers Do?

Radiator Covers are installed to help avoid injury caused by a radiators high surface temperature, by creating a gap between the radiator and the LST cover.

LST Radiator Covers are also a great way to integrate colour into the environment, provide additional space, and protect building occupants.

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Do Radiator Covers Stop Heat?

LST Radiator Covers are a great way to avoid injury caused by the high surface temperature of a radiator, by creating a gapbetween the radiator and the LST cover.

If designed or installed incorrectly, Radiator Covers can block a significant part of the radiator's airflow which wouldcause the heat loss, however, Frenger® have designed their Armis LST Radiator Covers withperforation sections to allow airflow that is required to facilitate convective heating from the encased radiator.

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What are MVHR Units?

Mechanical Ventilation Heat Recovery Units (MVHRUs) transfer heat from extracted room air (via the use of a Eurovent certified aluminium heat exchanger) to the fresh air supply with an efficiency of up to 94%.

Frenger's Recepto MVHRUs incorporate high thermal conductivity Eurovent certified aluminium heat exchangers that are up to 94% efficient in recovering the differential between extract air and inlet air temperatures.

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What Products are most suited for Cooling Hospitals?

Chilled Beams are a tried and tested technology predominantly used in 'owner occupied' buildings or buildings where the person paying the energy and/or maintenance bills are influential in the HVAC equipment selection / solution. One such sector is 'Healthcare'.

Frenger® have a great deal of awareness of 'Healthcare' applications, stemming back some 80 years when Frenger Troughton Young pioneered the supply and installation of Frenger heating ceilings to most, if not all, hospitals in the UK.

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What is Radiant Heating?

Radiant Heating is a form of heat transfer. Radiant Heating Panels emit most of their heat via longwave infrared radiation as opposed to convection or conduction. The longwave radiation that is emitted from the Radiant Heating Panels travels through the air (without directly heating the air) to its surroundings of a lower temperature (such as walls, floors, desks and occupants) thus raising the temperature of these surroundings. A secondary effect of the longwave radiation being emitted from the Radiant Heating Panels is that the air is heated by being in contact with the warmer surfaces.

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How does a Radiant Heating system work?

A Radiant Heating System emits heat similarly to that of the sunshine. If you were to stand outside on a hot summers day then you would feel warm and comfortable as the Radiant Heat from the sunshine is travelling through the air and warming your body temperature. However, if a cloud were to prevent the sunshine from reaching you then you would immediately feel colder, even though the air temperature hasn't changed, this is because the cloud is preventing the Radiant Heat from reaching your body.

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Is Radiant Heat expensive to run?

As illustrated in 'How does a Radiant Heating system work?' demonstrates that Radiant Heat is fairly instantaneous and as such is an ideal solution for heating large open spaces such as Sports Halls and other environments where you want to heat the occupants quickly without having the heat all the air first. Because Radiant Heating systems don't have to heat up the air first, it means that it drastically reduces energy usage and therefore can save you money.

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What are Active Chilled Beams?

Active Chilled Beams are a water driven cooling (and heating if required as a 4-pipe unit) unit which is also powered by forced ventilation, also known as a terminal unit.

The circulation of chilled water through the aluminium finned block coil makes the aluminium fins cold (note: Chilled Beams operate above dew point, hence typically 14°C chilled water flow, thus no condensation tray or condensation pumps and/or drains required, unlike other HVAC equipment) and similarly low temperature hot water (typically limited to 50°C flow to avoid room stratification) for heating is circulated via separate copper waterways sharing the same aluminium finned block.

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What are Passive Chilled Beams?

Traditional Passive Chilled Beams are water driven cooling units that usually rely on the natural 'Convection' process for heat transfer. The circulation of chilled water through the aluminium finned block coil makes the aluminium fins cold (note: Chilled Beams operate above dew point, hence typically 14°C chilled water flow, thus no condensation tray or condensation pumps and/or drains are required, unlike other HVAC equipment) and when the air in the room becomes in contact with the cold aluminium fins, the density of the air increases (cold air is heavier than warm air) and as such this heavier denser air falls to the floor directly below the fin coil block, thus displacing warmer room air which easily rises as lighter (less dense) upto to sides and rear of the cold fin coil block, thus repeating the process of the surrounding air becoming more dense as a continuous cycle whilst ever chilled water is circulated through the fin coil block.

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What are traditional Chilled Ceilings?

Traditional Chilled Ceilings are metal ceiling tiles that have aluminium extruded heat exchange pipe seats bonded to the rear of the tile, into which a serpentine copper coil is inserted/secured and insulted so that all cooling is via the front of the tile facing into the room space which requires cooling. The Chilled Ceiling Tiles can reasonably be of any size and shape and usually flush mounted onto a linear or tartan beam grid.

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What is Radiant Absorption Cooling?

Cooling by radiant absorption is where the surfaces of the cooling unit have the ability to emit and absorb radiation. The ability to emit and/or absorb radiation is measured as an epsilon value, whereby 1.0 is the highest possible and 0.001 the lowest. Typically, unpainted aluminium has an epsilon value of 0.2 and matt white powder coated metal 0.95 and matt black powder coated metal 0.97. The surface area and surface temperature are also critically important.

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What are Radiant Passive Chilled Beams?

Radiant Passive Chilled Beams are a 'hybrid' between a traditional Passive Chilled Beam and a Radiant Cooling Chilled Ceiling. Chilled water is circulated through the Radiant Passive Chilled Beam such as Frenger's 'X-Wing®' unit which consists of a single serpentine sinusoid coil (X-Wing® has no joints in the copper coil to eliminate any risk of leaks) with 4 gilled aluminium fins mechanically joined to each waterway. The fins are equally spaced and run longitudinally to each waterway, thus forming an 'X' cross-sectional profile with a waterway in the centre, hence the name 'X-Wing®'.

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Is there a condensation risk with Chilled Beams?

Chilled Beams should always be designed to operate using a chilled water (CHW) supply temperate of at least 1°C above dew point of the indoor room condition (i.e. operate with a dry coil) such to remove the risk of any condensation. For example, if you take a typical summer room design of 24°C at 50% RH indoor space condition then the dew point would be approximately 12.9°C so in this case the minimum CHW supply would need to be 14°C (over 1°C safety margin). In fact, a condensate drain pan facility (as typically associated with an old 1980's type induction unit) would only introduce significant extra cost to the project due to the additional condensate piping, and the requirement to regularly biocide dose condensate drain pans to prevent harmful bacteria (Legionella) and mold growth, all of which shouldn't be required with Chilled Beams that are designed correctly to operate with a dry coil.

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What is the average lifespan of a Chilled Beam?

As our standard Chilled Beam products contain no moving parts, fans, motors etc. then the product life can be well in excess of 25 years if regular water quality checks are undertaken.

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How much maintenance do Chilled Beams require?

Our standard Chilled Beam products contain no moving parts, fans, motors etc. Therefore, this helps to reduce product maintenance to normally periodic visual inspections every 4-5* years for a typical commercial office application which can be significantly less than other HVAC units.

*The visual inspection period will be dependent on the type of project application (i.e. any health care applications may require more frequent visual inspections/ cleaning requirements).

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What are Multi-Service Chilled Beams?

Multi-Service Chilled Beams (MSCB's) provide all the cooling and heating benefits with the excellent levels of thermal comfort that you get with standard Chilled Beam's, but can also feature; lighting, PIR sensors, smoke detectors, sprinklers or any other building service required, in a single pre-fabricated unit.

Utilising either 'Radiant' Passive or Active Chilled Beam Technology, MSCB's are designed to the bespoke requirements and aesthetics of any building.

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