Manuals+

PURE PERFORMANCE

Dehumidification and drying for industrial and commercial companies

Why use a dehumidifier?

Particularly in the industrial and commercial sectors, swimming pool and warehousing industries, operators are often confronted with a pressing need to control the humidity of the air.

Image depicting "Preventing condensation". Image depicting "Prevention of icing".

Condair DA series

Desiccant drying - functional principle diagram showing airflow through a rotor with adsorption and regeneration areas, regeneration heater, and fans.

Condair DA desiccant dryers are designed to be used wherever extremely low humidity is needed, such as in industrial drying processes, or where there are very low temperatures to deal with. The powerful sorption rotors enable the safe operation of the units down to temperatures of -30°C as well as bringing humidity values down to a minimum.

This results in significant energy savings, especially in larger systems, and therefore leads to a substantial reduction in operating costs. The sorption rotor used in Condair desiccant dryers is silicone-free. The drying agent is neither respirable nor flammable.

As well as standard designs with drying capacities of 0.6-182 kg/h, a wide range of specialized versions are also available. Depending on the size, the dehumidifier can be equipped with pre-cooling and/or post-cooling coils, heat exchanger or air-cooled condensation module at the factory. In particular, post-cooling is often required due to the heat generated during the drying process and should be taken into account early in system planning. In addition to choosing different regeneration methods, it is also possible to combine existing on-site media such as steam or hot water with the electric regeneration heater.

Performance characteristics

Graph showing drying capacity comparison between desiccant and condensation dehumidifiers over temperature. Graph showing recommended application range based on temperature and humidity for condensation and desiccant dehumidifiers.

Technical Data DA DESICCANT DRYER

DA 160, DA 250, DA 440
Technical Data Unit DA 160 DA 250 DA 440
Drying capacity at 20°C - 60% RH kg/h 0.6 1.1 1.4
Nominal process air volume m³/h 160 250 440
Nominal regeneration air volume m³/h 40 50 100
Electrical connected load kW 1 1.3 2.1
Current consumption A 4.3 5.65 9.1
Temperature/humidity operating range °C / % RH 0 to +40 / 0 to 100
Voltage supply V/Ph/Hz 230/1/50
Air intake area mm 145 x 155 145 x 255
Dry air connection diameter mm 100 125 125
Damp air connection diameter mm 63 80 80
Dimensions (H x W x D) mm 273 x 322 x 329 351 x 335 x 357
Sound pressure levels 1) dB(A) 53 52.9 69
Weight kg 10.5 14 14
DA 210, DA 400, DA 450
Technical Data Unit DA 210 DA 400 DA 450
Drying capacity at 20°C - 60% RH kg/h 0.6 1.5 2.2
Nominal process air volume m³/h 210 400 450
Nominal regeneration air volume m³/h 40 120 120
Electrical connected load kW 1.1 2.3 3.5
Current consumption A 4.8 10 15.2
Temperature/humidity operating range °C / % RH 0 to +40 / 0 to 100
Voltage supply V/Ph/Hz 230/1/50
Process air connection diameter mm 125 160 160
Dry air connection diameter mm 100 160 160
Humid / regeneration air connection diameter mm 80 80 80
Dimensions (H x W x D) mm 351 x 335 x 357 525.5 x 504 x 428
Sound pressure levels 1) dB(A) 53.0 62.1 62.1
Weight kg 15.3 28 31

1) At temperatures below 0 °C, modifications may be required depending on the installation conditions. Please contact your Condair representative. 2) Deviating voltages and frequencies available on request. 3) Classification according to DIN ISO 16890 4) Laboratory values. Sound pressure level measured at a distance of 1m from the machine surface, with 3m of connected air duct. Actual values may vary. 5) Laboratory values. Sound pressure level measured at a distance of 2m from the machine surface, with 3m of connected air duct. Actual values may vary.

Technical Data DA DESICCANT DRYER

DA 500 - 4000 Standard & DA 12000
Technical data Unit DA 500 DA 700 DA 1000 DA 1400 DA 2400 DA 3400 DA 4000
Drying capacity at 20°C - 60% r.H. kg/h 3.3 5.1 7.1 10 13.5 14.5 20
Nominal process air flow m³/h 500 700 1000 1400 2400 3400 4000
Nominal regeneration air flow m³/h 150 220 350 400 500 550 850
Nominal ext. pressure process- / regeneration air Pa 300/300 200/250 300/200 200/300 300/250 300/200 200/200
Electrical connected load kW 4.5 7.5 11 13.6 19 20.6 30.4
Electrical load regeneration heater kW 4 7 10.2 13 17.5 18 26
Operation range - Temperature 1) / Humidity °C / % r. H. 0-40 / 0-100
Power supply 2) V/Ph/Hz 400/3/50
Connection dimensions process- / dry air mm Ø400 / Ø315
Connection diameter regeneration air mm Ø200
Filter class process- and & reactivation air 3) Coarse 65%
Standard sound pressure level 4) dB(A) 62 62 62 63 68 69 69
Dimensions (H x B x T) Standard Case mm 910 x 1199 x 992
Weight Standard Case kg 185 190 190 195 200 200 205
Dimensions (H x B x T) Compact Case mm 886 x 1145 x 941
Weight Compact Case kg 120 125 125 130 135 135 140
DA 4400 to DA 12000
Technical data Unit DA 4400 DA 6400 DA 7400 DA 9400 DA 12000
Drying capacity at 20°C - 60% r.H. kg/h 28 36.5 45 54 63
Nominal process air flow m³/h 4400 6400 7400 9400 12000
Nominal regeneration air flow m³/h 1200 1600 2250 2500 2500
Nominal ext. pressure process air Pa 500 200 600 200 200
Nominal ext. pressure regeneration air Pa 300 200 300 300 300
Electrical connected load kW 41 53 66.7 78 94.2
Electrical load regeneration heater kW 36 48 60 72 84
Operation range - Temperature 1) / Humidity °C / % r.H. 0-40 / 0-100
Power supply 2) V/Ph/Hz 400/3/50
Connection dimensions process air- / dry air mm Ø630 / Ø500
Connection diameter regeneration air mm Ø315
Filter class process- and & reactivation air 3) Coarse 65%
Dimensions (H x W x D) mm 1311 x 2326 x 1297 1311 x 2263 x 1297
Sound pressure level 5) dB(A) 72 520 520 550 550
Weight kg 520 550 550 550 550

DA FREEZER

Diagram illustrating outdoor installation of a desiccant dryer with 100mm insulation.

With the Freezer version, Condair offers a special design of the unit sizes DA 500 - 4000 specially designed for use in the deep-freeze sector. In addition to the components of a standard desiccant dryer described above, this series of units is equipped with, among other things, a 100 mm thick insulated housing made of stainless steel AISI 304 stainless steel.

This special design allows for installation outside of the actual deep-freeze area, where the installation of the dryer often conflicts with the storage space. By installing the dryer outside of the actual deep-freeze area, valuable storage and functional areas remain free.

In deep-freeze warehouses with interior temperatures well below 0°C, moisture problems quickly become visible and inevitably lead to significant operational disruptions. Inflowing warm and humid air condenses and freezes on floors, ceilings, and walls, forming ice. Large and heavy ice formations tend to build up especially on the evaporators of the refrigeration system and in the airlock area.

To maintain system efficiency and operational safety, these must then be removed manually at great expense. These problems are prevented by consistently drying the room air in the cold store with a desiccant dryer.

The desiccant dryer continuously extracts return air from the cold storage area, dehumidifies it below the required dry dew point, and reintroduces the dried air back into the cold storage area. Ideally, the reintroduction of the dried air occurs directly at the air coolers or in the infiltration area.

The Condair DA Freezer units are particularly well-suited for deployment in testing facilities, where measurements and simulations take place within a temperature range of -20°C to +35°C. Given the significant temperature range, a challenge arises wherein, without additional preheating of the extremely cold process air from the test chamber, frost can accumulate on the unit's casing, electrical components, and the regeneration section of the adsorption dryer. This leads to impaired dryer functionality and consequently affects the entire testing facility's operation sooner or later.

Thanks to their specifically designed construction tailored to such application scenarios, the desiccant dryers within the Condair DA Freezer series ensure reliable and efficient drying of even extremely cold process air. Importantly, this is accomplished without necessitating an additional, elaborate, and costly preheater.

The Condair DA Freezer units have been developed and continuously optimized over many years with the aforementioned applications in mind. By completely eliminating critical thermal bridges on the casing and precisely coordinating highly sensitive components such as fans, the rotor, and heating elements, maximum efficiency and operational safety of the system are ensured.

Therefore, considering cost-effectiveness both in terms of procurement and operation, the Condair DA Freezer adsorption dryers represent the optimal solution for use in cold storage, testing facilities, and applications with a similar set of requirements.

Condair DC series

Condensation dehumidification - functional principle diagram showing refrigerant circuit with evaporator, condenser, compressor, and expansion valve.

Condair industrial dehumidifiers have many different applications across the industrial, commercial and warehousing sectors. They are based around a refrigerant circuit system, and are generally used in areas which require a relative humidity as low as 45% rH.

Condair industrial dehumidifiers can be configured in a variety of ways and to suit our customers' individual needs. So we always have the optimum dehumidifier for any application.

For temperature-sensitive areas, we offer special temperature-neutral versions. The condensation heat of the dehumidifiers is discharged through an external condenser, so that strong fluctuations in room temperature can be avoided due to the operation of the dehumidifier.

Condair DC industrial dehumidifiers are equipped with hot gas defrosting as standard, which ensures safe and economical operation even at low room temperatures.

The standard units in the Condair DC series cover a broad range of applications. They have dehumidification capacities from 75 l / 24 h up to 930 l / 24 h. Due to their enormous air capacities up to 8,500 m³/h, even the humidity in very large buildings can be regulated with only one, or just a few, units. They can be free-standing or configured for mobile use, and can even be connected to the air duct network to ensure optimum distribution of the dehumidified air.

Durable housing

The robust, hot-dip galvanized RAL 9006 housing provides maximum protection against the aggressive environmental conditions often experienced in the industrial sector. The housing is easy to disassemble to ensure fast access to all of the relevant components. A stainless steel version is also available.

Flexible connection options

Condair DC dehumidifiers can be operated independently or connected to a ventilation duct network. Separate connection frames are available for this. For longer duct networks and specialist applications, we offer more powerful EC fans with higher static pressure.

Fan

High-quality, directly controlled AC or EC fan. The fan operates energy-efficient and quiet. Various static pressures can be set on the dehumidifier. The fan housing is sound-insulated and completely separated from the refrigeration circuit.

Controller

The control of the dehumidifier is fully electronic and managed by a microprocessor. Operation and error notifications are displayed on the integrated display, which can also show operating hours. The microprocessor controls important functions such as defrosting and compressor operation. A volt-free contact is provided for issuing fault indication.

Cooling circuit

Highly efficient refrigeration circuit using R410A refrigerant. The refrigeration circuit incorporates only well-known brand components. Pressure equalization is achieved through thermostatic expansion valves. All components are easily accessible after removing the appropriate covers.

Heat exchangers

The heat exchangers already have a hydrophilic coating in the standard version ex works. Special coatings are available on request for operation under polluted room air conditions.

Technical Data Condensation dehumidifier DC

DC 75, DC 100, DC 150, DC 200
Technical Data Unit DC 75 DC 100 DC 150 DC 200
Dehumidification capacity at 30°C - 80% RH l/24h 78.5 109.2 133.9 175.9
Dehumidification capacity at 20°C - 60% RH l/24h 35.4 49.1 73 91.2
Dehumidification capacity at 10°C - 70% RH l/24h 25.3 35.2 55.2 68.3
Air circulation m³/h 800 1000 1500 1800
Nominal power consumption 1) kW 1.4 1.8 2.2 2.8
Maximum current consumption 2) A 7.9 9.6 13 16.7
Available static pressure (higher pressure optional) Pa 50 - 150
Operating range - humidity % RH 40 - 99
Operating range - temperature °C 5 - 36
Voltage supply V/Ph/Hz 230/1/50
Sound pressure levels 3) dB(A) 45 47 52 54
Refrigerant / fill volume Type/g R410A/550 R410A/1100 R410A/1100 R410A/1100
Total of CO2 equivalent 4) t-CO2 e 1.15 1.15 2.30 2.30
Dimensions (H x W x D) mm 800 x 819 x 400 981 x 1055 x 554
Weight kg 85 90 130 135
DC 270, DC 350, DC 450, DC 550, DC 750, DC 950
Technical Data Unit DC 270 DC 350 DC 450 DC 550 DC 750 DC 950
Dehumidification capacity at 30°C - 80% RH l/24h 254.2 379.8 469.2 590.9 845.9 1028
Dehumidification capacity at 20°C - 60% RH l/24h 113.2 170.6 222.6 270.5 386.5 508.2
Dehumidification capacity at 10°C - 70% RH l/24h 87.9 130.8 164.6 202.2 300.4 388.1
Air circulation m³/h 3500 4200 5500 7000 8500 8500
Nominal power consumption 1) kW 4.1 5.2 8.1 9.1 14.3 18.1
Maximum current consumption 2) A 10.8 13 17.1 18.3 28.6 35.2
Available static pressure (higher pressure optional) Pa 50 - 150
Operating range - humidity % RH 40 - 99
Operational range - temperature °C 5 - 36
Voltage supply V/Ph/Hz 400/3/50
Sound pressure levels 3) dB(A) 54 55 55 56 56 56
Refrigerant / fill volume Type/g R410A/3000 R410A/2500 R410A/5500 R410A/10000 R410A/8000 R410A/8000
Total of CO2 equivalent 4) t-CO2 e 6.26 5.22 5.22 18.79 16.7 16.7
Internal unit dimensions (H x W x D) mm 1378 x 1154 x 704 1750 x 1504 x 854
Weight kg 207 211 215 415 423 430

1) at tR = 30°C; humidity = 80% RH 2) full load current; FLA = full load amperage 3) Sound pressure level Laboratory value at 1 m distance (free field, ISO 9614), fan: static pressure 50 Pa. Values at the installation site may deviate. 4) R410A global warming potential (GWP) = 2,088 CO2e

For wall mounting Condair DC-W

DC 50W, DC 75W, DC 100W, DC 150W, DC 200W
Technical Data Unit DC 50W DC 75W DC 100W DC 150W DC 200W
Dehumidification capacity at 30°C - 80% l/24h 58.4 80.2 108.6 157.1 210.8
Dehumidification capacity at 20°C - 60% l/24h 25.3 36.2 49.4 69.7 95
Dehumidification capacity at 10°C - 70% l/24h 17.3 26.6 33.7 44.3 60.9
Air circulation m³/h 500 800 1000 1400 1650
Compression available Pa 40
Nominal power consumption 1) kW 0.7 1.2 1.6 1.9 2.5
Maximum current consumption 2) A 4.0 6.8 7.8 12.1 15.7
Temperature/humidity operating range C°/% RH 5-36°C / 40- 99% RH
Voltage supply V/Ph/Hz 230/1/50
Sound pressure levels 3) dB(A) 40 43 43 45 47
Refrigerant / fill volume Type/g R410A/470 R410A/600 R410A/700 R410A/1200 R410A/1200
Total of CO2 equivalent 4) t-CO2 e 0.98 1.25 1.46 2.51 2.51
Dimensions (H x W x D) mm 750 x 835 x 260 751 x 1134 x 260
Weight kg 61 75 78 115 115

For rear wall mounting Condair DC-R

DC 50R, DC 75R, DC 100R, DC 150R, DC 200R
Technical Data Unit DC 50R DC 75R DC 100R DC 150R DC 200R
Dehumidification capacity at 30°C - 80% l/24h 58.4 80.2 108.6 157.1 210.8
Dehumidification capacity at 20°C - 60% l/24h 25.3 36.2 49.4 69.7 95
Dehumidification capacity at 10°C - 70% l/24h 17.3 26.6 33.7 44.3 60.9
Air circulation m³/h 500 800 1000 1400 1650
Compression available Pa 40
Nominal power consumption 1) kW 0.7 1.2 1.6 1.9 2.5
Maximum current consumption 2) A 4.0 6.8 7.8 12.1 15.7
Temperature/humidity operating range C°/% RH 5- 36°C / 40- 99% RH
Voltage supply V/Ph/Hz 230/1/50
Sound pressure levels 3) dB(A) 40 43 43 45 47
Refrigerant / fill volume Type/g R410A/470 R410A/600 R410A/700 R410A/1200 R410A/1200
Total of CO2 equivalent 4) t-CO2 e 0.98 1.25 1.46 2.51 2.51
Dimensions (H x W x D) mm 680 x 695 x 252 681 x 1006 x 253
Weight kg 53 65 68 102 102

1) at tR = 30°C; humidity = 80% RH 2) full load current; FLA = full load amperage 3) Sound pressure level Laboratory value at a distance of 1 m (free field, ISO 9614). Values at the installation site may deviate. 4) R410A global warming potential (GWP) = 2,088 CO2e

For ceiling mounting Condair DC-C

DC 50C, DC 75-C, DC 100C, DC 150C, DC 200C
Technical Data Unit DC 50C DC 75-C DC 100C DC 150C DC 200C
Dehumidification capacity at 30°C - 80% l/24h 55.7 79.6 108.7 169.8 206.4
Dehumidification capacity at 20°C - 60% l/24h 24.9 35.9 49.5 75.4 93.2
Dehumidification capacity at 10°C - 70% l/24h 16.9 26.1 35.6 56.6 69.0
Air circulation m³/h 500 800 1000 1400 1650
Available static pressure (higher pressure optional) Pa 50-150
Nominal power consumption 1) kW 0.7 1.3 1.7 2.1 2.7
Maximum current consumption 2) A 5.9 8.5 10.2 12.6 16.3
Temperature/humidity operating range C°/% RH 5-36°C / 40- 99% RH
Voltage supply V/Ph/Hz 230/1/50
Sound pressure levels 3) dB(A) 45 46 48 53 55
Refrigerant / fill volume Type/g R410A/360 R410A/600 R410A/900 R410A/1200 R410A/1200
Total of CO2 equivalent 4) t-CO2 e 0.75 1.25 1.88 2.51 2.51
Dimensions (H x W x D) mm 360 x 710 x 700 460 x 900 x 980 530 x 1050 x 1160 530 x 1050 x 1160 530 x 1050 x 1160
Weight kg 63 95 122 131 140
DC 300C, DC 440C, DC 500C
Technical Data Unit DC 300C DC 440C DC 500C
Dehumidification capacity at 30°C - 80% l/24h 264.8 439.3 544
Dehumidification capacity at 20°C - 60% l/24h 135,6 222.3 250.6
Air circulation m³/h 3500 4200 4200
Available static pressure (higher pressure optional) Pa 150-250
Nominal power consumption 1) kW 3.8 6.2 7.2
Maximum current consumption 2) A 6.4 9.7 11
Temperature/humidity operating range C°/% RH 20-36°C / 40 - 99% RH
Voltage supply V/Ph/Hz 400/3/50
Sound pressure levels 3) dB(A) 63 64 64
Refrigerant / fill volume Type/g R410A/2500 R410A/2700 R410A/3000
Total of CO2 equivalent 4) t-CO2 e 5,22 5,64 6,26
Dimensions (H x W x D) mm 704 x 1437 x 1050 704 x 1437 x 1050 704 x 1437 x 1050
Weight kg 160 180 230

1) at 30°C; humidity = 80% RH 2) full load current; FLA = full load amperage 3) Sound pressure level Laboratory value at 1 m distance (free field, ISO 9614). Values at the installation site may deviate. 4) R410A global warming potential (GWP) = 2,088 CO2e

With external heat dissipation Condair DC-N

Technical data / Dehumidifier
Unit DC 270N DC 350N DC 450N DC 550N DC 750N DC 950N
Dehumidification capacity at 30°C - 80% l/24h 247.4 364.3 486.3 571.5 846.6 1055
Dehumidification capacity at 20°C - 60% l/24h 115.4 171.3 225.0 271.9 390.2 515.5
Dehumidification capacity at 10°C - 70% l/24h 87.7 136.6 174.6 204.4 293.1 413.6
Air circulation m³/h 3500 4200 4200 5500 7000 8500
Available static pressure (higher pressure optional) Pa 50-150
Sensitive cooling capacity 1) (35°C outdoor air) kW 3 5.1 6.9 8.7 11.4 14.5
Nominal power consumption 1) 5) kW 4 5.2 8.3 9.2 14.2 18.2
Maximum current consumption A 12.4 14.6 20.4 21.6 35.2 41.8
Temperature/humidity operating range C°/% RH 5-36°C / 40- 99% RH
Voltage supply V/Ph/Hz 400/3/50
Sound pressure levels 3) dB(A) 54 55 55 56 56 56
Coolant Type R410A
Fill volume g 6000 5200 5500 10000 14800 12000
Total of CO2 equivalent 4) t-CO2 e 12.53 10.9 11.48 20.88 30.90 25.06
Dimensions (H x W x D) mm 1378 x 1154 x 704 1750 x 1504 x 854
Weight kg 207 211 215 415 423 430
Technical data / Outdoor condenser
Unit DC 270N DC 350N DC 450N DC 550N DC 750N DC 950N
Voltage supply V/Ph/Hz 230/1/50 230/1/50 400/3/50 400/3/50 400/3/50 400/3/50
Number of fans 2 1 2 2 2 2
Air flow m³/h 4400 3900 7450 7250 15200 14000
Electrical connected load kW 2 x 0,18 1 x 0,76 2 x 0,73 2 x 3,3 2 x 3,3 2 x 3,3
Input Current A 2 x 0,8 1 x 3,3 2 x 0,73 2 x 3,3 2 x 3,3 2 x 3,3
Inlet/outlet connection diameter mm 16 18 22 28 28 28
Operating range - temperature °C 10-40
Sound pressure level 10m dB(A) 40 43 46 47 47 47
Dimensions (H x W x D) mm 490 x 1525 x 344 1008 x 1545 x 487
Weight kg 32,2 37,02 101 107 172 184

1) at tR = 30°C; humidity = 80% RH 2) full load current; FLA = full load amperage 3) Sound pressure level Laboratory value at 1 m distance (free field, ISO 9614), fan: static pressure 50 Pa. Values at the installation site may deviate. 4) R410A global warming potential (GWP) = 2,088 CO2e 5) incl. outdoor condenser

For low temperatures Condair DC-LT

Technical Data
Unit DC 270LT DC 350LT DC 450LT DC 550LT DC 750LT DC 950LT
Dehumidification capacity at 30°C - 80% RH l/24h 254.2 379.8 469.2 590.9 845.9 1028
Dehumidification capacity at 20°C - 60% RH l/24h 113.2 170.6 222.6 270.5 386,5 508.2
Dehumidification capacity at 10°C - 70% RH l/24h 96 132.4 175.2 206.2 298.9 391.7
Dehumidification capacity at 5°C - 70% RH l/24h 72.5 101.3 132 155.5 227.9 362.3
Air circulation m³/h 3500 4200 4200 5500 7000 8500
Nominal power consumption 1) kW 4.1 5.2 8.1 9.1 14.3 18.1
Maximum current consumption 2) A 10.8 13 17.1 18.3 28.6 35.2
Available static pressure (higher pressure optional) Pa 50-150
Temperature/humidity operating range °C/% RH 1-36°C / 40-99%
Voltage supply V/PH/Hz 400/3/50
Sound pressure levels 3) dB(A) 54 55 55 56 56 56
Refrigerant / fill volume Type/g 6000 5000 5000 13500 14000 15500
Total of CO2 equivalent 4) t-CO2 e 12.52 10.44 10.44 28.18 29.23 32.36
Dimensions (H x W x D) mm 1378 x 1154 x 704 1750 x 1504 x 854
Weight kg 227 231 235 435 443 450

Storage

Table showing recommended humidity and temperature ranges for storage of wood (40-60% RH, 12-20°C), paper (40-50% RH, 18-20°C), production halls (45-55% RH, 22-25°C), electrical components (≤5% RH, 20-25°C), and sugar (20-25% RH, 25°C).

Excessive humidity is a pervasive problem in the storage industry that can significantly impact product quality and safety. One of the primary culprits is incoming outside air, which can introduce moisture into the storage environment. However, moisture released by stored products can also contribute to elevated humidity levels, creating an environment ripe for moisture damage, caking, mould growth, and corrosion.

The use of suitable dehumidification systems guarantees efficient and safe operation of warehouses and cold stores. In addition to ensuring optimum product quality at all times, a safe and hygienic working environment is guaranteed.

These can lead to significant losses for storage management, as compromised products must be discarded or sold at a reduced price, lowering overall profits. Additionally, the formation of condensation on walkways, technical equipment, louvre curtains, and other components can lead to a hazardous and unsanitary working environment, posing a risk to workers' health and safety.

Cold storage

Table showing recommended humidity and temperature for freezer warehouse (40-60% RH, -25 to -10°C).

In the storage of food items such as meat and sausage products, dairy products, baked goods, and frozen foods, maintaining an optimal balance between appropriate room temperature and humidity is of utmost importance for ensuring consistently high product quality over time. Frequently, deviations from the ideal conditions for only a short period can lead to significant damages.

A particular challenge in this regard is the regulation of humidity. It is unavoidable that warm and humid air, for example during the introduction or removal of goods, flows into the storage area or that newly deposited products release moisture into the air. The permanent and secure removal of this moisture poses an ongoing problem for many operators, especially when dealing with storage temperatures often well below 0°C. When water condenses out of the air, it manifests as liquid or, in the case of frozen storage, as ice on floors, walls, and goods. This leads to damage to the products and compromises operational safety, as individuals can slip, get injured, or forklifts can skid on slippery ice.

Recirculating air coolers that draw air from the warehouse, cool it in a heat exchanger, and then blow it back into the storage area only provide limited dehumidification of the air.

Temperatures below freezing point rapidly lead to icing of the cooler with this method of dehumidification, necessitating a subsequent defrosting phase during which neither cooling nor dehumidification are available. Additionally, the cooler must be set to very low operating temperatures (approximately 5 to 7 K below room temperature) to enable dehumidification at such cold room temperatures at all. This approach is highly energy and cost-intensive.

Pharmaceutical industry

Table showing recommended humidity and temperature for penicillin production (60% RH, 25°C), tablet presses (35% RH, 24°C), test labs (45% RH, 22°C), and gelatin production (24% RH, 20°C).

Many pharmaceutical products are made from hygroscopic raw materials in powdered or granulated form. High and uncontrolled humidity during the tableting and packaging process can cause a variety of problems that are often difficult to solve.

If powders or granulates come into contact with the water vapor in the air, this can have a serious effect on both the production process and product quality.

In this way, powdery raw materials can clump together and block pneumatic conveying systems, resulting in time-consuming cleaning processes and production interruptions. Moisture-related uneven dosing can lead to uncontrolled and limited effectiveness of the active ingredients.

Excessive humidity and condensation also favor potential bacterial or mold growth, which can result in prolonged production interruptions with corresponding devastating financial consequences.

Laboratories, as well, must accurately control humidity to ensure the generation of precise and dependable outcomes. Dehumidification systems can maintain humidity levels at the optimal range throughout the production and packaging stages, thus guaranteeing peak production security and efficiency.

Condair offers a wide variety of technologies and accessories to help you discover the ideal solution for your specific requirements.

Deviations in volume, weight, color, and product characteristics, as well as potentially reduced product shelf life, have negative impacts on the perception of the company's brand.

Water suppliers

Table showing recommended humidity and temperature for waterworks (50% RH, 18°C).

Condensation is one of the biggest challenges faced by companies operating and maintaining equipment at water supply facilities, particularly during the warmer months of the year.

The infiltration of warm, humid air into cooler buildings can lead to condensation forming on the pipes and fittings that carry the water, and other colder components.

This can cause considerable damage to technical systems and the building itself:

Powerful dehumidification systems can effectively and efficiently protect technical equipment in water supply facilities from all kinds of moisture-related damage.

They can also help to significantly reduce the amount of downtime required for maintenance by keeping equipment in peak condition. Plus, they keep the working environment safe and hygienic for staff.

Food

Table showing recommended humidity and temperature for cookies (40-55% RH, 15-20°C), chocolate (40-55% RH, 15-20°C), cheese (75-85% RH, 2-15°C), and bread (65% RH, 30-40°C).

When it comes to food production, processing, and storage, maintaining the highest levels of hygiene standards is paramount for companies. Alongside the infiltration of moisture from warm and humid external air, as well as from people and the products themselves, etc., the frequent and thorough cleaning procedures required in this industry can result in a significant additional accumulation of moisture within production facilities. Dehumidifiers stand as the most effective and efficient solution to ensure the maintenance of optimal conditions for uninterrupted, hygienic, and safe operations.

Large quantities of water vapor can be swiftly extracted, thereby preventing condensation and droplet formation. Downtimes caused by cleaning processes are minimized. Transport systems become operational promptly after cleaning.

Potential risks to personnel, such as wet floors or mist formation, are averted, and the growth of germs is prevented altogether.

Efficiency

One traditional method of dehumidification that is still commonplace today is a simple ventilation and circulation system, whereby the damp air is sucked in via a ventilator and dryer air streams in from outside. This external air must then be reheated, which takes a huge amount of energy. This method is therefore incredibly wasteful.

It is far more efficient to run dehumidifiers based on a closed cooling circuit system. All Condair industrial dehumidifiers work according to the heat pump principle, whereby all of the warmth given up in the heat pump circuit is used to heat the room. This considerably decreases operating costs. Compared to a simple ventilation system with supply and exhaust air streams, a dehumidifier can be up to 60% more efficient.

Desiccant dryers can also be operated very economically when existing media such as steam or hot water are used or are combined with the electric regeneration heater. The use of such hybrid reactivation leads, especially in larger applications, to a significant energy cost savings and thus to a strong reduction in operating costs.

Planning and service

The possibilities for air dehumidification are extensive and diverse. To select the appropriate system, it is recommended to consult a specialist during the project planning phase who can provide objective and knowledgeable advice to consultants, installers and operators.

You can always receive assistance from the experts at Condair for planning, sizing, and selecting the air dehumidification system that best suits your requirements.

And if you ever experience an issue, help is available fast for both industrial and commercial customers. Condair offers a nationwide customer service program which you can also use to source maintenance and commissioning services for your dehumidifier as needed.

Condair offers the following product-applicable services:

PDF preview unavailable. Download the PDF instead.

pro-entfeuchtung-250725-en Adobe InDesign 20.4 (Windows) Adobe PDF Library 17.0

Related Documents

Preview Condair DA Series Desiccant Dryer: Installation, Operation, and Maintenance Manual
This manual provides comprehensive guidance for the Condair DA Series Desiccant Dryer, covering installation, operation, maintenance, safety protocols, troubleshooting, and technical specifications. Essential for ensuring optimal performance and longevity of the dehumidification system.
Preview Condair DC Series Industrial Dehumidifier Installation and Operation Manual
Comprehensive guide for the installation, operation, and maintenance of Condair DC series industrial condensing dehumidifiers, covering models DC 50-W, 75-W, 100-W, 150-W, 200-W, and their 'R' variants.
Preview Condair DA Series Desiccant Dryers: Pure Performance for Industrial and Commercial Dehumidification
Explore the Condair DA series of desiccant dryers, offering advanced dehumidification and drying solutions for industrial and commercial applications. Learn about their efficiency, performance characteristics, and suitability for various industries including food, pharmaceutical, and cold storage.
Preview 10-Point Guide to Improving Productivity with Humidity in Food Manufacturing | Condair
A comprehensive 10-point guide for food manufacturers on understanding and managing humidity to enhance productivity, reduce waste, and maintain product quality, covering humidification, dehumidification, and evaporative cooling systems.
Preview Humidity Control Planning Guidelines by Condair
A comprehensive guide to humidity control systems, covering isothermal and adiabatic humidification, selection of control systems, and important planning information for steam and adiabatic humidifiers.
Preview Condair EL Series Electrode Steam Humidifier
The Condair EL Series is an electrode steam humidifier that provides hygienic steam for in-duct or direct air humidification. Learn about its features, benefits, and technical specifications.
Preview Condair ME Control Operation Manual: Humidification, Dehumidification, and Evaporative Cooling
Comprehensive operation manual for the Condair ME Control system, detailing its adiabatic air humidification and cooling capabilities. Includes safety instructions, product overview, operation procedures, software control, maintenance, fault elimination, and technical specifications.
Preview Condair RO-H Reverse Osmosis Water Treatment System for Humidifiers
Learn about the Condair RO-H, a reverse osmosis water treatment system designed to improve the operation, energy efficiency, and maintenance of small-scale humidification systems by removing minerals and bacteria from water.