VEX350 / VEX360 Air handling units with counter flow heat exchangers

Product information - Version 2 VEX350 / VEX360 Air handling units with counter flow heat exchangers VEX350: 700-3800 m 3 /h VEX360: 1100-5400 m 3 /h

Table of contents An extremely flexible unit... 4 VEX350 (700-3,800 m 3 /h)... 6 - Technical data... 6 - Capacity curves - compact filters... 7 - Temperature efficiency... 7 - Sound data... 8 - Dimensional sketches... 11 - Water heating coil data... 9 - Cold water coil data... 10 - Dimensional sketches - accessories... 11 VEX360 (1,100-5,400 m 3 /h)... 12 - Technical data... 12 - Capacity curves - compact filters... 13 - Temperature efficiency... 13 - sound data... 14 - Dimensional sketches... 11 - Water heating coil data... 15 - Cold water coil data... 16 - Dimensional sketches - accessories... 17 VEX350 and VEX360 The VEX300 range with counter flow heat exchanger is now available with airflows up to 5,400 m 3 /h. The VEX350 and VEX360 are low energy consumption, high temperature efficiency units that are supplied in sections. Cabinet The cabinet is made of Aluzinc AZ185 corrosion class C4 and is insulated with 50 mm mineral wool. External heating coil/ cold water coil Can be supplied as accessories. The water heating coil is used in combination with the bypass de-icing principle. EXact control system... 18 - Control and operation... 18 - Connection to external units... 19 - Innovative ice detection and control system... 20 - Air direction - winter/summer operation... 21 - Energy calculations... 22 - List of functions... 23 - List of functions for accessories... 24 - Advanced functions... 25 - Technical data, modules... 26 - VEX350/VEX360 for third party control... 26 VEX350/VEX360 general... 27 - Cable plans... 27 - Simplified diagrams / Abbreviations... 30 - A VEX is not just a VEX... 32 Connection to duct system The unit is supplied with square connections to the duct system with a common flange system. Two modulating bypasses Built-in modulating bypasses are standard. During summer operation with no heat-/cooling exchange both outdoor air and extract air are led around the heat exchangers to reduce energy consumption. Find more information Technical submission data together with principles for connection of water heating coil / cold water coil can be found on our website under each individual product. The website also allows users to make technical submission calculations and find prices of the complete system and accessories. Highly-efficient counter flow heat exchangers VEX350/VEX360 units are supplied with highly-efficient counter flow heat exchangers, where airstreams are always 100% separated. The bypass de-icing technology allows continuous operation, even with low outdoor air temperatures. 2

- Energy-efficient units units with counter flow heat exchangers Four counter flow heat exchangers create a unit that has an extremely high temperature efficiency and low pressure loss. - 80-85% efficiency without condensation - Up to 94% efficiency with condensation Please contact us if you need an extra fast delivery time Integrated control system The control system is integrated in the top of the unit. Control and power supply cables connect to the integrated connection box, which also houses the control fuses and isolation switch. Motor control (FC) The fan motors are controlled by frequency converters which ensures energy-saving operation. Fan housing The fans are fitted on rails, for simple removal and servicing. The suspension housing the motor, fan impeller and intake is designed to minimise vibrations. EUROVENT certification The EXHAUSTO air handling units in range VEX300 are all EUROVENT certified. The certificate documents that all technical data provided are third party tested by an individual certification body (EXHAUSTO has been tested and verified by TÜV Nord). This, in terms, means that all data provided by the online calculation tools QuickSelect and EXselect has been verified in tests. EUROVENT Energy labelling The EXHAUSTO air handling units type VEX300 are energy labelled according to EUROVENT guidelines for classification of air handling units. The energy class equals the total energy consumption of the unit at given operation parametres. Find more information on our website AHU n 10.12.505 Range: VEX100/200/300 Mounting base Mounting base with adjustable feet is standard. The base is supplied unassembled. Air volumes up to 5,400 m 3 /h EXstream performance All units are supplied with EXHAUSTOs EXstream fan impeller, - the best of its kind in the market when it comes to high efficiency and low sound levels. Filters The units can be delivered with F5/F7VDI filters on outdoor air and extract air. VDI is a rigorous standard that ensures high air quality. 3

An extremely flexible unit The unit can be delivered as a left or right version (air direction) as well as for outdoor installation. Flexible supply air and extract air spigot positioning gable end or top (top not applicable to outdoor installation) EXact control system The EXHAUSTO EXact control system is the result of many years of professional experience and expertise within ventilation systems. Daily operational interfaces and more advanced interfaces have been designed to be as user-friendly as possible. Web server The control system has an integrated web server, which connects effortlessly and allows the control and monitoring of the unit, including heating and cooling coils, etc. The web server function is easy and simple to operate and includes all available functions on the unit s control panel. Service-friendly unit The unit s large apertures ensure easy access for servicing and cleaning. The filters, counter flow heat exchanger and motor section can be easily removed for cleaning, servicing and replacing (filters). The doors are hinged and removable when transporting the unit indoors. Delivered in sections The unit is delivered in sections for internal transport through door openings min. 900 x 2,000 mm (W x H). The base is supplied unassembled. RD12796-01 330 m3 10 450 m 2> 1170<13 3 2 3 1 30 m x 10? e High efficiency Efficient counter flow heat exchanger delivers optimum efficency of 85 % or more. Energy efficient Low SFP value = lower energy consumption. User friendly Control panel with large colour display and user friendly symbols and support texts. Online calculation User-friendly website for professionals with news, comprehensive documentation and product calculation programmes. 4

Outdoor fitting The cover of the outdoor model is sectioned giving easy access to the control system. The cover is designed so that cables can be led out under the cover on both sides, and at the back of the unit. The motor valve, damper and fire thermostats will also be supplied as suitable for outdoor installation. We recommend the outdoor unit is fitted with additional support to prevent storm winds from causing imbalance. The condensation pipe to the VEX must be frost protected and insulated during installation. VDI6022 All EXHAUSTO units have been independently certified in accordance with the German standard, VDI 6022. VDI 6022 is a rigorous standard that ensures products can be cleaned and maintained as effectively as possible. This ensures the quality of air passing through the unit is not compromised. To obtain VDI6022 approval unit has to be delivered with outdoor air F7VDI filters. db Hygiene The units have been independently certified in accordance with the German standard VDI 6022. Compact The unit can be moved through a standard door (900 x 2,000 mm). Soundproofed Save time and money on soundproofing. Vibration free Minimum vibration = less noice and no extra resources required to be invested on vibration damping for the base. 5

VEX350 Technical data (700-3,800 m 3 /h) VEX350 Unit data Absorbed power Power supply Max. phase current Max. neutral current 2.9 kw 3 x 400 V + N + PE ~ 50 Hz 10.5 A (Power consumption is assimilated from 2 phases and is not sinusoidal) 16.0 A (Dimensioning current) Principal dimensions, excl. spigots, cable duct and base. Height = 1,800 mm, Length = 2,632 mm, Width = 945 mm Integrated connection box for control components Height = 104 mm (see dimensional sketch page 9) Panel material Aluzinc, AZ185, corrosion class C4 in acc. with EN/ISO 12944-2 Insulation 50 mm mineral wool Connection to duct system x 800 mm Service doors (removable) 4 side-mounted doors Filters (outdoor air / extract air) qty. 2 F5 compact filters of 3,6 m 2, 750 x 414 x 96 mm qty. 2 F7VDI compact filters of 11,2 m 2, 750 x 414 x 96 mm Weight: Operational-ready unit (3 sections) Heat exchanger section: Fan sections: Base: Total: 260 kg qty. 2 at 152 kg each 75 kg 639 kg Highly-efficient counter flow heat exchanger with qty. 4 aluminium panels Thermal transfer area 4 x 37.6 m 2 = 150.4 m 2 Fan data Fan type EXstream, freely revolving B-impeller Vibration damping Fans suspended in vibration dampers Motor data (per motor) - qty. 2 With integrated control / Third party control system Electrical supply (delta/star) 3 x 230 V / 400 V Full load current (delta/star) 3 x 4.0 A / 2.3 A Power consumption 1.1 kw CEMEP class EFF1 *Frequency converter data (qty. 2 built-in) With integrated control / Third party control system Electrical input 1 x 230 V Electrical output 3 x 230 V Current overload protection Built-in Control Variably adjustable via frequency control * VEX350 for third party control system can be delivered without frequency converter. Accessories V350OD VEX350 is delivered with a roof and sealed connections for outdoor fitting (see example page 9) V350SPLIT The heat recovery section is supplied ready for separation and internal transport and assembly by certified personnel. The fan sections are supplied assembled as standard. LSx80024 Closing damper x 800 mm with 24 V motor LSRx80024 Closing damper x 800 mm with 24 V spring-return motor LSx80024OD Closing damper x 800 mm with 24 V motor for outdoor fitting LSRx80024OD Closing damper x 800 mm with 24 V spring-return motor for outdoor fitting HCWx800U External water heating coil for indoor fitting 12,2 kg HCWx800I** External water heating coil with inspection door and 50 mm insulation for outdoor fitting 119 kg HCW700x800U** External water heating coil for indoor fitting 18,5 kg CPx800 Connection piece for HCW700x800U 13 kg CPx800H Connection piece for HCW700x800U with inspection door 14 kg HCEx800U9 External electrical heating coil for indoor fitting (9 kw) 34 kg HCEx800U15 External electrical heating coil for indoor fitting (15 kw) 36 kg HCEx800U24 External electrical heating coil for indoor fitting (24 kw) 42 kg CCWx800I External cold water coil with inspection door and 50 mm insulation for outdoor fitting 121 kg ** optimised for low temperature operation. 6

VEX350 Capacity curves VEX350-100 % heat recovery VEX350-0 % heat recovery VEX350 A = B = Capacity curve with F5 filters SFP curve [J/m 3 ] Operating curves Pressure loss supplement with F7VDI filter Pressure loss supplement with heating coil/ cold water coil Capacity calculations are based on conditions given on our website. To calculate capacity data, use our product calculation software on our website Power consumption for VEX P 1 [W] = SFP [J/m 3 ] x q v [m 3 /s] Temperature efficiency Efficiency with condensation Extract air = 20 C/55% RH - Outdoor air = -10 C/50% RH Balance between supply air/extract air = 1.0 Efficiency without condensation med imbalance Extract = 25 C/30% RH - Outdoor air = 5 C/50% RH Balance between supply air/extract air = 0.8 Efficiency without condensation according to EN308 Extract = 25 C/30% RH - Outdoor air = 5 C/50% RH Balance between supply air/extract air = 1.0 The VEX unit temperature efficiency is shown at different volume flow ratios, calculated as: Supply air = 0.8 and 1.0 Extract air t h t = 2,2 - t 2,1 = Temperature efficiency t 1,1 - t 2,1 t 2,1 = Temperature of outdoor air t 2,2 = Temperature of supply air t 1,1 = Temperature of extract 7

VEX350 Sound data VEX350 L WA1 - Suction side VEX350 L WA2 - Pressure side VEX350 Sound output level Suction side (outdoor/extract air): L W1 = L WA1 + K W L WA1 read Sound output level Pressure side (supply/exhaust air): L W2 = L WA2 + K W L WA2 read Sound output level Surroundings L W3 = L WA3 + K W L WA3 read Sound pressure level Surroundings L pa3 = L WA3 + K pa L WA3 read K W (db) Areas 63 125 250 1K 2K 4K 8K L W1 I -5-8 -13 3-9 -15-21 -34 II 3-1 1 0-7 -14-23 -33 I -9-11 -13-1 -4-8 -14-23 L W2 II -6-7 -1-4 -4-7 -16-23 K pa db(a) I 17 5 1 1-9 -16-23 -30-18 L W3 II 14 2 7-6 -12-18 -23-24 -18 VEX350 L WA3 - Surroundings L LW2 2.2 2,2 1.1 1,1 L LW1 W1 L W1 LW1 2.1 2,1 1.2 1,2 L LW2 W2 1,1 1.1 L LW1 W1 L LW2 W2 1.2 1,2 Sound measurements are based on conditions given on our website. LpA3L pa3 8

VEX350 Dimensional sketches VEX350 - LEFT VEX350 - RIGHT 65 153 2,2,B 2632 385 824 1,1,B 153 65 65 2632 65 824 385 153 153 1,1,B 2,2,B VEX350 2,2,A 1,1,A 1,1,A 2,2,A 2,1,A 1,2,A 1,2,A 2,1,A 828 DN32 1106 1137 828 1137 DN32 828 1106 828 65 945 65 65 945 65 1904 1800 1174 2,2,A 71 800 71 800 2,1,A 1,1,A 800 71 800 71 1,2,A 1222 1222 71 71 1,1,A 800 800 1,2,A 2,2,A 800 71 800 71 2,1,A 1174 1800 1904 278 200 802 326 326 802 200 278 RD12728DK-01 1.1 Extract air 1.2 Exhaust air 2.1 Outdoor air 2.2 Supply air 828 1190 828 1071 The doors can be removed for positioning, allowing the heat exchanger sections to be moved through a 900 x 2,000 mm opening. Condensation drain The condensation drain can be lead out in all four directions (The condensation pipe is not supplied by EXHAUSTO). 1760 2450 1760 2638 200 830 1291 2582 RD12780-01 893 805 448 Condensation drain (DN32) 1139 RD12815-01 9

VEX350 Accessories - HCW water heating coil We recommend the heating coil and cold water coil requirements are precisely calculated using the EXselect product selection software tool on our website, which also includes more comprehensive calculation data. VEX350 Normal operation situation - example of calculated values for the water heating coil - The example allows an airflow of approx. 60 % during max. de-icing at outdoor air temperatures of -12 and -20 C, respectively. VEX350 (3,300 m 3 /h) / HCW700x800U / HCWx800I water heating coil (100 % heat recovery) Outdoor temperature/ humidity Room temperature/ humidity Temperature after exchanger HCW output Supply air temperature Water flow p HCW K vs p Kvs [ C / %] [ C / %] [ C] [kw] [ C] [l/h] [kpa] [kpa] [Pa] -12 / 80 22 / 30 15 8 22 288 0.3 0.63 20 23-20 / 85 22 / 30 14 13 22 432 0.6 1.0 20 23 p Air side Extreme operation situation - example of calculated values for the water heating coil - The example allows for 100% airflow during de-icing at outdoor air temperatures of -12 and -20 C, respectively. - Thus allowing a relatively large water flow. VEX350 (3,300 m 3 /h) / HCW700x800U / HCWx800I water heating coil (100 % heat recovery) Outdoor temperature/ humidity Room temperature/ humidity Temperature after exchanger HCW output Supply air temperature Water flow p HCW K vs p Kvs [ C / %] [ C / %] [ C] [kw] [ C] [l/h] [kpa] [kpa] [Pa] -12 / 80 22 / 30 9 15 22 432 0.6 1.0 20 23-20 / 85 22 / 30 1 25 22 1080 3.0 2.5 19 23 p Air side VEX350 Accessories - CCW cold water coil Operation situation - example of calculated values for the cold water coil VEX350 (3,300 m 3 /h) / CCW cold water coil (100 % cooling recovery) Outdoor temperature/ humidity Room temperature/ humidity Temperature and humidity after exchanger CCW cooling output Supply air temperature/ humidity Water flow p CCW K vs p Kvs [ C / %] [ C / %] [ C / %] [kw] [ C / %] [l/h] [kpa] [kpa] [Pa] 28 / 50 24 / 50 25 / 60 13 17 / 83 2016 12 4.0 25 32 32 / 40 26 / 50 28 / 50 16 18 / 79 2448 17 4.0 38 30 p Air side Conditions for the calculated examples Conditions for HCW Water supply temperature 50 C Water cooling, delta t min. 20 K Precision of calculated results ± 10 % Volume flow ratio 1.0 Heat recovery 100 % NB For frost protection using glycol, the output values in the table above must be reduced by approximately 15-20%. Conditions for CCW Water supply temperature 6 C Water return temperature 12 C Precision of calculated results ± 10 % Volume flow ratio 1.0 Cooling recovery 100 % NB The output values in the table above are with a glycol content of 25%. 10

VEX350 Accessories - Dimensional sketches Water heating coil (HCW700x800U) - non-insulated version - optimised for low temp. operation 209 860 800 596 536 1130 DN25 ( 1") Water heating coil (HCWx800I) - insulated version - optimised for low temp. operation 1120 800 580 520 1100 DN25 (1") 55 VEX350 RD12835-01 735 130 770 890 810 890 Pictured with qty. 2 CPx800H connection pieces (accessories). 36 1060 36 Water heating coil (HCWx800U) - non-insulated version Cold water coil (CCWx800I) - insulated version 1100 56 56 925 800 37 1120 800 580 520 DN25 (1") 538 88 890 810 890 148 DN15 (½ ) 130 72 130 * 438 DN15 (½") 628 36 1060 36 Condensation drain Electrical heating coil (HCEx800U) - non-insulated version 538 37 RD12864-01 200 800 1019 600 RD12832-01 Selection of electrical heating coil The size of the electric heating coil size can be selected using the calculation examples for the water heating coil. We recommend the heating coil requirements are precisely calculated using the EXselect product selection application tool on our website. 11

VEX360 Technical data (1100-5,400 m 3 /h) Unit data Absorbed power Power supply Max. phase current Max. neutral current 5.0 kw 3 x 400 V + N + PE ~ 50 Hz 18.0 A (Power consumption is assimilated from 2 phases and is not sinusoidal) 28.8 A (Dimensioning current) VEX360 Principal dimensions, excl. spigots, cable duct and base Height = 1,800 mm, Length = 2,932 mm, Width = 945 mm Integrated connection box for control components Height = 104 mm (see dimensional sketch page 15) Panel material Aluzinc, AZ185, corrosion class C4 in acc. with EN/ISO 12944-2 Insulation 50 mm mineral wool Connection to duct system x 800 mm Service doors (removable) 4 side-mounted doors Filters (outdoor air / extract air) qty. 2 F5 compact filters of 3,6 m 2, 750 x 414 x 96mm qty. 2 F7VDI compact filters of 11,2 m 2, 750 x 414 x 96 mm Weight: Operational-ready unit (3 sections) Heat exchanger section: Fan section: Base: Total: 310 kg qty. 2 at 162 kg each 80 kg 714 kg Highly-efficient counter flow heat exchanger with qty. 4 aluminium panels Thermal transfer area 4 x 49.9 m 2 = 199.6 m 2 Fan data Fan type EXstream, freely revolving B-impeller Vibration suppression Fan suspended in vibration dampers Motor data (per motor) - qty. 2 With integrated control / Third party control system Electrical supply (delta/star) 3 x 230 V / 400 V Full load current (delta/star) 3 x 7.8 A / 4.5 A Power consumption 2.2 kw CEMEP class EFF1 *Frequency converter data (qty. 2 built-in) With integrated control / Third party control system Electrical input 1 x 230 V Electrical output 3 x 230 V Current overload protection Built-in Control Variably adjustable via frequency control * VEX360 for third party control system can be delivered without frequency converter. Accessories V360OD VEX360 is delivered with a roof and sealed connections for outdoor fitting (see example page 9) V360SPLIT The heat recovery section is supplied ready for separation and internal transport and assembly by certified personnel. The fan sections are supplied assembled standard LSx80024 Closing damper x 800 mm with 24 V motor LSRx80024 Closing damper x 800 mm with 24 V spring-return motor LSx80024OD Closing damper x 800 mm with 24 V motor for outdoor fitting LSRx80024OD Closing damper x 800 mm with 24 V spring-return motor for outdoor fitting HCWx800U External water heating coil for indoor fitting 12,2 kg HCWx800I** External water heating coil with inspection door and 50 mm insulation for outdoor fitting 119 kg HCW700x800U** External water heating coil for indoor fitting 18,5 kg CPx800 Connection piece for HCW700x800U 13 kg CPx800H Connection piece for HCW700x800U with inspection door 14 kg HCEx800U9 External electrical heating coil for indoor fitting (9 kw) 34 kg HCEx800U15 External electrical heating coil for indoor fitting (15 kw) 36 kg HCEx800U24 External electrical heating coil for indoor fitting (24 kw) 42 kg CCWx800I External cold water coil with inspection door and 50 mm insulation for outdoor fitting 121 kg ** optimised for low temperature operation. 12

VEX360 Capacity curves VEX360-100 % heat recovery VEX360-0 % heat recovery VEX360 A = B = Capacity curve with F5 filters SFP curve [J/m 3 ] Operating curves Pressure loss supplement with F7VDI filter Pressure loss supplement with heating coil/ cold water coil Capacity calculations are based on conditions given on our website. To calculate capacity data, use our product calculation software on our website Power consumption for VEX P 1 [W] = SFP [J/m 3 ] x q v [m 3 /s] Temperature efficiency Efficiency with condensation Extract air = 20 C/55% RH - Outdoor air = -10 C/50% RH Balance between supply air/extract air = 1.0 Efficiency without condensation med imbalance Extract = 25 C/30% RH - Outdoor air = 5 C/50% RH Balance between supply air/extract air = 0.8 Efficiency without condensation according to EN308 Extract = 25 C/30% RH - Outdoor air = 5 C/50% RH Balance between supply air/extract air = 1.0 The VEX unit temperature efficiency is shown at different volume flow ratios, calculated as: Supply air = 0.8 and 1.0 Extract air t h t = 2,2 - t 2,1 = Temperature efficiency t 1,1 - t 2,1 t 2,1 = Temperature of outdoor air t 2,2 = Temperature of supply air t 1,1 = Temperature of extract 13

VEX360 Sound data VEX360 L WA1 - Suction side VEX360 L WA2 - Pressure side VEX360 Sound output level Suction side (outdoor/extract air): L W1 = L WA1 + K W L WA1 read Sound output level Pressure side (supply/exhaust air): L W2 = L WA2 + K W L WA2 read Sound output level Surroundings L W3 = L WA1 + K W L WA1 read L pa3 = L WA1 + K pa Sound pressure level Surroundings L pa3 = L WA1 + K pa L WA1 read K W (db) Areas 63 125 250 1K 2K 4K 8K L W1 I -6-8 -12 3-7 -15-22 -35 II 0-1 2 1-6 -12-23 -32 I -7-9 -11-1 -5-9 -15-25 L W2 II -4-5 0-3 -4-8 -16-23 K pa db(a) I 17 5 2 0-8 -14-20 -27-18 L W3 II 15 3 7-5 -10-17 -22-25 -18 VEX360 L WA3 - Surroundings L LW2 2.2 2,2 1.1 1,1 L LW1 W1 L W1 LW1 2.1 2,1 1.2 1,2 L LW2 W2 RD12725-01 1,1 1.1 L LW1 W1 L LW2 W2 1.2 1,2 Sound measurements are based on conditions given in our website. LpA3L pa3 RD12726-01 14

VEX360 Dimensional sketches VEX360 - LEFT VEX360 - RIGHT 65 2932 385 824 153 153 2,2,B 1,1,B 65 65 2932 65 153 1,1,B 824 385 2,2,B 153 2,2,A 1,1,A 1,1,A 2,2,A 2,1,A 1,2,A 1,2,A 2,1,A VEX360 828 DN32 1406 1137 828 1137 DN32 828 1406 828 65 945 65 65 945 65 1904 1800 1174 278 2,2,A 71 800 71 800 2,1,A 200 1,1,A 800 800 1,2,A 802 71 71 326 1222 1222 1,1,A 71 800 71 800 326 1,2,A 802 2,2,A 800 800 2,1,A 71 71 200 278 1174 1800 1904 RD12730DK-01 1.1 Extract air 1.2 Exhaust air 2.1 Outdoor air 2.2 Supply air 828 1852 828 1071 The doors can be removed for positioning, allowing the heat exchanger sections to be moved through a 900 x 2,000 mm opening. Condensation drain The condensation drain can be lead out in all four directions (The condensation pipe is not supplied by EXHAUSTO). 1760 2450 1760 2938 200 1140 830 1441 2882 RD12779-01 893 805 448 RD12814-01 Condensation drain (DN32) 15

VEX360 Accessories - HCW water heating coil We recommend the heating coil and cold water coil requirements are precisely calculated using the EXselect product selection software tool on our website, which also includes more comprehensive calculation data. Normal operating situation - example of calculated values for the water heating coil - The example allows an airflow of approx. 60 % during max. de-icing at outdoor air temperatures of -12 and -20 C, respectively. VEX360 VEX360 (4,200 m 3 /h) / HCW700x800U / HCWx800I water heating coil (100 % heat recovery) Outdoor temperature/ humidity Room temperature/ humidity Temperature after exchanger HCW output Supply air temperature Water flow p HCW K vs p Kvs [ C / %] [ C / %] [ C] [kw] [ C] [l/h] [kpa] [kpa] [Pa] -12 / 80 22 / 30 15 10.5 22 324 0.4 0.63 25 32-20 / 85 22 / 30 14 16 22 540 0.9 1.0 25 32 p Air side Extreme operating situation - example of calculated values for the water heating coil - The example allows for 100% airflow during de-icing at outdoor air temperatures of -12 and -20 C, respectively. - Thus the relatively large water flow. VEX360 (4,200 m 3 /h) / HCW700x800U / HCWx800I water heating coil (100 % heat recovery) Outdoor temperature/ humidity Room temperature/ humidity Temperature after exchanger HCW output Supply air temperature Water flow p HCW K vs p Kvs [ C / %] [ C / %] [ C] [kw] [ C ] [l/h] [kpa] [kpa] [Pa] -12 / 80 22 / 30 9 19 22 828 1.9 1.6 25 32-20 / 85 22 / 30 1 32 22 1368 4.5 2.5 25 32 p Air side VEX360 Accessories - CCW cold water coil Operation situation - example of calculated values for the cold water coil VEX360 (4,200 m 3 /h) / CCW cold water coil (100 % cooling recovery) Outdoor temperature/ humidity Room temperature/ humidity Temperature and humidity after exchanger CCW cooling output Supply air temperature/ humidity Water flow p CCW K vs p Kvs [ C / %] [ C / %] [ C / %] [kw] [ C / %] [l/h] [kpa] [kpa] [Pa] 28 / 50 24 / 50 25 / 60 15 18 / 81 2412 17 4.0 38 46 32 / 40 26 / 50 28 / 50 19 19 / 76 2880 23 4.0 50 43 p Air side Conditions for the calculated examples Conditions for HCW Water supply temperature 50 C Water cooling, delta t min. 20 K Precision of calculated results ± 10 % Volume flow ratio 1.0 Heat recovery 100 % NB For frost protection using glycol, the output values in the table above must be reduced by approximately 15-20%. Conditions for CCW Water supply temperature 6 C Water return temperature 12 C Precision of calculated results ± 10 % Volume flow ratio 1.0 Cooling recovery 100 % NB The output values in the table above are with a glycol content of 25%. 16

VEX360 Accessories - Dimensional sketches Water heating coil (HCW700x800U) - non-insulated version - optimised for low temp. operation Water heating coil (HCWx800I) - insulated version - optimised for low temp. operation 1130 1100 209 860 800 596 536 DN25 ( 1") 1120 800 580 520 DN25 (1") VEX360 770 55 735 RD12835-01 890 130 890 810 Pictured with qty. 2 CPx800H connection pieces (accessories). 36 1060 36 Water heating coil (HCWx800U) - non-insulated version Cold water coil (CCWx800I) - insulated version 1100 56 56 925 800 37 1120 800 580 520 DN25 (1") 538 88 890 810 890 148 DN15 (½ ) 130 72 130 * 438 DN15 (½") 628 36 1060 36 Condensation drain Electrical heating coil (HCEx800U) - non-insulated version 538 37 RD12864-01 200 800 1019 600 RD12832-01 Selection of electrical heating coil The size of the electric heating coil size can be selected using the calculation examples for the water heating coil. We recommend the heating coil requirements are precisely calculated using the EXselect product selection application tool on our website. 17

EXact control system Behind every operation, the advanced EXact control ensures the air handling unit operates as effectively and economically as possible. The control can easily be adjusted to the daily rhythm of the location, whether it is a school, office or residence. The essential EXact parameters are: Simple operation Three user modes, two which require access codes (technician and specialist) Several indoor air quality levels with options such as on-demand ventilation via the built-in weekly clock Built-in web server allows monitoring and control over the internet (TCP/IP) Can connect to a DDC unit via Modbus RTU as standard and LON options See several more selected functions in the function overview VEX350/VEX360: Control system HMI control panel The control panel is designed so that it can be operated in two modes, locked or opened. If set in locked mode, the control panel can only be used for normal, daily use, and the user cannot acces advanced menus or parameters. In opened mode, the technician or specialist has access to extra buttons and to more more advanced menus and functions. The control panel requires a code to be operated in open mode. 23 C 60 % 29-05-2009 14:32 User menu The user menu is for daily operations. It shows visual symbols to indicate the unit s status and provide information. The interface allows the user to temporarily change the temperature and ventilation level. 3.1.1 Operating settings IAQ. levels > Temp. reg. > Supply air Air reg. > 1 Balance > 1.00 Regulators > Useful help text... Support texts The very useful support texts displayed in the yellow area minimise the need for manuals and instructions. Support texts are available in both technician and specialist modes. Temperature level/ ventilation level Temperature and ventilation levels can easily and quickly be changed temporarily. Set points are shown together with visual symbols in the display. Alarm/warning The EXact control system will generate a warning symbol if it detects operational disturbances. The display will show an alarm bell if more serious disturbances have been detected. External stop If the ventilation system has been stopped by an external stop signal, this symbol will appear in the display. De-icing If the built-in de-icing function is in operation, this symbol will appear in the display. 18

EXHAUSTO EXHAUSTO EXHAUSTO Connection to external units The EXact control system meets every control requirement for maintaining a perfect indoor climate Web server The EXact control system is supplied with a web server (TCP/IP). This enables various options: Internet (TCP/IP) TCP/IP Modbus Router 1. The unit can be monitored and configured using a local PC. 2. The unit can be connected to a local area network (LAN) and any PC connected to LAN. 3. The unit can be connected to the internet and external internet-enabled PCs. The only requirement is that the connected PC has a browser. The web server is password protected. The web server user interface is designed in the same logical fashion as the control panel. Uniformity makes the system easy to use. The overview screen configuration is complete and ready to monitor the ventilation unit and any accessories. TCP/IP Modbus HMI HMI VEX350/VEX360: Control system Connection to BMS unit The EXact control system can communicate via standardised Modbus RTU. Thus, a BMS unit that uses Modbus can easily be connected. BMS Converter Modbus LON Modbus HMI MIO Connection to other protocols CO 2 Accessories MLON - Module for converting to LON protocol MTCP - Module for converting to TCP/IP Manual The EXact control system can be operated in manual mode. When operating in manual mode, the hand symbol will appear in the display. Weekly plan When operating with the weekly plan activated, the clock symbol will appear in the display. Overrides When temperature and ventilation level set points are changed, the override symbol will appear in the display while the settings are overridden by the next change in the weekly plan. Summer/winter The Exact control system automatically changes from summer time to winter time. The display indicates either summer time or winter time. 19

Innovative ice detection and de-icing function Yes Heating coil fi t t e d No Yes Is an imbalance acceptable? No METHOD 4 METHOD 5 METHOD 6 VEX350/VEX360: Control system The outdoor air gradually bypasses the heat exchanger The outdoor air is gradually reduced The unit enters hibernation mode The unit starts every two hours and monitors the situation The outdoor air gradually bypasses the heat exchanger The outdoor air and extract air are gradually reduced The unit enters hibernation mode The unit starts every two hours and monitors the situation The outdoor air is gradually reduced The unit enters hibernation mode The unit starts every two hours and monitors the situation Frost protection Every heat recovery system runs the risk of ice formation and many parameters are involved. The most important parameters are: - High temperature efficiency - High humidity in the extracted air - Low outdoor air temperature When the energy from the extracted air is used (to cool air), the moisture condenses to water vapour, which collects in the heat exchanger. To ensure low pressure loss and minimise the risk of icing, the VEX350/VEX360 is designed so that the condensed water and the extracted air run through the exchanger together. The high efficiency means that some areas inside the heat exchanger become very cold, and in these areas water will freeze and form ice. This can block the airflow. When/if ice begins to form in the counter flow heat exchanger and pressure loss through the exchanger increases, the de-icing function starts. The function is dependent on various conditions, as shown in the example above. The methods are described in greater detail in the unit s instructions. The VEX350/VEX360 is designed with de-icing bypass: If there is a risk of icing, the outdoor air, to a lesser or greater degree, bypasses the heat exchanger and goes directly to the heating coil. This places greater requirements on the heating coil output. However, a costly pre-heating coil is avoided. Ice-detection occurs via monitoring of pressure loss across the heat exchanger. In the case of extract air with low humidity, e.g. from an office, the temperature can fall below 0 C without ice forming. This means that de-icing only begins when there is ice! So no waste of energy due to unnecessary de-icing. 20

VEX350/VEX360 Air direction - winter operation During wintertime operation with heat recovery, extract air enters at the top and is lead vertically down through the counter flow heat exchanger with any condensed water. The outdoor air enters from the bottom and runs up through the heat exchanger i.e. a counter flow. The unit shown is a LEFT version. VEX350/VEX360 Air direction - summer operation VEX350/VEX360: Control system RD12778GB-01 During summer time operation without heat/cold recovery, both the outdoor air and the extract air around the heat exchanger run via the bypass. This reduces internal pressure loss and the system uses less power for the ventilators and reduces the SFP value. In summer time, if cold recovery is selected via the EXact control system, both air streams will be fed through the heat exchanger. The unit shown is a LEFT version. 21

Energy and SFP calculations 35 30 25 20 15 London Temperature [ C] 10 5 0-5 -10-15 -20 Winter operation Modulating by-pass Summer operation Cold recovery VEX350/VEX360: Control system -25 0 1000 2000 3000 4000 0 6000 7000 8000 Outdoor temperature Heat recovery temperature Extract air temperature Desired supply air temperature Supply air temperature with motor heating SFP winter operation SFP modulating by-pass SFP summer operation SFP cold recovery 2000 h/year @ 2000 J/m 3 3 h/year @ 1750 J/m 3 2900 h/year @ 1 J/m 3 360 h/year @ 2000 J/m 3 8760 h/year Yearly average SFP: 1734 J/m 3 Time [h] Energy consumption Energy consumption is dependent on the actual situation, the expected extract air temperature and the desired supply air temperature. The energy consumed in de-icing is very dependent upon the humidity of the extract air. In the case of residences, icing of the heat exchangers usually occurs when outdoor air temperatures are approx. -4 to -6 C, whereas, in the case of offices, icing does not usually occur. We recommend that you use the EXselect product selection tool to carry out energy calculations every single time. Available at www.exhausto-ventilation.co.uk. To minimise energy consumption involved in de-icing, it is important that ice detection is done by measuring pressure loss across the heat exchanger, as with the VEX350/VEX360. However, there is no difference in the amount of energy used with correct de-icing, no matter if the energy comes from a pre-heating coil, a heating coil or from the building s radiators (in case of imbalance). SFP Calculations The unique double bypass in the VEX350/360 helps to save the energy used to ventilate air. The unit will operate with a modulating bypass in the spring and autumn periods, and thus reduce the internal pressure loss and save energy. Both bypasses will be fully open during the summer (not with cold recovery) for max. energy savings. In the example shown, the specific electricity used is reduced in average from 2,000 to 1,734 J/m 3 throughout the year. A significant saving. This calculation is very dependent upon the prevailing conditions and in every individual case, calculations should be made using the EXselect tool. Conditions for the residential ventilation example given above: Extract air temperature/humidity: 22 C / 30 %RH Desired supply air temperature: 20 C Cold recovery: Active 22

EXact control system - List of functions The table below describes the control system functions. More detailed descriptions of selected functions are shown on the following pages. Function / component Filter monitor Bypass Temperature sensors Overheating protection Fire alarm Closing damper, outdoor air (requirement for water heating coil) Closing damper, exhaust air Description Pressure sensors for monitoring the pressure drop across the filters alarm for a fall more than the value set and "Early Warnings" In the case of modulating bypass of extract air, the heat recovery is reduced to maintain the desired supply air temperature 1) In the extract air spigot to measure/control room temperature 2) In the exhaust air spigot to measure exhaust air temperature 3) In the outdoor air spigot for outdoor air temperature compensation and night-time cooling 4) In the supply air spigot to measure/control supply air temperature 5) Duct temperature sensor 6) Room temperature sensor If there is a danger of the motors or frequency converters overheating the unit will shut off manual reset. Fire thermostats (40/50/70 C), smoke detector and other fire detection switches can be connected. In the case of a tripped fire alarm, the unit s functions are adjustable. The damper is fitted in the outdoor air duct it shuts when the unit stops available with a spring-return motor Standard Accessory The damper is fitted in the exhaust air duct it shuts when the unit stops available with spring-return motor Regulating temperature Regulation of the supply air temperature Regulation of the room temperature Compensation functions Outdoor air temperature compensation Airflow reduction Outdoor airflow compensation Summertime compensation CO 2 compensation Humidity compensation Night-time cooling The unit can be set to start at night to cool the building Frost protection Automatic energy-saving feature for preventing icing in the counter flow heat exchanger Control panel Panel for operation at user, technician and specialist level Weekly clock For setting the times required for changes between indoor air quality levels Bus communication Modbus RTU Modbus TCP/IP LONWORKS Web server Integrated web server allowing control and monitoring over the internet. Cooling recovery On-demand cold recovery Constant pressure regulation Possible for both extract and supply air Motion sensor (PIR) For automatic control of indoor air quality level Airflow measurement Airflow shown in control panel Indoor air quality levels Timer-controlled (comfort, standby, economy, off) Manual Alarm log Displays the last 100 alarms Timers Supply air motor, extract air motor motor Alarm relay Relay for external alarm () VEX350/VEX360: Control system 23

EXact control system - List of functions for accessories HCW - External water heating coil Function / component Temperature sensors Modulating motor valve Circulation pump control Description 1. In the supply air duct to measure/control supply air temperature 2. On the return pipe from the water heating coil to keep the heating coil warm and protect it from icing 3. To protect external piping linked to the heating coil from icing 4. Temperature sensor on water heating coil supply pipe Valve for variably regulating the flow of water to the cold water coil, depending of the cooiling requirement 1. Control of the water heating coil circulation pump 2. Heat requirement function (keeps heating coil frost-free) 3. Built-in control to run the circulation pump during periods when heating is not required VEX350/VEX360: Control system CCW - External cold water coil Function / component Temperature sensors Modulating motor valve Circulation pump control HCE - External electrical heating coil Function / component Temperature sensors Overheating protection Description 1. In the supply air duct to measure supply air temperature 2. In the cold water coil supply pipe Valve for variably regulating the flow of water to the cold water coil, depending of the cooiling requirement 1. Control of the cold water coil circulation pump 2. Built-in control to run the circulation pump during periods when cooling is not required Description In the supply air duct to measure/control supply air temperature 1. TSA60 is situated on the circuit board, trips at 60 C and has manual reset on the HMI panel 2. TSA70 is situated in the air flow, trips at 70 C and has automatic reset 3. TSA120 is situated in the air flow, trips at 120 C and has manual reset i HCE and HMI MXCU - External cooling control Function / component Description Temperature sensors In the supply air duct to measure supply air temperature Control of external cooling unit via start/stop signal and on-demand regulation 0 10 V 24

EXact control system - Advanced functions Regulation principles Room temperature or supply air temperature regulation can be selected. The control system regulates temperature using heat/cold recovery and controls external cooling/heating coils or cooling unit if the cooling/heating demand is greater. Regulating room temperature The room temperature is regulated using the unit's built-in temperature sensor in the extract air spigot or an external room/duct sensor. Room temperature summertime compensation is also available. Supply air temperature regulation Supply air temperature is regulated using the unit's built-in temperature sensor in the supply air spigot. Regulating supply air temperature allows for outdoor air compensation. TEMPERATURE Night-time cooling Cooling recovery Comfort can be improved in large-mass buildings (weight) in the summer, by cooling the buildings at night using outdoor air. Night-time cooling is particularly suitable for offices, institutions, etc. where people do not work at night. Extra optimised function. Substantial energy savings in regards to cooling unit. If there is a need to cool the room or supply air temperature, and the extract air temperature is colder than the outdoor air, cold is recovered from the extract air and used to cool the supply air. Combined with the night-cooling function, this means practically no energy is needed to cool the supply air as long as the extract air is colder than the supply air. AIRFLOW CONTROL Regulating room temperature summertime compensation Outdoor air temperature compensation with supply air temperature regulation Outdoor airflow compensation Airflow reduction Airflow control Airflow compensation When summertime compensation is selected, the set point for the desired room temperature will increase in line with the outdoor temperature. This avoids an unpleasant cold shock when there is a large difference between indoor and outdoor temperatures, and also saves energy. Outdoor air compensation is achieved using the unit s built-in temperature sensor in the outdoor air spigot. When compensating for outdoor air temperature, the supply air temperature set point is lowered in summer and raised in winter. This compensates the supply air temperature in relation to the outdoor air temperature. The control system has a built-in function that reduces the airflow when outdoor air temperature falls. The temperature is measured in the outdoor air spigot. The airflow reduction function can be used when a heating coil is not fitted, or where the heating effect is not sufficient. The supply air is reduced relative to supply air temperature, to maintain the supply air temperature. The unit maintains the set airflow. The airflow is regulated, based on CO 2, humidity or temperature measurement. VEX350/VEX360: Control system Frost protection when using external water heating coil Frost protection of the water heating coil is achieved using a temperature sensor on the return pipe. If the temperature falls under the set temperature during operation, the unit stops. Heat retention function when using external water heating coils If the unit stops, a heat retention function is activated, which keeps the water in the return pipe at the set temperature. This minimises the risk of frost in the heating coil and the unit is ready to start immediately, even when the outdoor temperature is low. SAFETY Starting the unit Run on with external electric heating coil On every start-up and before supply air begins, the system warms the heat exchanger with extract air for 30 seconds. Electrical heating coils have built-in run on, so that the fans run on at low speed for three minutes after the unit has been stopped. The heating coil is disconnected in that time. Filter monitoring The unit has built-in filter monitoring. Limits are set via the control panel. The control panel will indicate if a filter needs changing and this is registered in the alarm list. Counter flow heat exchanger frost protection Full description available on page 20 25

Technical specifications, modules VEX350/VEX360: Control system CONNECTION BOARD 2 x LS (Closing damper, exhaust air/outdoor air) BT (fire thermostat/smoke detector) START/STOP ALARM Communication Power supply 24 V DC ON/OFF 24 V DC Max. power consumption 0.3 A Max. 4 A breaking current Digital input Change-over relay. Max 8 A @ 30 V DC or 250 V AC Load Resistance Modbus RTU RS-485 TCP/IP (Ethernet/webserver) MHCW (Control for water heating coil) MCCW (Control for cold water coil) MXCU (Control for external cooling unit) Communication Modbus RTU RS-485 MVM power supply 24 V AC MVM control signal 0-10 V DC Relay contact for circulation pump 250 V, max. 5 A cos f 0,97 MHCE (Control for electrical heating coil) Communication Modbus RTU RS-485 Number power step Up til 4 Modulating power step Single-step Mains voltage 3 x 400 V + N + PE Dimensional sketch - HMI (control panel) MIO (Modbus Input Output) Analogue input 0-10 V DC Analogue output 0-10 V DC Digital input 24 V DC Digital output open collector 1 A Relay output 250 V max. 8 A, AC1 Temperature in NTC 10 kv @ 25 C CO2 sensor Control signal, Analogue Output 0-10 V DC Measurement range 0-2,000 ppm Accuracy +/- 20 ppm @ 25 C Humidity sensor Control signal, Analogue Output 0-10 V DC Measurement range 5-95 % RH Accuracy +/- 3 % RH (30-70 % RH) PIR sensor Perspective, horizontal 90 Range 6 m Cut-out delay 10 min. TS ROOM E / TS DUCT E Sensor NTC 10 kv @ 25 C Colour graphic display Control panel locked mode Control panel open mode Operating switches OK EXHAUSTO OK Esc EXHAUSTO RD12249-01 VEX350/VEX360 for other control system Freedom to choose! VEX350/360 models can connect to other third-party control systems and integrate with a control system from another supplier. Designed for quick and easy integration. A typical VEX350/VEX360 solution connected to a third-party control system: Air handling unit with counter flow heat exchanger Sectioned unit Base installation Horizontal model Double bypass with 24 V damper motor Free-moving B-impeller - EXstream Filter class F5 or F7 VDI Low-energy motor with frequency converter (FC) can be supplied without FC Airflow measuring points on the ventilators (hoses not supplied) Cables for FC or motors fed to terminal board in the connection box Accessories External water heating coil (HCW) External cold water coil (CCW) External heating coil (HCE) 26

Cable plans Dimensioning of cables and fuses The electrician installing the unit is responsible for ensuring that all sizes used are compatible with current legislation and regulations. The VEX350/VEX360 heat recovery unit has a built-in isolation switch and automatic fuses for overload and short-circuit protection. The HCE electric heating coil has a built-in isolation switch and the control system has short-circuit protection. HCE internal cables and heating element have short-circuit protection, via a fuse in the distribution board (not supplied by EXHAUSTO). Maximum short circuit current (lcu), in accordance with EN60947.2 is 10 ka. Maximum fuse rating is 63 A gg/gl. Accessory types HCW, CCW and XCU do not require separate supply cables and can be directly connected to the VEX350/ VEX360 control system box. Terminals (U1, N) may only be used with the above mentioned accessories, and can have a maximum load of 2 A. A maximum of one HCW (heating coil) and one CCW/XCU (cooling) can be connected. The EXact control prevents both operating at the same time. HCE-type accessories must have a separate power supply. Maximum phase current is the dimensioned current for choice of cable. Cable should be dimensioned according to maximum neutral current if this is greater than the maximum phase current. Equalising connections Equalising connections must be established between the VEX and HCE-type accessories (electrical heating coil). Fitting of earth leak circuit breakers If earth leak circuit breakers are fitted in the installation, they must be of a type that meets the following requirements: a) PFI breaker type A, as per EN 61008, which breaks the circuit when leakage-current is registered with DC content (pulsating DC) b) Cutout time must be max. 0.3 s. The current leakage can be up to 300 ma. Automatic built in fuses VEX350/360 Size Current (V) Fuse for control system (1 x 230 V) 2 pole Fuse for FC1 (1 x 230 V) 2 pole Fuse for FC2 (1 x 230 V) 2 pole Total number of fuses VEX350 3 x 400 V + N + PE 10 A 10 A 10 A 3 VEX360 3 x 400 V + N + PE 10 A 16 A 16 A 3 FC1 = Frequency converter 1 FC2 = Frequency converter 2 VEX350/VEX360 with external water heating coil (HCW) / cold water coil (CCW) VEX350/VEX360: General Size Current (V) Power consumption (A) (max. phase current) Dimensioning max. neutral current (A) VEX350 3 x 400 V + N + PE 10.5 16 VEX360 3 x 400 V + N + PE 18 26.8 27

Cable plans VEX350/VEX360 with external electrical heating coil (HCE) Size Current (V) Power consumption (A) (max. phase current) Dimensioning max. neutral current (A) VEX350 3 x 400 V + N + PE 10.5 16 VEX360 3 x 400 V + N + PE 18 26.8 Size Capacity (kw) Current (V) Dimensioning power consumption (A) (max. phase current) HCEx800U9 9 3 x 400 V + N + PE 13 HCEx800U15 15 3 x 400 V + N + PE 22 HCEx800U24 24 3 x 400 V + N + PE 35 VEX350/VEX360 without external heating coil VEX350/VEX360: General 28

Cable plan - Accessories Abbreviation Term ALARM Alarm relay BT40 Overheating thermostat 40 C BT50 Overheating thermostat 50 C BT70 Overheating thermostat 70 C HMI Control panel LS Closing damper, exhaust air LS Closing damper, outdoor air (a requirement of a water heating coil installation) LSR Closing damper, exhaust air/outdoor air (spring return) MCCW Cold water coil, automatic MHCE Electrical heating coil, automatic MHCW Water heating coil, automatic MIO-CO2 CO 2 sensor MIO-PIR PIR sensor MIO-RH Humidity sensor (RH) MIO-TS Temperature sensor MPT-DUCT Pressure sensor for constant pressure control MXCU Cooling automatic for control of external cooling system Smoke detector Smoke detector VEX350/VEX360: General 29

Standard and extra components VEX350 and VEX360 is supplied with components fitted in the unit or for fitting in the duct system and in the appropriate room. The table lists the components for the VEX350 and VEX360. The table shows standard and accessory components. Accessories must be ordered separately. Overview of components and abbreviations used in the simplified diagram VEX350/VEX360: General Abbreviation Term = Standard = Accessory BP1 Damper, bypass BP2 Damper, bypass BT40/50/70 Fire thermostat, 40 C, 50 C and 70 C, respectively FC1 Frequency converter 1 FC2 Frequency converter 2 HMI Control panel LS Closing damper, exhaust air LS Closing damper, outdoor air (required and supplied with water heating coil) () LSR Closing damper, exhaust air/outdoor air (spring-return) M1 Fan motor 1 M2 Fan motor 2 MCCW Cold water coil, control system MHCE Electrical heating coil, control system MHCW Water heating coil, control system MIO-CO2-DUCT CO2 sensor, duct MIO-CO2-ROOM CO2 sensor, room MIO-PIR PIR sensor MIO-RH-ROOM Humidity sensor (RH) MIO-TS-DUCT Temperature sensor, extract air duct (external) MIO-TS-ROOM Temperature sensor, room MPT-DUCT Pressure sensor for constant pressure regulation MPT1, P1 Air flow measurement, extract air MPT1, P2 Filter monitor, extract air MPT2, P1 Air flow measurement, supply air MPT2, P2 Filter monitor, outdoor air MPT3, P1 Ice detection MVM Motor valve, water heating coil (HCW) SUM ALARM Alarm relay TE1,1 Temperature sensor, extract air - spigot 1,1 TE1,2 Temperature sensor, exhaust air - spigot 1,2 TE2,1 Temperature sensor, outdoor air - spigot 2,1 TE2,2 Temperature sensor, supply air - spigot 2,2 TE-RPT Temperature sensor, return pipe from water heating coil (HCW) TE-SPT Temperature sensor, supply TS-RPT-X Temperature sensor, return, external piping (HCW) TSA 60/70/120 Overheating thermostat, 60 C, 70 C and 120 C 30

Simplified diagram The simplified diagram shows components that can be included in a VEX350 or VEX360 air handling unit. Read the component terms in the table to the left. VEX350/VEX360: General 31

EXHAUSTO - indoor air quality makes a difference 3003923-04.2011 - We reserve the right to make changes without notice. Technologies EXHAUSTO provides three technologies within heat recovery, cross-flow heat exchangers, rotary heat exchangers and counter flow heat exchangers. The three technology platforms have their own unique advantages and applications. Our innovation is aimed at energy optimisation in all regards - we develop products that set the standard for future energy requirements. System solutions EXHAUSTO consistently develops system solutions that support professional project planning of ventilation for residences, offices and schools. Every single system meets both regulatory requirements and building owners needs and requirements. The individual systems are naturally supported by the EXHAUSTO products best suited to each and every installation. Indoor air quality competences EXHAUSTO is part of VKR Holding A/S, incorporated in the company s ventilation and indoor climate business area. VKR Holding A/S aims to provide customers with innovative and energy-efficient solutions to ensure an excellent indoor climate in new and existing buildings. To read more visit www.vkr-holding.com At EXHAUSTO, we consistently strive to improve the performance of our products, to enhance not only indoor air quality but also the global climate benefiting everyone. It s about finding the balance between comfort, energyefficient solutions and economically-viable operating solutions. EXHAUSTO VENTILATION Ltd. Unit 1, Pelham Court Pelham Place Broadfield - Crawley West Sussex -RH11 9SH Tel. 01293 511555 Fax 01293 533888 info@exhausto-ventilation.co.uk www.exhausto-ventilation.co.uk