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- 3. 3 CONTENTS 1.0 About Aermec ......................................................................................................................................................................................4 2.0 Energy labelling and minimum efficiency and noise requirements.................................................................................6 3.0 Incentives and deductions.............................................................................................................................................................10 4.0 Aermec products for residential applications.........................................................................................................................12 5.0 VMF. Variable Multi Flow System..................................................................................................................................................16 6.0 Features of the electrical connections ......................................................................................................................................23 7.0 System diagrams...............................................................................................................................................................................24 7.1 ANKI heat pump with integrated pumping assembly for heating/cooling with a fan coil system – Production of DHW by an SAF heat storage tank........................................................................................................................24 7.2 ANKI heat pump with integrated pumping assembly and auxiliary boiler for heating/cooling with a fan coil system – Production of DHW by an SAF heat storage tank and boiler provided standard.......................................................................................................................................................................................................25 7.3 NRK heat pump with integrated pumping assembly for heating/cooling with a fan coil system – Production of DHW by an SAF heat storage tank – AerApp supervision via the AerLink accessory.........................26 7.4 ANK heat pump with integrated pumping assembly for heating/cooling with a fan coil system – Production of DHW by an SAF heat storage tank – PC supervision via the VMF-Monitoring kit................................27 7.5 ANK heat pump with integrated pumping assembly and auxiliary boiler for heating/cooling with a fan coil system – Production of DHW via the VMF-ACS electrical panel via a third party boiler and boiler provided standard.......................................................................................................................................................................................................28 7.6 WRL-H heat pump with integrated pumping assembly for heating/cooling with a fan coil system – Production of DHW by an SAF heat storage tank ........................................................................................................................29 7.7 WRL-HT total recovery heat pump for heating/cooling with a fan coil system – Production of DHW by an SAF heat storage tank ............................................................................................................................................................................30 7.8 ANKI heat pump with integrated pumping assembly for heating/cooling with a fan coil system - Production of DHW by a dedicated SWP heat pump..................................................................................................................31 7.9 CL-H indoor heat pump with integrated pumping assembly and auxiliary boiler for heating/cooling with a fan coil system – Production of DHW via the VMF-ACS electrical panel via a third party boiler and boiler provided standard.......................................................................................................................................................................................................32 7.10 ANKI heat pump with integrated pumping assembly and auxiliary boiler for heating/cooling with a fan coil system, MZC motorised plenum, radiant floor and heated furnishings for bathrooms – Production of DHW by SAF heat storage tank and boiler provided standard.................................................................................................................34 7.11 ANKI heat pump with integrated pumping assembly for heating/cooling with a fan coil system, radiant floor and heated furnishings - Production of DHW by an SAF heat storage tank.......................................................................36 8.0 References ...........................................................................................................................................................................................38
- 4. 4 Aermec was founded 1961 with a mission that was quite ambitious at the time: provide well-being and comfort in all areas where people live and work. Since then, Aermec has expanded its activities, dedicating itself to a mul- titude of applications within markets as diverse as residential environ- ments, with a complete portfolio of commercial applications, including stores, hotels, data centres, large systems including sports and leisure fa- cilities, public buildings, healthcare centres and transport infrastructure, as well as numerous specific industrial applications. Within this broad scenario, Aermec continues to base its activities on its constant attention to research and quality in order to develop technical solutions that ensure maximum satisfaction among its users. Aermec's competitive advantage results from the company's ability to meet the technological challenges posed by innovation, investing in processes and logistics and understanding the needs of individual customers. Experience, ideas and innovative solutions, competency and flexibility satisfy market needs, guaranteeing a level of well-being that also makes it possible to design the environment, respecting the precise values on which Giordano Riello has relied since 1961 when he established Aermec. Respect for these values, which represent the technical principles of a brand, is fundamental for Aermec's international success. When design- ing and producing its products and systems, Aermec focuses on every single detail in order to respect the environment, reduce pollution, save energy, preserve health and improve well-being. Aermec recognises the value of every individual, and for this reason it places maximum importance on health and the improvement of well- being. Aermec respects different cultures and customs of populations around the world, without every forgetting the territory where it was established and where it has developed, and which has offered the support and re- sources for obtaining success. 1.0 ABOUT AERMEC View from above of the company and main entrance > 700 Employees 145,000 square metres of the facility, of which 61,000 covered 57 Exclusive sales outlets in Italy > 70 Distributors in Europe and world-wide 5 Distributors in France, United King- dom, Germany, Poland and Russia 78 Service centres in Italy
- 5. 5 Advanced logistics Strongly automatic production lines, together with the most ad- vanced technologies in logistics, including the Enterprise Resource Planning (ERP) system, make it possible to obtain fast delivery times able to satisfy all customer requests, ensuring high levels of quality. In fact, before being placed on the market, each single unit is subjected to scrupulous checks concerning safety and technical performance. Supporting efficiency Aermec is ISO14001 certified and is strongly committed to mini- mising its environmental impact in all its activities: not only in its production facilities, but also in the solutions it offers to its custom- ers. Thanks to cutting edge development, technologies that permit the use of free cooling and advanced control algorithms, Aermec products guarantee minimum consumption and significant energy savings both at a full load as well as at partial loads. Technology and reliability Aermec's quality is guaranteed by important certifications, such as Eurovent in Europe, AHRI in North America and many others. Every year, many customers visit our laboratories at our headquarters to observe customised aeraulic, enthalpy and noise control tests. Aer- mec currently has the largest climatic test chamber in Europe in its research centre for plant machinery. It is Eurovent and AHRI certified and able to test power units up to 2 MW. Here tests are performed with a level of precision up to ± 0.2 °C that are able to simulate room temperature conditions that vary from -20 to +55 °C. Rigorous procedures during the design phase, the careful selection of suppliers, in-depth prototype testing, numerous field tests and vibra- tional analyses guarantee that all Aermec products are resistant and guarantee operation even in the most difficult operating conditions. Medium power equipment assembly line Testing chamber Fancoil production line
- 6. 6 26 September 2015 was a milestone for the world of heating and the production of domestic hot water: this was the date TIER 1 of European Regulation 813/2013 entered into force. This regulation establishes the methods for the application of European Directive 2009/125/EC (ERP Di- rective) as regards the specifications for the eco-compatible design of room heating equipment and for mixed room and domestic hot water heating with a design heating capacity Pdes* ≤ 400 Kw; it defines the average seasonal efficiency indicators (SCOP and seasonal performance η_S) and requires the minimum values of these indicators in order to sell the machines in the European market. For heat pumps dedicated to room heating, the thresholds to respect with TIER 1 were as follows: • Low temperature applications (35°C): η_S ≥ 115% • Medium temperature applications (55°C): η_S ≥ 100% TIER 1 was replaced by TIER 2 (26 September 2017), which increased the seasonal efficiency thresholds for placing heat pumps with Pdes ≤ 400 Kw on the European market: • Low temperature applications (35°C): η_S ≥ 125% • Medium temperature applications (55°C): η_S ≥ 110% The energy efficiency values must be declared in the relevant sections of the technical documentation and the website. European Regulation 813/2013 also introduced sound power limits for heat pumps for room heating and mixed room and DHW heating with Pdes ≤ 70 Kw; they are supplied based on their design heating capacity. These limits must be respected as of 26 September 2015. Nominal heating capacity ≤ 6 kW Nominal heating capacity > 6 kW and ≤ 12kW Nominal heating capacity > 12 kW and ≤ 30 kW Nominal heating capacity > 30 kW and ≤ 70 kW Sound power levelLW A (indoor) Sound power levelLW A (outdoor) Sound power levelLW A (indoor) Sound power levelLW A (outdoor) Sound power levelLW A (indoor) Sound power levelLW A (outdoor) Sound power levelLW A (indoor) Sound power levelLW A (outdoor) 60 dB 65 dB 65 dB 70 dB 70 dB 78 dB 80 dB 88 dB 2.0 ENERGY LABELLING AND MINIMUM EFFICIENCY AND NOISE REQUIREMENTS
- 7. 7 For heat pumps designed for mixed room and DHW heating, the man- ufacturer is required to declare the seasonal efficiency connected to the production of domestic hot water. The technical documentation must indicate the machine's declared load profile (from 3XS to 4XL); each load profile is associated with a time and a duration, the useful and minimum water draw-off temperature, the water flow rate and the thermal energy drawn off. Starting from 26 September 2017, the heating energy efficiency for the production of DHW may not be lower than the values indicated below based on the load profile: Declared load profile 3XS XXS XS S M L XL XXL 3XL 4XL Water heat- ing energy efficiency 32% 32% 32% 32% 36% 37% 38% 60% 64% 64% The mixed-use heat pumps are classified for DHW following a test whose result can change by varying the features of the storage tank associated with the machine. For this reason, a heat pump for the mixed room and DHW heating is certified in association with a do- mestic hot water storage tank with well defined features. For heat pumps designed exclusively for room heating, if it is tech- nically feasible to connect a DHW storage tank for mixed use, there is a possibility from a regulatory point of view to realise the system with the obligation to label the system according to the procedure declared in European Regulation 811/2013. European Regulation 811/2013 regulates energy labelling for prod- ucts used for room heating or mixed room and DHW heating.This reg- ulation requires providing heating equipment with Pdes ≤ 70 Kw with an energy label, for the purpose of demonstrating compliance with the minimum seasonal energy performance (energetic eco-compat- ibility) and sound power (acoustic eco-compatibility) requirements; it introduced a new seasonal energy efficiency scale for heat pumps (from A++ to G with TIER 1 from 26 September 2015, from A+++ to D withTIER 2 from 26 September 2019) based on the seasonal efficiency parameter η_S.
- 8. 8 Energy classification (TIER 1 andTIER 2) of heat pumps for room heating for low temperature applications (water produced at 35°C). Room heating seasonal energy efficiency class Room heating seasonal energy efficiency class A+++ ηs ≥ 175 A++ 150 ≤ ηs < 175 A+ 123 ≤ ηs < 150 A 115 ≤ ηs < 123 B 107 ≤ ηs < 115 C 100 ≤ ηs < 107 D 61 ≤ ηs < 100 E 59 ≤ ηs < 61 F 55 ≤ ηs < 59 G ηs < 55 Energy classification (TIER 1 andTIER 2) of heat pumps for room heating for medium temperature applications (water produced at 55°C). Room heating seasonal energy efficiency class Room heating seasonal energy efficiency class A+++ η ≥ 150 A++ 125 ≤ ηs < 150 A+ 98 ≤ ηs < 125 A 90 ≤ ηs < 98 B 82 ≤ ηs < 90 C 75 ≤ ηs < 82 D 36 ≤ ηs < 75 E 34 ≤ ηs < 36 F 30 ≤ ηs < 34 G ηs < 30 If the heat pump is certified for medium temperature applications, the seasonal energy efficiency class and the Pdes must be indicated for both low temperature (35°C) and medium temperature (55°C) applications for the produced water. Energy classification (TIER 1 and TIER 2) of heat pumps for mixed heating (DHW profile). 3XS XXS XS S M L XL XXL A+++ ηwh ≥62 ηwh ≥62 ηwh ≥69 ηwh ≥90 ηwh ≥163 ηwh ≥188 ηwh ≥200 ηwh ≥213 A++ 53≤ηwh <62 53≤ηwh <62 61≤ηwh <69 72≤ηwh <90 130≤ηwh <163 150≤ηwh <188 160≤ηwh <200 170≤ηwh <213 A+ 44≤ηwh <53 44≤ηwh <53 53≤ηwh <61 55≤ηwh <72 100≤ηwh <130 115≤ηwh <150 123≤ηwh <160 131≤ηwh <170 A 35≤ηwh <44 35≤ηwh <44 38≤ηwh <53 38≤ηwh <55 65≤ηwh <100 75≤ηwh <115 80≤ηwh <123 85≤ηwh <131 B 32≤ηwh <35 32≤ηwh <35 32≤ηwh <38 32≤ηwh <38 39≤ηwh <65 50≤ηwh <75 55≤ηwh <80 60≤ηwh <85 C 29≤ηwh <32 29≤ηwh <32 32≤ηwh <35 32≤ηwh <35 36≤ηwh <39 37≤ηwh <50 38≤ηwh <55 40≤ηwh <60 D 26≤ηwh <29 26≤ηwh <29 29≤ηwh <32 29≤ηwh <32 33≤ηwh <36 34≤ηwh <37 35≤ηwh <38 36≤ηwh <40 E 22≤ηwh <26 23≤ηwh <26 26≤ηwh <29 26≤ηwh <29 30≤ηwh <33 30≤ηwh <34 30≤ηwh <35 32≤ηwh <36 F 19≤ηwh <22 20≤ηwh <23 23≤ηwh <26 23≤ηwh <26 27≤ηwh <30 27≤ηwh <30 27≤ηwh <30 28≤ηwh <32 G ηwh <19 ηwh <20 ηwh <23 ηwh <23 ηwh <27 ηwh <27 ηwh <27 ηwh <28
- 9. 9 This label is applied to the packaging of the actual product by the manufacturer or the importer. FOR MORE INFORMATION ABOUTTHE ENERGY CLASSIFICATION OFTHE AERMEC UNITS,VISIT OUR SITE USING THE RELATIVE QR CODE ! A++ A+ A B C D E F G 2015 811/2013 dB dB 55 °C 35 °C kW kW 06 06 07 06 06 07 00 65 A + A + II III IV V V VII IV III VI I I Manufacturer's name or brand; II Supplier model's ID code; III Room heating function for medium and low temperature applications; IV Seasonal energy efficiency class for room heating in average climatic conditions for medium and low temperature applica- tions; V Nominal heating capacity in average climate conditions, colder and hotter for medium and low temperature applications, rounded to the nearest full digit; VI Temperature map for Europe with the three reference temper- ature zones; VII Indoor (if the device is for indoor applications) and outdoor sound power level in dB, rounded to the nearest full digit;
- 10. 10 There are two types of incentives when replacing existing winter air con- ditioning systems with heat pump systems: Conto Termico 2.0 and the Ecobonus (65% tax deduction). An additional incentive available for heat pump systems is the 50% tax deduction for building restructuring. Conto Termico 2.0 This is an incentive that does not expire that can be used by public ad- ministrations, which they can receive when the work is complete, or in advance by providing suitable documentation prepared by a notary where a commitment is made to perform the work, or by private indi- viduals, who can only receive it when the work is complete. Its purpose, which is set forth in Italian Ministerial Decree 26/02/2016, is to provide an incentive to carry out small projects in order to increase energy effi- ciency and the production of thermal energy from renewable sources in existing buildings. This incentive has various calculation mechanisms depending on the type of project; for the replacement of a heating system with a heat pump system, Conto Termico 2.0 is calculated based on the produced thermal energy and the performance of the heat pump (COP), supplied at the conditions defined by the decree, and based on the climatic zone of installation. Furthermore, the incentive depends on a coefficient that associates a value with the thermal energy produced in function of the utilised technology. It is provided over a 2 or 5 year period on an annual basis, providing that the total amount of the incentive does not exceed Euro 5000: in this case, it is provided in a single instalment. The cumulative expense planned annual for Conto Termico 2.0 is equal to Euro 200 million for project completed or to be completed by Public Administrations and Euro 700 million for projects carried out by private individuals. The beneficiary of the incentive is called the responsible party, that is the party responsible for the project from an economic point of view; the responsible party can also work through a person delegated to present the request for the incentive using the request sheet and for managing contractual relationships with the GSE (Energy Services Manager), the entity providing the incentive. In addition to a direct relationship, Public Administrations and private parties can work with an ESCo (Energy Service Company), respectively 3.0 INCENTIVES AND DEDUCTIONS
- 11. 11 through the stipulation of an energy performance contract and an ener- gy service or energy performance contract. The projects allowed for the incentives concern existing buildings or rural buildings that have an air conditioning system. All the projects must be carried out using newly built equipment and components and must be correctly dimensioned based on industry regulations and based on the actual requirements for thermal energy. To make it easier to access the incentive, the GSE has published a cata- logue of products suitable for equipment with nominal useful heating up to 35 kW, for which GSE has already acquired certification and for which there is a simplified procedure. 65% tax deduction This is a deduction applicable to energy requalification projects carried out on existing buildings of any land registry category, providing that it has a heating system. In the case of heat pump systems, the condition for accessing the deduction 65% deduction is that it concerns high ef- ficiency systems and that their installation replaces the existing heating system. High efficiency refers to the specific tables indicated by the Ital- ian Revenue Office, whose minimum performance values depend on the type of heat pump selected. The Ecobonus does not apply to installations in buildings that do not al- ready have a heating system or to the addition of a split to a heat pump that integrates an existing heating system. The 65% tax deduction is applied over a 10 year period. 50% tax deduction This concerns building renovation: if the project does not meet the con- ditions specified for accessing the 65% Ecobonus, it may be possible to access this type of tax incentive. This deduction only applies to the work performed in homes or common parts of residential buildings. The list of work does not include the specific item for heat pumps, how- ever it can be included in the “radiators and air conditioners” category. To access the 50% deduction, the work must be carried out with the pur- pose of energy savings. As for the Ecobonus, also the 50% tax deduction is applied over 10 years. FOR MORE INFORMATION ABOUTTHETAX DEDUCTIONS FORTHE AERMEC UNITS,VISIT OUR SITE USINGTHE RELATIVE QR CODE ! The units listed in the site does not have a hydronic kit. For more information about units with a hydronic kit, contact the agency of reference.
- 12. 12 HEAT PUMPS : 4.0 AERMEC PRODUCTS FOR RESIDENTIAL APPLICATIONS ANKI 020H-080H Cooling capacity: kW 0 5 10 15 20 5,9 18,7 25 30 35 Heating capacity: kW 0 5 10 15 20 6,1 20,2 25 30 35 Inverter reversible air-water heat pump for outdoor installation. De- signed for air conditioning/heating and the production of domestic hot water. Heating operation with external air down to -20°C and produc- ing water as hot as 60°C. Can be combined with SAF heat storage tanks for the production of domestic hot water ANK 020H-150H Cooling capacity: kW 0 5 10 15 20 6,8 29,2 25 30 35 Heating capacity: kW 0 5 10 15 20 8 33,5 25 30 35 Reversible air-water heat pump for outdoor installation. Designed for air conditioning/heating and the production of domestic hot water. Heating operation with external air down to -20°C and producing water as hot as 60°C. Can be combined with SAF heat storage tanks via the VMF system for the production of domestic hot water. ANL 020H-202H Cooling capacity: kW 0 10 20 30 40 5,7 43 50 60 70 Heating capacity: kW 0 10 20 30 40 6,2 46 50 60 70 Reversible air-water heat pump for outdoor installation. Designed for air conditioning/heating and the production of domestic hot water. Can be combined with SAF heat storage tanks via the VMF system for the production of domestic hot water. NRK 0090H-0150H Cooling capacity: kW 0 30 60 90 120 18 148 150 180 210 Heating capacity: kW 0 30 60 90 120 21 175 150 180 210 Reversible air-water heat pump for outdoor installation. Designed for air conditioning/heating and the production of domestic hot water. Heating operation with external air down to -20°C and producing water as hot as 65°C. Can be combined with SAF heat storage tanks via the VMF system for the production of domestic hot water.
- 13. 13 REGULATION AND CONTROL HEAT STORAGE TANKS AND HEAT PUMPS FOR THE PRODUCTION OF DHW: PGD1 Remote panel. This makes it possible to carry out the heat pump's basic controls with the signalling of alarms. Can be remote controlled with up to 500 m of 2-wire shielded twisted PAIR cable + SHIELD and TCONN6J000. PR 3 Permits moving the basic controls (on/off, changing the operating mode, alarm signal) far from the heat pump. The maximum permitted installation distance is 30 m. CL 025H-200H Cooling capacity: kW 0 10 20 30 40 5,5 39,3 50 60 70 Heating capacity: kW 0 10 20 30 40 8,2 42,7 50 60 70 Reversible air-water heat pump with Plug Fan fans for indoor instal- lation. Designed for air conditioning/heating and the production of domestic hot water. Can be combined with SAF heat storage tanks via the VMF system for the production of domestic hot water. WRL 026H-161H Cooling capacity: kW 0 10 20 30 40 7 43,4 50 60 70 Heating capacity: kW 0 10 20 30 40 8 48,1 50 60 70 Reversiblegassidewater-waterheatpumpforindoorinstallation.Designed forairconditioning/heatingandtheproductionofdomestichotwater.Can becombinedwithSAFheatstoragetanksviatheVMFsystemfortheproduc- tionofdomestichotwater.Withthetotalrecoveryunit,itispossibletogive prioritytotheproductionofDHWinsummerandinwinter SAF Single-block thermo-accumulator for the production of instant domestic hot water, equipped with inverter circulator, electronic adjustment card and stainless steel plate heat exchanger, which ensures maximum hygiene by separating the drinking water circuit from the technical water circuit. The high insulation minimises energy dispersion. This device has been designed to be combined with heat pumps but also with traditional or biomass boilers, solar thermal systems and other renewable sources. The accumulator can be fitted with an additional coil to integrate an additional heat source, as well as a dedicated circulator and a control software. SWP A heat pump that uses the thermal energy of the air for the pro- duction of domestic hot water. The machine is suitable for indoor installation only and uses R134a gas. The process takes place in the most effective and profitable way, with very high average efficiency levels. The condenser is wound externally of the boiler, and therefore does not have any scale or possible refrigerant-wa- ter contamination. Thereby the energetic advantage of the SWP heat pumps allows to protect the environment, using above all the energy of solar radiation if used in combination with solar thermal panels. The ease of installation, the silent and reliable operation and the very low maintenance requirements, complete the advantages of this highly ecological and economic system.
- 14. 14 FAN COILS: FCZ Cooling capacity: kW 0 1 2 3 4 1 6,8 5 6 7 Heating capacity: kW 0 3 6 9 12 2,4 15,5 15 18 20 On-off fan coils that can be installed in any type of 2/4 pipe system and in com- bination with any heat generator. Thanks to the availability of various versions and configurations, it is easy to select the optimal solution for all system require- ments. Also available in a flush-mounted FCZ-P and duct type FCZ-PO version. FCZI Cooling capacity: kW 0 1 2 3 4 1,6 6,4 5 6 7 Heating capacity: kW 0 3 6 9 12 3,7 15,5 15 18 20 Inverter fan coils that can be installed in any type of 2/4 pipe system or in combi- nation with any heat generator.Thanks to the availability of various versions and configurations, it is easy to select the optimal solution for all system requirements. Also available in a recessed FCZ-P and duct type FCZI-P version. FCZ_DS Dualjet Cooling capacity: kW 0 1 2 3 4 1 6,8 5 6 7 Heating capacity: kW 0 3 6 9 12 2,4 15,5 15 18 20 FCZ series on-off fan coils that can be installed on the floor in 2/4 pipe systems and in combination with any heat generator. They are able to offer a pleasant sensation of comfort by directing the air in a way that evenly distributes the tem- perature in the room: in the winter, the hot air is directed down towards the floor, whereas during summer the fresh air is directed towards the ceiling. OMNIA HL Cooling capacity: Heating capacity: On-of fan coils (Giugiaro Design) for universal installation for residential use. They can be installed in 2/4 pipe systems and in combination with any heat generator.
- 15. 15 ACCESSORY FOR DUCT TYPE APPLICATIONS MZC Multizone plenum with motorised dampers for the control of the air flow rate and the channelling of the fan coils, which allows obtaining an optimal level of ambient comfort while saving energy. The closing and opening of the dampers is connected to the request for air conditioning by the master and slave MZCUI room thermostats. MZC can be combined both with ON- OFF fan coils as well as inverter fan coils. OMNIA UL Cooling capacity: kW 0 0,5 1 2,5 3 0,8 2,8 3,5 4 4,5 Heating capacity: kW 0 1 2 3 4 2 5,9 5 6 7 On-of fan coils for universal installation for residential use. They can be installed in any type of 2/4 pipe system or in combination with any heat generator. Also available in the inverter version (Omnia-ULI). OMNIA Radiant Cooling capacity: kW 0 0,5 1 2,5 3 2 2,8 3,5 4 4,5 Heating capacity: kW 0 1 2 3 4 4,6 5,9 5 6 7 On-off fan coils with radiant panel for floor installation for residential use. They can be installed in 2 pipe systems and in combination with any heat generator. During the heating season, in addition to a contribution related to forced convec- tion, there is also the radiant effect as well as the natural convection related to the presence of the radiant panel. Also available in the inverter version (Omnia-ULRI). FCLI Cooling capacity: kW 0 2 4 6 8 1,9 11 10 12 14 Heating capacity: kW 0 2 4 6 8 2,3 13 10 12 14 Inverter fan coils that can be installed in a false ceiling in 2/4 pipe systems and in combination with any heat generator. The dimensions 600x600 and 800x800 mm make it possible to integrate this unit with all standard panels. The cassette must be completed by combining it with a GLLI/GLFI series grille. To insert the unit in the VMF system, refer to the technical documentation. FCL Cooling capacity: kW 0 2 4 6 8 1,9 11 10 12 14 Heating capacity: kW 0 2 4 6 8 2,3 13 10 12 14 On-off fan coils that can be installed in a false ceiling in 2/4 pipe systems and in combination with any heat generator. The dimensions 600x600 and 800x800 mm make it possible to integrate this unit with all standard panels. The cassette must be completed by combining it with a GLL/GLF series grille. To insert the unit in the VMF system, refer to the technical documentation.
- 16. 16 The Variable Multi Flow system is a system for the management and con- trol of hydronic systems for air conditioning and the production of do- mestic hot water developed by AERMEC, which uses the RS485 Modbus protocol. VMF permits the complete control of each component in a hydronic sys- tem, either locally or centrally, in order to guarantee the level of comfort required by the end user; this takes place based on communication be- tween the various components of the system. The system manages ma- chine performance to guarantee high system efficiency at every moment in order to obtain considerable energy savings. As the VMF system is able to control heat pumps, circulators and fan coil, it is able to implement the concept of “VARIABLE MULTI FLOW” by man- aging the flow rate of the REFRIGERANT (via the compressors), theWATER (via the circulators) and the AIR (via the fans): the management of these three fluids makes it possible to obtain the conditions of comfort desired by the end user in the shortest amount of time possible and to maintain it as efficiently as possible. The VMF system is extremely flexible, and even permits selecting differ- ent levels of control and management, which can be expanded at differ- ent moments: Control of a single fan coil Control of a fan coil zone Control of a network of fan coils comprised of multiple independent zones Control of the fan coil network + heat pump(*) Control of the fan coil network + heat pump(*) + production of DHW(**) Control of the fan coil network + heat pump(*) + production of DHW(**) + circulators Control of the fan coil network + Heat pump(*) + DHW produc- tion (**) + circulators + heat recovery units and/or boiler MINIMUM CONTROL LEVEL (*) Heat pump (**) Domestic Hot Water MAXIMUM CONTROL LEVEL 5.0 VMF. VARIABLE MULTI FLOW SYSTEM To allowVMF-E5 to supervise the heat pumps in theVMF system, the accessories for interfacing with the RS485 Modbus protocol must be provided for the heat pumps (MOD485K, MODU-485BL and AER485P1 depending on the machine model). For more information, refer to the technical documentation.
- 17. 17 VMF MANAGEMENT SYSTEM: VMF E5 Recessed wall-mounted panel allowing control of functions through a capaci- tive keyboard of a complete hydronic system. VMF E4X Wall-mounted user interface. VMF E4X, to be combined with VMF-E0X, VMF- E1X or VMF-E18X accessories, allowing control of the fan coil functions through a capacitive keyboard. VMF E2 Machine-mounted user interface to be combined with VMF-E0X, VMF-E1X or VMF-E18X accessories. VMF-E2 has 2 selector switches, one for temperature and the other for speed control. VMF-E2H: OMNIA HL series fan coil mounted interface VMF-E2D: Dualjet series fan coil mounted interface VMF IO Expansion board that expands the availability of the Digital Inputs and Outputs, configurable via dip switches, making it possible to control the thermostat via VMF-E5 or an external BMS without using a local user interface (e.g. VMF-E2 or VMF-E4X). VMF E0X Thermostat accessory to be secured to the side of the ON-OFF slave fan coil, fitted as standard with an air probe and water probe, it controls systems with 2 pipes, 4 pipes, 2 pipes + Plasma Cluster, 2 pipes + UV lamp, 2 pipes + electric resistor. VMF E1X Thermostat accessory to be secured to the side of the ON-OFF master fan coil, fitted as standard with an air probe and water probe, it controls systems with 2 pipes, 4 pipes, 2 pipes + Plasma Cluster, 2 pipes + UV lamp, 2 pipes + electric resistor. VMF E18X Thermostat accessory to be secured to the side of the inverter master and slave fan coil, fitted as standard with an air probe and water probe, it controls systems with 2 pipes, 4 pipes, 2 pipes + Plasma Cluster, 2 pipes + UV lamp, 2 pipes + electric resistor. VMF-CRP Expansion that permits activating up to 4 pumps for water circulation in the secondary loop in a hydronic system managed by E5.The board associates each fan coil with a pump, which activates when the first fan coil associated with it turns on, and turns off when the last fan coil associated with it reaches the set- point or when there is no longer a load demand from the system. There can be a maximum of 3 CRP pump boards for the management of 12 total pumps in the same hydronic system managed by VMF-E5. Expansion that enables the boiler to operate instead of the heat pump when the temperature of the external air drops below a certain value, which is set via E5. This board also permits controlling the on/off function of a maximum of 3 heat recovery units. There can be a maximum of one boiler and heat recovery unit CRP board in the same hydronic system managed by VMF-E5. VMF ACS Electrical panel for the control of DHW, it controls: • System storage tank probe • DHW probe • Three-way valve or domestic hot water pump • Electric resistor • Boiler or three-way valve or system pump • Multifunction output
- 18. 18 ACCESSORIES FOR SYSTEM EXPANSION AND FOR SUPERVISION: VMF-485EXP Accessory fit on the centralised VMF-E5 panel that makes it possible to add a RS485 serial communication port towards external supervision (VMF-Monitor- ing, Aerlink, external BMS). VMF-Monitoring PC software to monitor and control the operation of one or several systems equipped with the VMF system. The VMF-E5 panel makes the RS485 serial com- munication port used by the hydraulic system control application available via the VMF-485EXP expansion board. The maximum number of controllable sys- tems, each with E5 and 485EXP, is 10. AERLINK Wifi Gateway with an RS485 serial part that can be installed on all machines* or all con- trollers that have an RS485 serial port.The module permits the simultaneous activation of the APWIFI (Access Point) and theWIFI station, which makes it possible to connect to the home or business LAN. The system is managed via the AerApp application, which permits the control of up to 6 systems equipped with E5 and 485EXP Multicontrol User interface panel that permits the simultaneous management of several chillers or heat pumps (up to 4) fitted with the Moducontrol control card installed in the same system. For complete system control, there must be 3 CRP accessories: • CRP 1: control of 4 three-way deviating valves, system input and output water probes (SIW and SUW), DHW storage tank water probe (SAS) and KSAE accessory for the out- side air temperature (SAE) • CRP2:controlofthesupplementaryelectricresistorinthedomestichotwaterstoragetank • CRP3:remotecontroloftheon/offfunction,seasonchange,alarms,systemstatus,sea- son status NB: If Multicontrol is integrated in a system controlled via the VMF system, the production of DHW must be controlled by the Multicontrol, as VMF-ACS is not compatible with the Multicontrol accessory VMF-RCC Hydronic system controller for residential systems, which controls: 1. Maximumof3MZC(maximum6dampers/zoneforeachMZC–18zonestotal) 2. Maximum 10 master fan coils (10 zones) 3. Heat pump 4. Production of domestic hot water via VMF-ACS or SAF 5. Maximum3VMF-REB:Expansionforthecontrolofmaximum10radiantheads • VMF-REB1:Controlofmaximum10zoneswithsinglefancoilsandradiantcircuits • VMF-REB 2: Control of maximum 10 zones with MZC and radiant circuits • VMF-REB 3: Control of maximum 8 zones with MZC and radiant circuits 6. 1 VMF-CRP: boiler + 3 heat recovery units 7. 3 VMF-CRP: maximum 12 pumps total (fan coil circuit and MZC) 8. Interfacing with an external BMS or VMF-monitoring VMF-REB Expansion board for controlling the electrical loads, which manages: 1. Radiant circuit heads via triac outputs (230 Vac max 0.1A); it is recommend- ed to use a relay to decouple the load from the triac output 2. Circulating pump dedicated to the radiant circuit, via relay 3. Load demand from the external thermostat via digital inputs (e.g. heated bath- roomfurnishings):10inputsonVMF-REB1,10onVMF-REB2and8onVMF-REB3 The control logic is as follows: COOLING: Fan coil only HEATING: Selection of the operating terminal by VMF-RCC: (V) – FAN COIL ONLY (R) – RADIANT ONLY (V+R) – Automatic control: • If T.AMBIENT < T.SET - 2°C set FAN COIL+RADIANT (BOOST) • If T.AMBIENT > T.SET - 2°C < T.SET ONLY RADIANT * :AerLink manages systems with only one heat pump and is incompatible with the use of Multi-control.
- 19. 19 VMF-E1X board VMF-E0X board 1 ON 2 3 4 5 6 7 8 FUS E Supervision serial port Microswitch External contact Auxiliary probe Presence sensor Water probe Ambient probe Motor control Valve control --Power supply Dip switch config- uration Local serial port Expansion slot 1 ON 2 3 4 5 6 7 8 FUS E Microswitch External contact Water probe Ambient probe Motor control Power Valve control Dip switch configuration Local serial port VMF-E0X permits controlling: • Three fan speeds in manual mode. • Continuous ventilation and thermostat control, by controlling the valves. • Automatic fan mode according to the load. • Season visualisation. • Visualisation of alarms and ventilation request. • Up to two ON/OFF 2- or 3-way valves. • Turning on an electric resistor. • Germicidal lamp. • Plasmacluster filter. • An air temperature probe. • A water temperature probe with min & max temperature and change-over functions. • Season change based on the water or air temperature (for 4-pipe sys- tems). • Digital input for "external contact”. • Microswitch for the fin contact. • Antifreeze function. • Communication with other thermostats in the same fan coil zone via a dedicated serial port that is based on standard TTL logic standards. • Input for the wall-mounted E4X or fan coil mounted E2 control panel VMF-E1X also permits controlling: • An additional water probe (accessory for controlling the second coil (4-pipe systems). • Presence sensor. • Serial port input for supervision. In the case of networks with multi- ple fan coils divided into independent climatic zones, the VMF-E1X zone regulator permits communication with a central system super- visor (VMF-E5). VMF E18X: thermostat for managing inverter master and slave fan coils, which has the same hardware asVMF-E1X
- 20. 20 + - “Stand alone”system: control of the single terminal Zone structure (microzone) “Zone controller” system with BUS con- nection. Each terminal on the machine has a board (VMF-E0XX or VMF-E1X) fit with an air probe and water probe. Thermostat VMF-E0X (VMF-E1X for an auxil- iary water probe) Thermostat VMF-E18X for an inverter fan coil Thermostat VMF-E1X Thermostat VMF-E1X or VMF-E0X MASTER SLAVE 1 SLAVE 5 SLAVE 2 SLAVE 3 SLAVE 4 TTL Line (Max 30m) TTL Line MASTER SLAVE 1 SLAVE 5 SLAVE 2 SLAVE 3 SLAVE 4 TTL Line (Max 30m) MASTER SLAVE 1 SLAVE 5 SLAVE 2 SLAVE 3 SLAVE 4 TTL Line (Max 30m) + - TTL Line MASTER MASTER MASTER SLAVE 1 SLAVE 2 SLAVE 3 SLAVE 4 SLAVE 5 SLAVE 1 SLAVE 2 SLAVE 3 SLAVE 4 SLAVE 5 SLAVE 1 SLAVE 2 SLAVE 3 SLAVE 4 SLAVE 5 TTL Line (Max 30m) TTL Line (Max 30m) TTL Line (Max 30m)
- 21. 21 Structure of a network comprised of multiple independent fan coil zones MASTER SLAVE 1 Max 30m + - SLAVE 5 SLAVE 4 SLAVE 3 SLAVE 2 ZONA 1 MASTER SLAVE 1 Max 30m SLAVE 5 SLAVE 4 SLAVE 3 SLAVE 2 ZONA 64 Pannello E5 Max 1000m ZONA 2 ZONA 3 ZONA ... Diagram of a completely centralised system. The VMF-E5 interface supervises the entire network via the RS485 Modbus connection; the maximum permitted network extension is 1000m. The network can be structured up to a maximum of 64 zones, each comprised of a maxi- mum of 6 units, for a total of 384 fan coils. Each zone has a MASTER unit (with thermostat VMF-E1X) and 5 SLAVE units (with thermostat VMF-E0X/E1X as required) that will replicate the master settings; for each zone, the maximum length permitted by the network is 30m. In the case of inverter fan coils, the thermostat provided for controlling the units is VMF-E18X. Thermostat VMF-E0X (VMF-E1X for an auxil- iary water probe) Thermostat VMF-E18X for an inverter fan coil Thermostat VMF-E1X In a network complete with fan coils with supervisor (VMF-E5), it is always necessary to have one controller for each zone (VMF-E2 orVMF-E4X). Alternatively,VMF-IO expansion boards can be provided to replace the user interfaces; theVMF-IO cannot manage a local TTL serial port, therefore it is necessary to create zones comprised of a single fan coil. ES panel ZONE 1 ZONE 2 ZONE 3 ZONE ... ZONE 64 SLAVE 1 SLAVE 1 SLAVE 2 SLAVE 3 SLAVE 4 SLAVE 5 MASTER MASTER SLAVE 2 SLAVE 3 SLAVE 4 SLAVE 5 Max 100m Max 30m Max 30m
- 22. 22 Complete structure Serial connection diagram Key 5-pin + shield 4-pin + shield 3-pin + shield 2-pin Electric contact VMF-E5 + - (*) (*) E4X E2 E1X E1X 4 PUMPS 4 PUMPS 4 PUMPS 1 bOILER + 3 HEAT RECOVERY UNITS E0X E0X E0X E0X VMF-E5 The VMF-E5 power supply can be provided directly from the mains supply or via the ther- mostats VMF-E1X and VMF-E18X, or via the electrical panel VMF-ACS. VMF- ACS
- 23. 23 A B C D E F H N G I L M P S R Q O U T CONNECTION TYPE OF CABLE NOTES REGARDING THE CONNECTION DA A A MODU-485A B VMF-CRP (1) 3-pole cable + shield 0.34mm2 (AWG22) B VMF-CRP (1) C VMF-CRP (2) 3-pole cable + shield 0.34mm2 (AWG22) C VMF-CRP (2) D VMF-ACS 3-pole cable + shield 0.34mm2 (AWG22) D VMF-ACS E VMF-E1 3-pole cable + shield 0.34mm2 (AWG22) The connector for the RS485 connection of the VMF-E1X thermostat has 5 pins, in this example the two terminals for the VMF-E5 power supply are not used E VMF-E1 F VMF-E2H 4-pin user interface connection cable (AWG22) Supplied standard with the VMF-E2H ther- mostat E VMF-E1 G VMF-E1 3-pole cable + shield 0.34mm2 (AWG22) The connector for the RS485 connection of the VMF-E1X thermostat has 5 pins, in this example the two terminals for the VMF-E5 power supply are not used G VMF-E1 H VMF-E4X Shielded twisted pair cable for data transmission 0.33~0.20mm2 (AWG22~24) G VMF-E1 I VMF-E1 3-pole cable + shield 0.34mm 2 (AWG22) The connector for the RS485 connection of the VMF-E1X thermostat has 5 pins, in this example the two terminals for the VMF-E5 power supply are not used I VMF-E1 L VMF-E2H 4-pin user interface connection cable (AWG22) Supplied standard with the VMF-E2H ther- mostat I VMF-E1 M VMF-E0XX 2-pin cable + shield 0.34mm2 (AWG22) TTL local serial line I VMF-E1 N VMF-E18 3-pole cable + shield 0.34mm2 (AWG22) The connector for the RS485 connection of the VMF-E1X thermostat has 5 pins, in this example the two terminals for the VMF-E5 power supply are not used N VMF-E18 O VMF-E4X Shielded twisted pair cable for data transmission 0.33~0.20mm2 (AWG22~24) N VMF-E18 P VMF-E1 3-pole cable + shield 0.34mm2 (AWG22) The connector for the RS485 connection of the VMF-E1X thermostat has 5 pins, in this example the two terminals for the VMF-E5 power supply are not used P VMF-E1 Q VMF-E2H 4-pin user interface connection cable (AWG22) Supplied standard with the VMF-E2H ther- mostat P VMF-E1 R VMF-E0XX 2-pin cable 0.34mm2 (AWG22) TTL local serial line R VMF-E0XX S VMF-E0XX 2-pin cable 0.34mm2 (AWG22) TTL local serial line P VMF-E1 T VMF-E5 5-pin cable + shield 0.34mm2 (AWG22) The connector for the RS485 connection of the VMF-E1X thermostat has 5 pins: three for the signal and two for the power supply T VMF-485EXP (Accessory) U VMF-E5 3-pole cable + shield 0.34mm2 (AWG22) To make the connection to a remote super- visor, the accessory VMF-485EXP is required 6.0 FEATURES OF THE ELECTRICAL CONNECTIONS Key BUS RS485 (Modbus connection with VMF-E5 power supply) Master/control interface connection BUS RS485 (Modbus connection) Master/Slave TTL BUS Supervisor RS485 Bus (Modbus connection)
- 32. 32 7.9 Indoor CL-H heat pump with integrated pumping assembly and auxiliary boiler for heating/cooling with a fan coil system – Production of DHW via the VMF-ACS electri- cal panel via a third party boiler and boiler provided standard P.d.C. CL025-200HP Expansion MODU-485BL DHW storage tank VMF-ACS Modulating boiler DHW Taking water from the mains supply. System with primary and secondary circuit for summer cooling and winter heating by an indoor CL-H air-water heat pump with integrated pumping assembly and FCZI inverter fan coils. CL-H is managed within the RS485 Modbus serial port via the MODU-485BL interface card. The terminals are grouped in 2 zones, each managed by a wall-mounted VMF-E4X control panel, which is used to set the zone fan coil parameters. The VMF-E4X panel is connected to the E18X thermostat of the zone master fan coil, from which the TTL network starts to which the E18X thermostats of the slave fan coils are connected. The first VMF-CRP board makes it possible to replace the heat pump with the modulating boiler when the temperature of the external air drops down below the value set on theVMF-E5 centralised panel.The secondVMF-CRP board makes it possible to associate each pump in the secondary loop with reference terminals: when the first fan coil in the fan coil group associated with the pump activates, the pump is turned on, whereas when the last fan coil associated with the pump reaches the set-point or if there is no thermal load demand, the pump turns off.The do- VMF E5: Centralised control panel VMF CRP boiler
- 33. 33 VMF E4X Wall-mounted interface VMF E18X Slave thermostat FCZI VMF E4X wall-mounted interface Cold/hot inertial storage tank VMF CRP pomps VMF E18X Thermostat (master) VMF E18X Thermostat (slave) VMF E18X Thermostat (master) mestic hot water is produced by a third-party boiler managed by the VMF-ACS electrical panel: when the temperature in the storage tank goes down below the value set on theVMF-ACS panel or E5, the signal requesting DHW is sent to the centralisedVMF-E5 control panel; lE5 first sets operation to heating and the DHW production set-point for the heat pump and secondly provides consent for the VMF-ACS to switch the 3-way diverting valve. VMF-ACS also permits controlling an electric resistor in the integrated DHW storage tank and/or for the programmed anti-legionella function. If the temperature of the water produced in the boiler does not reach the delivery set point, the downstream modulating boiler guarantees that the set temperature value will be reached.
- 34. 34 VMF-REB 1 P.d.C. ANKI 020-080HX Expansion MOD485K Expansion MOD485K VMF-CRP boiler Heated furnishings for bathrooms Modulating boiler DHW SAF heat storage tank Cold/hot inertial storage tank Bathroom heated furnishings circuit Water conduit Attic fan coil circuit VMF RCC Centralised control panel VMF-CRP pomps OMNIA-UL VMF E1X Master thermostat Double loop system for cooling and heating by means of an ANKI inverter air-water heat pump with integrated pumping assembly, Omnia UL ON-OFF fan coils, FCZ-PO duct type ON-OFF fan coils with MZC motorised plenum, radiant floor panels and heated furnishings. ANKI is managed within the RS485 Modbus serial port via the MOD485K interface card.The attic fan coils are grouped into a single zone, managed by theVMF-E4X wall-mounted control panel connected to the E1X thermostat of the master fan coil. From the E1X master thermostat, the TTL network starts, to which the slave fan coil E0X thermostats are connected. The heated furnishings in the bathrooms are managed by the VMF-REB1 board, which, upon request of the chronothermostat installed in the relative bathroom, manages the opening and closing of the electrothermal head and the on/off function of the hydraulic circuit pump of the heated furnishings. Upon request of the VMF-RCC centralised panel, VMF-REB2 controls in winter the opening and closing of the electro-thermal head of the radiant panels depending on the request of the MZCUI thermostats installed in the same zone; REB2 also manages the on/off function of the hydraulic circuit pump of the radiant panels. Based on the thermal and cooling 7.10 ANKIheatpumpwithintegratedpumpingassemblyandauxiliaryboilerforheating/coolingwitha fancoilsystem,MZCmotorisedplenum,radiantfloorandheatedfurnishingsforbathrooms– ProductionofDHWbySAFheatstoragetankandboilerprovidedstandard
- 35. 35 REB 2 Duct type fan coil circuit. Mixed radiant circuit Z.G. radiant manifold MZCUI Slave thermostats MZCUI Slave thermostats MZCUI Master thermostat MZCUI Master thermostat MZC FCZ-PO Duct-type fan coil Chronothermostat Z.N. radiant manifold VMF E4X Wall-mounted interface MZC FCZ-PO Duct-type fan coil VMF E0X Slave thermostat load demanded in winter and in summer perceived by the MZCUI master and slave thermostats, the MZC controller manages the opening of the motorised dampers for the introduction of air treated by two FCZ-PO fan coils into the 3 rooms in the day zone and the night zone. The first VMF-CRP board makes it possible to replace the heat pump with the modulating boiler when the temperature of the external air drops down below the value set on the VMF-RCC centralised panel. The second VMF-CRP board makes it possible to associate each pump in the secondary loop with reference fan coils: when the first fan coil in the fan coil group associated with the pump activates, the pump is turned on, whereas when the last fan coil associated with the pump reaches the set-point or if there is no thermal load demand, the pump turns off. The domestic hot water is produced by the SAF heat storage tank: when the temperature in the storage tank goes down below the value set on the SAF panel, the signal requesting DHW is sent to the centralised VMF-E5 control panel; lE5 first sets operation to heating and the DHW production set-point for the heat pump and secondly switches the 3-way diverting valve to SAF. If the temperature of the water produced in the SAF does not reach the delivery set point, the downstream modulating boiler guarantees that the set temperature value will be reached.
- 36. 36 DHW Taking water from the mains supply. P.d.C. ANKI 020-080HX Expansion MOD485K SAF heat storage tank Cold/hot inertial storage tank VMF CRP pumps VMF E5: Centralised control panel Single loop system for cooling and heating by an ANKI inverter air-water heat pump with integrated pumping assembly, FCZI inverter fan coils, radiant floor panels and heated furnishings. ANK is managed within the RS485 Modbus serial port via the MOD485K interface card.The fan coils are grouped into two zones, managed by theVMF- E4X wall-mounted control panel connected to the thermostat E18X of the master fan coil. From the E18X master thermostats, the TTL network starts, to which the slave fan coil E18X thermostats are connected. Upon request of the VMF-RCC centralised panel, VMF-REB1 controls in winter the opening and closing of the electro-thermal head of the radiant panels depending on the request of the E18X thermostats of the master fan coils installed in the same zone; REB1 also manages the on/off function of the hydraulic circuit pump of the radiant panels. The VMF-REB2 board, which upon request of the chronothermostat installed in the zone of the heated furnishings, 7.11 ANKI heat pump with integrated pumping assembly for heating/cooling with a fan coil sys- tem, radiant floor and heated furnishings - Production of DHW by an SAF heat storage tank
- 37. 37 REB 2 REB 1 VMF E18X Master thermostat VMF E4X Wall-mounted interface Chronothermostat Radiant panel for heating Radiant panel for heating FCZI manages the opening and closing of the electrothermal head and the on/off function of the dedicated hydraulic circuit pump. The VMF-CRP board makes it possible to associate each pump in the secondary loop with reference fan coils: when the first fan coil in the fan coil group associated with the pump activates, the pump is turned on, whereas when the last fan coil associated with the pump reaches the set-point or if there is no thermal load demand, the pump turns off. The domestic hot water is produced by the SAF heat storage tank: when the temperature in the storage tank goes down below the value set on the SAF panel, the probe signal requesting DHW is sent to ANKI, which sets its operation to heating with a DHW production set-point and, subsequently, switches the 3-way diverting valve.
- 38. 38 Residential • Art House Residential Complex - Moscow (Russia) • Villa Barbara - Juršići (Croatia) • Olympic Village - Athens (Greece) Hotels • Ritz Carlton Hotel - Moscow (Russia) • Marriot Grand Hotel - Moscow (Russia) • Beverly Hilton Hotel - Beverly Hills (USA) • Hotel Danieli - Venice (Italy) • Palais de la Mediterranee - Nice (France) • Dorchester Hotel - London (Great Britain) Offices • Aeroflot Headquarters - Moscow (Russia) • Siemens - Budapest (Hungary) • World Trade Center - Brussels (Belgium) • American Express - Burgess Hill (Great Britain) • Canary Wharf, 50 Bank Street - London (Great Britain) • Coeur Défense - Paris (France) • Daily Express - London (Great Britain) • Isozaki Towers - Bilbao (Spain) Retail • Mercedes Dealer Center - Каzan (Russia) • Yas Mall - Abu Dhabi (United Arab Emirates) • Primark - Reading (Great Britain) • Porsche Center - Lugano (Switzerland) Data centres • Unitel - Luanda (Angola) • Redhill Data Centre - Redhill (Great Britain) • Infinity Slough 1 - Slough (Great Britain) • BBC TV studios 1-3 - London (Great Britain) • Monte Paschi di Siena - Siena (Italy) Sport & leisure facilities • Sochi Olympics Organizing Committee - Sochi (Russia) • Twickenham Stadium - Twickenham (Great Britain) • Richmond Golf Course - London (Great Britain) • O2 Dome - London (Great Britain) • Olympic Stadium - Rome (Italy) • Wimbledon Centre Court - London (Great Britain) Transportation infrastructures • Oxford Circus Tube Station - London (Great Britain) • Enfidha Airport - Enfidha (Tunisia) • Cairo Metro Line 3 - Cairo (Egypt) • Farnborough Aerospace - Farnborough (Great Britain) Industrial • Colgate Palmolive - San Luis (Argentina) • Johnson & Johnson - Buenos Aires (Argentina) • Sinergium Biotech S.A. - Buenos Aires (Argentina) • Heinz - St. Petersburg (Russia) • Bosch - Samara (Russia) • European Space Agency - Kourou (French Guiana) • Bombardier Aerospace - Belfast (Northern Ireland) • BorgWarner Poland Sp. z o.o. - Jasionka (Poland) Cinemas & theatres • Novo Cinemas Dragon Mart - Dubai (United Arab Emirates) • Bolshoi Theatre - Moscow (Russia) • La Fenice - Venice (Italy) Hospitals & healthcare • Ospedale Maggiore - Milan (Italy) • Groote Schuur Hospital - Cape Town (South Africa) • Diana Princess of Wales Hospital - Grimsby (Great Britain) Museums & exhibition centres • Hermitage, staff building - St. Petersburg (Russia) • Waterloo Memorial - Waterloo (Belgium) • British Museum - London (Great Britain) • Imperial War Museum - Manchester (Great Britain) • Centre Pompidou - Metz (France) • Guggenheim Collection - Venice (Italy) Public & historical buildings • Presidential Residence - Minsk (Belarus) • Russian Foreign Ministry - Ekaterinburg (Russia) • Basilica of St. Francis, Crypt - Assisi (Italy) • Senate Building - Tashkent (Uzbekistan) • Palazzo Te - Mantua (Italy) • Santa Maria delle Grazie Refectory - Milan (Italy) • San Francisco Conservatory - San Francisco (USA) • Ex City Hall - Moscow (Russia) Schools & universities • Wuppertal University - Wuppertal (Germany) • Skolkovo - Moscow (Russia) • National School of Cinema - Rome (Italy) Food, beverages & wine • Nestlé - Santa Fe (Argentina) • Cheval Blanc Winery - Saint Emilion (France) • Château Smith Haut Lafitte Winery - Mar- tillac (France) • Feudo Principi Butera Winery - Caltanissetta (Italy) • Ornellaia Winery - Castagneto Carducci (Italy) • Pepsi Cola - St. John’s (Canada) Bombardier Aerospace. Belfast. Northern Ireland. Centre Pompidou. Metz. France. Wimbledon Centre Court. London. Sinergium Biotech. Buenos Aires. Cheval Blanc Winery. Saint Emilion. France. O2 Dome. London. Bolshoi Theatre. Moscow. British Museum. London. Villa Barbara. Juršići. Croatia. Groote Schuur Hospital. Cape Town. Guggenheim Collection. Venice. Hotel Danieli. Venice. Yas Mall. Abu Dhabi. Ritz Carlton Hotel. Moscow. Canary Wharf. London. Redhill Data Centre. Redhill. Great Britain. 8.0 REFERENCES
- 39. The information provided in this document may not be used for installation, but is provided as an example. For technical information, refer exclusively to the installation and user manual. The system diagrams in this diagram are basic diagrams. For proper system operation, it is necessary to provide all the necessary state of the art functional elements not supplied by AERMEC. The technical specifications provided in this document are not binding. AERMEC S.p.A. reserves the right to make changes at any time deemed necessary for the improvement of the product.
- 40. Aermec S.p.A. Via Roma, 996 - 37040 Bevilacqua (Verona) Tel. +39 0442 633111 – Fax +39 0442 93577 www.aermec.com - marketing@aermec.com GGIUI_2018 FOR MORE INFORMATION CONCERNING OUR PRODUCTS AND SERVICES, SCAN THE QR-CODEWITHYOUR SMARTPHONE