Air conditioning. EcoCond EcoCond+

Air conditioning. EcoCond EcoCond+

AIR CONDITIONING The right climate for everyone. BerlinerLuft. Central air handling units combine efficient air conditioning with the objectives of environment and climate protection. Energy-efficient. Climate-friendly. Sustainable. OPTIMAL SITE CLIMATE FOR YOU. Not least because of cost and management reasons, challenges for advanced central air handling units include energy efficiency, resource-saving, climate-friendliness and environmental compatibility. Tailored to these requirements and geared to our customers needs, BerlinerLuft. develops and manufactures central AHUs that meet the highest functional and aesthetic requirements. BEST ENVIRONMENTAL CLIMATE FOR ALL. Pharmaceutical production facilities, exhibitions or datacentres each process and each environment requires specific climatic conditions. We provide them using innovative technology, decades of expertise and and the highest quality standards for an optimal climate. With this philosophy in mind, we develop high-performance components and manufacture them as complete system solutions customized to your specific needs. Qualified. Certified. Climate-friendly. 2 Air conditioning EcoCond EcoCond+

With EcoCond EcoCond+, we have created a system that features optimal heat and cold recovery characteristics for advanced energy-efficient air conditioning. EcoCond+ AIR CONDITIONING WITH SYSTEM. EcoCond I EcoCond+ is an energy-efficient heat recovery system for heating and cooling. The economic operating mode of this system helps to sustainably reduce the life cycle costs of air handling systems. The principle: A combination from highly efficient counterflow heat exchangers and a customized hydraulic system configuration. Aiming at a professional climate, the EcoCond / EcoCond+ system implements responsibly criteria from applicable regulations and laws (DIN EN 308, VDI 3803, VDI 6022, Energy Saving Ordinance, Renewable Energy Heat Act, Ecodesign Directive). So the sustainable operation mode of EcoCond / EcoCond+ not only demonstrably features Temperature efficiency transmission but also the highest energy efficiency according to DIN EN 13053. FLEXIBLE, SAFE AND MULTIFUNCTIONAL. EcoCond / EcoCond+ systems are perfect for a separate installation of supply / exhaust air units and allow flexible and space-saving solutions. Thanks to its customization capability to site conditions, this system is perfect for energy-related renovation and retrofitting in existing systems and can be flexibly extended. In sensitive environments such as cleanroom facilities or hospitals, EcoCond I EcoCond+ provides a safe heat recovery without any transmission of germs or hazardous substances. This also applies to environments with process heat or aggressive media. Certified. Conforming to applicable standards. Resource- saving. Air conditioning EcoCond EcoCond+ 3

Design variants EcoCond basic version EcoCond full version EcoCond+ Temperature transfer degree η t 75% Temperature transfer degree η t 75% Temperature transfer degree η t 92% Variable-speed HP centrifugal pump Switch cabinet with control panel Working point adjustment incl. safety functions Energy efficiency certificate as per DIN EN 13053 Variable-speed HP centrifugal pump Switch cabinet with touch screen Optimal working point adjustment incl. safety functions and operating mode selection Additional supply of pumped cold / warm water Interconnection with multiple AHUs Integration of external instrumentation and control systems Energy efficiency certificate as per DIN EN 13053 Variable-speed HP centrifugal pump Reversible heat pump technology with high COP values Switch cabinet with touch screen Optimal working point adjustment incl. safety functions and operating mode selection Additional supply of pumped cold / warm water Interconnection with multiple AHUs Integration of external instrumentation and control systems Energy efficiency certificate as per DIN EN 13053 4 Air conditioning EcoCond EcoCond+

Technical parameters Models Air flow rate AHU Water flow rate EcoCond basic version EcoCond full version EcoCond+ [m³/h] [m³/h] Dimensions: L x B x H [m] 1 EcoCond I EcoCond+ 20-1,5 5.000 1,5 1,0 x 0,8 x 2,0 1,2 x 0,8 x 2,0 1,8 x 1,0 x 2,0 EcoCond I EcoCond+ 25-3,2 10.000 3,2 1,0 x 0,8 x 2,0 1,2 x 0,8 x 2,0 1,8 x 1,0 x 2,0 EcoCond I EcoCond+ 32-4,7 15.000 4,7 1,0 x 0,8 x 2,0 1,2 x 0,8 x 2,0 2,0 x 1,0 x 2,0 EcoCond I EcoCond+ 40-6,4 20.000 6,4 1,2 x 1,0 x 2,0 1,5 x 1,0 x 2,0 2,0 x 1,0 x 2,0 EcoCond I EcoCond+ 40-7,9 25.000 7,9 1,2 x 1,0 x 2,0 1,5 x 1,0 x 2,0 2,0 x 1,3 x 2,0 EcoCond I EcoCond+ 50-9,6 30.000 9,6 1,2 x 1,0 x 2,0 1,5 x 1,0 x 2,0 2,1 x 1,3 x 2,0 EcoCond I EcoCond+ 50-11,1 35.000 11,1 1,2 x 1,0 x 2,0 1,5 x 1,0 x 2,0 2,1 x 1,3 x 2,0 EcoCond I EcoCond+ 50-12,6 40.000 12,6 1,2 x 1,0 x 2,0 1,5 x 1,0 x 2,0 2,1 x 1,3 x 2,0 EcoCond I EcoCond+ 65-20,0 63.000 20,0 1,5 x 1,2 x 2,0 1,8 x 1,2 x 2,0 2,4 x 1,5 x 2,0 EcoCond I EcoCond+ 80-35,0 110.000 35,0 1,5 x 1,2 x 2,0 1,8 x 1,2 x 2,0 2,4 x 1,5 x 2,0 EcoCond I EcoCond+ 100-50,7 160.000 50,7 1,5 x 1,2 x 2,0 1,8 x 1,2 x 2,0 2,4 x 1,5 x 2,0 1 Dimensions incl. base frame as well as heating / cooling extension (EcoCond full version, EcoCond+), without consideration of options (dual pump, multi-systems, etc.) or take-over of control functions for AHUs, connections to external piping on top Air conditioning EcoCond EcoCond+ 5

EcoCond basic version Our EcoCond basic version stands for an energy- efficient heat recovery while meeting the strictest hygienic requirements as per VDI 6022. The used highly efficient heat exchangers facilitate a thorough cleaning. Their installation depth is smaller than 300 mm, with a fin spacing of 2.0 mm. Optimized heat and cold recovery Temperature transfer degrees up to η e 75% Separate installation of supply and exhaust air unit

EcoCond basic version SYSTEM CONCEPT The EcoCond basic version is a full-value highly efficient heat recovery system that has been specifically designed for standard heat recovery applications with high energy efficiency (outside air conditioning, for example). This system mainly consists of counterflow air-water heat exchangers in the supply and exhaust air units, an HP centrifugal pump, hydraulic connections and an integrated control system. Hydraulic unit Main components Variable-speed HP centrifugal pump Shut-off valves Control valve Expansion tank with safety group Strainer Flow meter Temperature sensor Compact switch box with high-quality DDC controller and control panel with clear text display FUNCTION PRINCIPLE The hydraulic unit brings together the water-glycol mass flows (brine) from the supply air and extract air heat exchangers in a compact unit and continually optimises the sole mass flow depending on the air volume flow and the performance requirements from a customer-provided control system. Thanks to the use of a customized regulation strategy in connection with an variable-speed supply pump and electrical actuators temperature transfer degrees up to 75% are possible. Scope of performance Design of the heat recovery system Project engineering Commissioning and initial adjustment Options / extensions Power measurement and efficiency certificate Dual pump option Housing of the hydraulic unit Air conditioning EcoCond EcoCond+ 7

EcoCond basic version SCOPE OF DELIVERY FOR INSTRUMENTATION Compact switch box incl. complete internal wiring and all switching devices required for operation DDC controller, freely configurable Passing of external measurements from the unit s sensors via standard signals (0-10 V or 4-20 ma) Other communication options: Modbus Control panel with clear text display Project engineering Control and wiring diagram preparation Station-internal wiring Optional BACnet option for connection to a building control system Supply air temperature control Electrical connection of customer-provided cables Commissioning by our expert personnel Documentation supply air unit exhaust air unit provided by customer External Inputs Outputs Release heat recovery ZU1 Demand Air volume Supply air as option Fault signal Mode AB = outlet air AU = ambient air FO = exhaust air ZU = supply air Standard control diagram for the EcoCond basic version 8 Air conditioning EcoCond EcoCond+

Energy efficiency verification TEMPERATURE EFFICIENCY TRANSMISSION For highly efficient heat recovery systems, degrees of temperature change are calculated according to DIN EN 308, category IIa in dry conditions (t ODA =5 C, t ETA =25 C at a wet-bulb temperature <14 C). This is the equation: t η SUP t ODA t = t ETA t ODA Given a supply air temperature t SUP =20 C, a temperature transfer degree η t = 75% results. ENERGY EFFICIENCY VERIFICATION The energy efficiency η e is the most important performance characteristic for the assessment of heat recovery systems. It is used to classify systems according to DIN EN 13053. Likewise, it is also a criterion for the classification of air handling units into energy efficiency classes (AHU Guideline 01) and describes the minimum requirements in laws and ordinances (such as German Energy Saving Ordinance (EnEV), German Renewable Energy / Energies Heat Act (EE-WärmeG), Ecodesign Directive). Considering the temperature transfer degree, the energy efficiency ηe also includes the auxiliary power P el (fan, pumps, etc.) that are required for heat recovery. Given identical mass flows, the energy efficiency η e 1:1 results from: η e = η t (1 1 ) with ε = Q heat recovery system ε P el Considering all auxiliary powers, for the application example (see the figure), an efficiency η e 1:1 = 71% results (corresponds to class H1 as per DIN EN 13053-2012-02). AB = outlet air AU = ambient air FO = exhaust air ZU = supply air EcoCond application example with 18,000 m³/h and AHU HygCond 30 Air conditioning EcoCond EcoCond+ 9

EcoCond full version EcoCond full version is the extension of the basic version to a multifunctional highly efficient heat recovery system. Freely programmable DDC control Multifunctional use Minimised interfaces

EcoCond full version NEW OPTIONS AND OPPORTUNITIES EcoCond full version is the extension of the basic version to a multifunctional highly efficient heat recovery system. Based on a freely programmable DDC control, highly efficient counterflow heat exchangers and a hydraulic concept that is specifically adjusted to the application, a system solution meeting the highest requirements for heat and cold recovery can be created. EcoCond full version can be extended by plate heat exchangers for the supply of heat or cold energies to the heat recovery circuit. This option eliminates the need for classic reheaters or recoolers in the air handling unit. This minimises air-side resistances (=electrical power) and reduces the footprint of the air handling unit. INTERFACE REDUCTION Each multifunctional application of our EcoCond full version is implemented by system extensions in connection with a freely programmable DDC control. This improves the energy efficiency of the whole air handling system and reduces customer interfaces. The options for system extensions are as manifold as the possibilities of air conditioning themselves. All variants are possible from a simple control of an adiabatic extract air humidifier or hydraulic extensions for dehumidification heat recovery (reheating using EcoCond) up to the overall take-over of control and regulating functions for single or multiple air handling units (multi-systems) in a group. Plate heat exchangers for the supply of pumped warm water (PWW) or pumped cold water (PCW) will be dimensioned by BerlinerLuft. specifically for the relevant project. It is also possible to use renewable energy sources (e.g. solar) or waste heat from refrigeration processes, combined heat and power units as well as industrial processes in a flexible and medium-independent manner. Air conditioning EcoCond EcoCond+ 11

EcoCond full version hydraulic unit The hydraulic unit of the EcoCond full version is supplied as a compact unit featuring a rugged base frame and a outside frame structure (also a standard rail system with adjustable feet is available). Main components Variable-speed HP centrifugal pump Shut-off valves Control valve Expansion tank with safety group Strainer Flow meter Temperature sensor Compact switch box with high-quality DDC controller and touch screen for permanent efficiency optimisation and monitoring Scope of performance Design of the heat recovery system Project engineering Commissioning and initial adjustment Options / extensions Power measurement and efficiency certification (as per DIN EN 13053) Dual pump extension Housing of the hydraulic unit Plate heat exchanger for heating (PWW) Plate heat exchanger for cooling (PCW) Instrumentation integration of adiabatic extract air humidification Dehumidification heat recovery 12 Air conditioning EcoCond EcoCond+

EcoCond full version Heating mode with additional plate heat exchanger EcoCond full version is extended by an additional plate heat exchanger in the supply circuit of the supply air heat exchanger in the AHU. The function of the plate heat exchanger is to supply heat energy by means of pumped warm water (PWW) into the system. This increases the supply temperature in the heat recovery circuit and the required supply air temperatures can be reached also without reheater in the AHU (see the application example). At the same time, the mass flow in the heat recovery circuit is optimised to ensure an efficient heat recovery. In heating mode, the DDC control automatically controls the antifrost functions in the heat recovery circuit and air-side anti-icer of the extract air heat exchanger depending on air flow rates and pressure losses. AB = AU = FO = ZU = PWW = outlet air ambient air exhaust air supply air pumped warm water Application example EcoCond full version with 18,000 m³/h and AHU HygCond 30 Air conditioning EcoCond EcoCond+ 13

EcoCond full version Cooling mode with additional plate heat exchanger EcoCond full version is extended by an additional plate heat exchanger in the supply circuit of the supply air heat exchanger in the AHU. The plate heat exchanger removes heat from the system by means of pumped cold water (PCW). This reduces the supply temperature in the heat recovery circuit and the required supply air temperatures can be reached also without recooler in the AHU (see the application example). At the same time, the volume flow in the heat recovery circuit is optimised to ensure an efficient heat recovery. In the cooling mode, the extract air heat exchangers are bypassed through the bypass valve at low outdoor air temperatures (t ODA < t ETA ) and the required heat removal is only realised by the plate heat exchanger in the heat recovery circuit. As the temperature difference between outdoor air and extract air rises, the cooling mode with cold recovery will be activated. In this condition, a part of the absorbed heat energy is dissipated through the extract air heat exchanger. AB = AU = FO = ZU = PKW = outlet air ambient air exhaust air supply air pumped cold water Application example EcoCond full version with 18,000 m³/h and AHU HygCond 30 14 Air conditioning EcoCond EcoCond+

EcoCond full version Dehumidification heat recovery and adiabatic extract air cooling This system extension as a combination from adiabatic extract air cooling and dehumidification heat recovery allows an extra efficiency improvement of the whole air handling system. DEHUMIDIFICATION HEAT RECOVERY For high requirements on air conditioning (temperature and humidity), a significant portion of operating cost can be saved by dehumidification heat recovery. This extension includes an adjustment of the hydraulic unit in connection with an additional heat exchanger in the air handling unit. If cooling with dehumidification is required, the bypass valve opens and the additional heat exchanger takes over the reheating of dry air. In the dehumidification case, the full energy for reheating and the associated supply of pumped warm water (PWW) can be saved in this way. ADIABATIC EXTRACT AIR COOLING Adiabatic extract air humidification allows a reliable base load covering in cooling mode while it reduces the need for external cold energies by up to 40% (see the application example). Humidification decreases the supply air temperature in the extract air heat exchanger (approx. 2.5 K per 1 g/kg air humidification) which makes that more heat from the heat recovery circuit can be delivered to the exhaust air in the cooling mode. The DDC control calculates the supply temperature in the extract air heat exchanger from the extract air condition and the humidifier s efficiency. But the humidifier is not released before a certain difference between inlet of the extract air heat exchanger and outdoor air temperature is reached. This saves valuable resources and prevents the humidifier from being operated inefficiently. Also the use on cold energy can be more efficient. Reheating reduces the supply temperature of the outdoor air heat exchanger in the air handling unit so that the PCW cooler in the air handling unit nearly only needs to ensure a latent heat output (saves PCW). Also in heating mode, the additional heat exchanger results in an increase of efficiency because a larger exchanging area is available. adiabatic outlet air cooling cooling with dehumidification AB = AU = FO = ZU = PKW = outlet air ambient air exhaust air supply air pumped cold water (PCW) Application example EcoCond full version with 18,000 m³/h and AHU HygCond 30 Air conditioning EcoCond EcoCond+ 15

EcoCond full version SCOPE OF DELIVERY FOR INSTRUMENTATION switch cabinet incl. complete internal wiring and all switching devices required for operation DDC controller, freely programmable and expandable Touch screen and WEB technology Project engineering Control and wiring diagram preparation Station-internal wiring Electrical connection of customer-provided cables Options / extensions BACnet for building control system connection Temperature measurement (AHU) Air flow measurement (AHU) Delivery, installation and connection of unit sensors (AHU) Complete take-over of separate control functions (temperatures) or overall take-over of control and regulation of AHUs including control of connected systems (heating, refrigeration, humidifier, steam generation, etc.) Commissioning by our experts Documentation Passing of measurements from the unit s sensors via standard signals (0-10 V or 4-20 ma) Other communication options: Modbus, BACnet (other communication options on request) Supply air unit Outlet air unit SUP ODA EHA ETA External Wiring provided by customer PCW PWW Acknowledge alarm Outputs Cooling mode Heating mode Fault signal Operation Inputs Release heat recovery Purging mode/max. Setpoint ZU temperature AB = AU = FO = ZU = outlet air ambient air exhaust air supply air PKW = pumped cold water (PCW) PWW = pumped warm water Extension Standard control diagram for the EcoCond full version 16 Air conditioning EcoCond EcoCond+

EcoCond full version System extension, interconnection, multi-unit systems UNLIMITED HEAT RECOVERY Tailored engineering including company-internal software development and commissioning creates a heat recovery system that can be flexibly adapted to any application. Energy efficiency is the result of the holistic consideration of all components in a system. A multi-functional highly efficient heat recovery system can only be realised if air handling unit, heat exchangers and the hydraulic unit are combined with a control strategy that is adjusted to the overall system. THERMAL SMART GRID An interconnection of multiple air handling units with EcoCond as a central energy unit allows a distributed Thermal Smart Grid solution. This is a network from heat sources and heat sinks, with EcoCond providing the thermal energies in a smart and reliable manner. AB = outlet air ZU = supply air Standard control diagram for the AU = ambient air PKW= pumped cold water (PCW) extension of EcoCond full version by FO = exhaust air PWW = pumped warm water a second supply / extract air unit 2nd supply air unit 2nd extract air unit SUP ODA EHA ETA 1st supply air unit 1st extract air unit SUP ODA EHA ETA From 2nd supply air Wiring provided by customer PCW PWW From 2nd extract air Acknowledge alarm Cooling mode Outputs Heating mode Fault signal Operation External Inputs Release heat recovery ZU1 Release heat recovery ZU2 Purging mode/max. Setpoint ZU temperature Setpoint ZU temperature Air conditioning EcoCond EcoCond+ 17

EcoCond+ EcoCond+ is the 3rd generation of heat and cold recovery. Combining a highly efficient heat recovery system with a reversible heat pump allows an energyefficient operation with high output. Reversible heat pump technology Temperature transfer degrees η t 92% Maximum functionality

EcoCond+ THE 3RD GENERATION OF HEAT AND COLD RECOVERY EcoCond+, is the extension of our EcoCond system to a multifunctional highly efficient heat recovery system featuring temperature transfer degrees η t 92%. This 3rd generation of heat and cold recovery improves the hydraulic concept by the integration of reversible heat pump technology. This heat pump causes a purposeful and demand-dependent heat displacement with high performance numbers within the heat recovery circuit. The result is a higher heat recovery on the extract air heat exchanger. Compared to a conventional heat recovery system without heat pump, EcoCond+ needs significantly less additional supply of PWW and PCW in the heating or cooling mode. Despite the additional electrical power needed for the heat pump, this makes it possible to increase the energy efficiency of a highly efficient heat recovery system by up to 18%. This reduces the operating costs significantly and shortens the payback period for EcoCond+. NEW PERFORMANCE RANGE, ENHANCED FUNCTIONALITY EcoCond+ is based on the proven hydraulic configuration of the EcoCond full version including the freely programmable DDC control. This allows an implementation of customer-specific system extensions, with the effect that each multifunctional use of the system further increases the energy efficiency of the whole air handling system. There is multitude of possible system extensions which can contribute to the reduction of interfaces across all different systems. Any configuration is possible from a simple control of adiabatic extract air humidifiers or hydraulic extensions for dehumidification heat recovery (reheating using EcoCond+) up to the overall take-over of control and regulating functions for single or multiple air handling units (multi-unit systems) in an interconnected group. As an option, EcoCond+ can also work without any supply of additional pumped cold water (PCW). In this case, the hydraulic unit is extended by a refrigeration system where the required cooling energies are generated internally. Air conditioning EcoCond EcoCond+ 19

EcoCond+ The hydraulic unit of EcoCond+ is supplied as a compact unit featuring a rugged base frame and an outside frame (a standard rail system with adjustable feet is available). MAIN COMPONENTS OF THE HYDRAULIC UNIT INCLUDE Variable-speed HP centrifugal pump Reversible heat pump with associated plate heat exchangers and refrigeration accessories (safety devices, valves, etc.) Shut-off valves Control valve Expansion tank with safety group Strainer Flow meter Temperature sensor Compact Switch box with high-quality DDC controller and touch screen for permanent efficiency optimisation and monitoring Scope of performance Design of the system Project engineering Commissioning and initial adjustment Options / extensions Power measurement and efficiency certification (as per DIN EN 13053) Plate heat exchanger for heating (PWW) Plate heat exchanger for cooling (PCW) Instrumentation integration of adiabatic extract air humidification Dehumidification heat recovery Integrated cold generation Housing of the hydraulic unit 20 Air conditioning EcoCond EcoCond+

EcoCond+ function description Data according to DIN EN 308 Step 1 At an outdoor air temperature of 5 C, the brine mass flow exits the air-water heat exchanger of the supply air section with a temperature of 8.2 C. Step 2 It enters the hydraulic unit where it is cooled down to 4.6 C by the heat pump s evaporator. Step 3 Given a supply air temperature of 23.4 C under reference conditions without the impact of additional primary energies, EcoCond+ achieves a temperature transfer degree η t = 92% as per DIN EN 308. Considering all auxiliary energies (including driving power for the refrigerant compressor) an energy efficiency of η e 1:1 =83% as per DIN EN 13053 results for the application example with EcoCond+. With further system extensions, it is possible to increase the energy efficiency of the overall system once more. In the extract air section, the brine cooled down to 4.6 C absorbs heat from the 25 C warm extract air. This heat withdrawal from the extract air causes that the brine mass flow is heated to 21.9 C. Step 4 In the heat pump s condenser, the brine is further heated from 21.9 C to 26.3 C. Step 5 The brine mass flow having a temperature of 26.3 C enters the supply air section of the air handling unit again and causes a heating of the outdoor air from 5 C to 23.4 C. The brine is cooled down to 8.2 C by this and the cycle starts again. ABL = AU = FOL = ZUL = outlet air ambient air exhaust air supply air Application example EcoCond+ with 18,000 m³/h and AHU HygCond 30 Air conditioning EcoCond EcoCond+ 21

Comparison to the highly efficient HRV Principle of efficiency enhancement ISSUES OF HIGHLY EFFICIENT HEAT RECOVERY SYSTEMS The development of heat recovery systems with efficiency factors between 45% and approx. 75% is mainly based on an enlargement of the heat transfer surface area in combination with an improved internal hydraulic connection (counterflow principle). Heat exchangers with higher output are the basis for a multifunctional use of highly efficient heat recovery systems. But an enlargement of heat transfer surface areas is limited by design and hygienic aspects (VDI 6022). Moreover, the supply of pumped warm / cold water causes a reduction of the system efficiency. In heating mode, for example, the supply of pumped warm water results in higher supply temperatures in the extract air heat exchanger. This causes lower temperature differences on the extract air heat exchanger and thus a reduction of the heat recovery from the extract air. SOLUTION BY REVERSIBLE HEAT PUMP TECHNOLOGY This is exactly the point where EcoCond+ comes into play. An integration of reversible heat pump technology increases the temperature differences on the extract air heat exchanger in any operating condition of the system. This increases the recovered output from the extract air while reducing the required supply (= operating costs). This efficiency increase from EcoCond to EcoCond+ can be seen from the application under reference conditions. BENEFITS OF ECOCOND+ AT A GLANCE Increase of the recovered heat output on the extract air heat exchanger Smaller heat exchangers in the supply / extract air sections (reduction of air-side resistances) Additional cost due to refrigerant compressor (electrical energy) is compensated by approx. 35% by a reduction of the heat exchanger surface area Significantly reduced footprint of the air handling units Reversible heat pump with high COP values in cooling and heating modes Small amount of refrigerant Eco-friendly refrigerant with low global warming potential (GWP) Optimal adjustment to the yearly temperature profile Smart protection against icing, low or no icing at cold outdoor temperatures Optimal adjustment and increase of the system s efficiency factors at variable air flow rates Energetic system comparison between EcoCond and EcoCond+ under reference conditions 22 Air conditioning EcoCond EcoCond+

EcoCond+ Heating mode with additional plate heat exchanger EcoCond+ is extended by an additional plate heat exchanger in the supply circuit of the supply air heat exchanger in the air handling unit. The function of the plate heat exchanger is to supply heat energy by means of pumped warm water (PWW) into the system. This increases the supply temperature in the heat recovery circuit and the required supply air temperatures can be reached also without reheater in the air handling unit (see the application example). At the same time, the brine mass flow in the heat recovery circuit is optimised to ensure an efficient heat recovery. In heating mode, the DDC control automatically controls the antifrost functions in the heat recovery circuit and air-side anti-icer of the extract air heat exchanger depending on air flow rates and pressure losses. The reversible heat pump supplies additional heat energies in the heat recovery circuit. This causes that the brine mass flow is already heated from 16.9 C to 19.8 C in the application example and EcoCond+ needs 23% less external heat energies from pumped warm water (PWW) than a conventional highly efficient heat recovery system having a temperature transfer degree of η t = 75%. ABL = AUL = FOL = ZUL = outlet air ambient air exhaust air supply air Application example EcoCond+ with 18,000 m³/h and AHU HygCond 30 Air conditioning EcoCond EcoCond+ 23

EcoCond+ Cooling mode with additional plate heat exchanger EcoCond+ is extended by an additional plate heat exchanger in the supply circuit of the supply air heat exchanger in the air handling unit. The plate heat exchanger removes heat from the system by means of pumped cold water (PCW). This reduces the supply temperature in the heat recovery circuit and the required supply air temperatures can be reached also without recooler in the AHU (see the application example). At the same time, the brine mass flow in the heat recovery circuit is optimised to ensure an efficient heat recovery. In the cooling mode, the extract air heat exchangers are bypassed through the bypass valve at low outdoor air temperatures (t ODA <t ETA ) and the required heat removal is only realised by the plate heat exchanger in the heat recovery circuit. As the temperature difference between outdoor air and extract air rises, the cooling mode with cold recovery will be activated. In this condition, a part of the absorbed heat energy is dissipated through the extract air heat exchanger. The reversible heat pump additionally withdraws heat energies from the heat recovery circuit. This causes that the temperature of the brine mass flow is already reduced from 27.4 C to 22.2 C in the application example and EcoCond+ needs 55% less external heat energies from pumped cold water (PCW) than a conventional highly efficient heat recovery system having a temperature transfer degree of η t = 75%. ABL = AU = FOL = ZUL = outlet air ambient air exhaust air supply air Application example EcoCond+ with 18,000 m³/h and AHU HygCond 30 24 Air conditioning EcoCond EcoCond+

EcoCond+ Integrated cold generation and adiabatic extract air cooling This system extension as a combination from adiabatic extract air cooling and integrated cold generation allows an extra efficiency improvement of the whole air handling system. INTEGRATED COLD GENERATION For an integrated cold supply, the hydraulic unit of EcoCond+ is extended by a refrigeration system. A plate refrigerant-water heat exchanger is used for direct evaporation instead of the plate heat exchanger for the supply of pumped cold water. Further, a condenser is integrated in the extract air section of the air handling unit to deliver the withdrawn heat energy from the heat recovery circuit to the exhaust air. With the integrated cold generation, the supply with cold is distributed in each air handling system allowing a considerably higher failure safety in cooling mode. ADIABATIC EXTRACT AIR COOLING Adiabatic extract air humidification allows a reliable base load covering in cooling mode while it reduces the need for external cold energies by up to 40% in the application example. Humidification decreases the supply air temperature in the extract air heat exchanger (approx. 2.5 K per 1 g/kg humidification) which makes that more heat from the heat recovery circuit can be delivered to the exhaust air in the cooling mode. The DDC control calculates the supply temperature in the extract air heat exchanger from the extract air condition and the humidifier s efficiency. But the humidifier is not released before a certain difference between inlet of the extract air heat exchanger and outdoor air temperature is reached. This saves valuable resources and prevents the humidifier from being operated inefficiently. adiabatic outlet air cooling additional cooling ABL = AU = FOL = ZUL = outlet air ambient air exhaust air supply air Application example EcoCond+ with 18,000 m³/h and AHU HygCond 30 Air conditioning EcoCond EcoCond+ 25

EcoCond+ SCOPE OF DELIVERY FOR INSTRUMENTATION Switch cabinet incl. complete internal wiring and all switching devices required for operation DDC controller, freely programmable and expandable Touch screen and WEB technology Project engineering Control and wiring diagram preparation Station-internal wiring Electrical connection of customer-provided cables Optional / extensionsn BACnet for building control system connection Temperature measurement (AHU) Air flow measurement (AHU) Delivery, installation and connection of unit sensors (AHU) Complete take-over of separate control functions (temperatures) or overall take-over of control and regulation of AHUs including control of connected systems (heating, refrigeration, humidifier, etc.) Commissioning by our experts Documentation Passing of measurements from the unit s sensors via standard signals (0-10 V or 4-20 ma) Other communication options: Modbus, BACnet (other communication options on request) Supply air unit Outlet air unit SUP ODA EHA ETA External Wiring provided by customer PCW PWW Acknowledge alarm Outputs Cooling mode Heating mode Fault signal Operation Inputs Release heat recovery Purging mode/max. Setpoint ZU temperature AB = AU = FO = ZU = outlet air ambient air exhaust air supply air PKW = pumped cold water (PCW) PWW = pumped warm water Standard control diagram for the EcoCond+ 26 Air conditioning EcoCond EcoCond+

Extract from our reference list Place Project Place of use System Supply air flow, total [m³/h] Extract air flow, total [m³/h] Quantity Efficiency η t % Interconnected Adiab. Extract air humidification PCW, PCW EWRG 1 Vogtareuth Schönkliniken OP area EcoCond 50.000 50.000 2 units 73 Yes Yes Yes - Zschopau Klinikum Mittleres Erzgebirge OP area EcoCond+ 66.000 66.000 2 units 80 - - Yes - Graven-bruch Hotel Kempinski Smoker lounge EcoCond+ 7.320 7.320 1 units 90 - - Yes - Hamburg Albertinen Krankenhaus OP area, side rooms EcoCond 130.000 130.000 26 units 78 - - - - Warstein Infineon Technologies AG Cleanroom, Social rooms EcoCond+ 100.000 77.000 3 units 88 - Yes Yes - Frankfurton-Main Taunusturm Office complex EcoCond 85.000 75.000 1 units 70 - - Yes - Ingelheim Boehringer Respimat Cleanroom EcoCond 35.850 35.550 1 units 66 - Yes Yes Yes Bodenheim IC-Haus Cleanroom EcoCond+ 31.200 31.200 2 units 75 - - Yes - Frankfurton-Main Künstlerhaus Mousonturm Theatre EcoCond+ 20.000 20.000 1 units 85 - Yes Yes - Munich Hofstatt Shopping centre, office complex EcoCond 220.000 220.000 11 units 75 - - Yes - Frankfurton-Main Gothe Plaza Shopping centre, office complex EcoCond 76.880 76.880 2 units 71 - Yes Yes Yes Munich The Squaire Office complex EcoCond 860.000 860.000 36 units 76 Yes Yes Yes - 1 EWRG = Dehumidification heat recovery (reheating with EcoCond I EcoCond+) Air conditioning EcoCond EcoCond+ 27

References ECOCOND+ WITH SYSTEM EXTENSIONS (INFINEON, WARSTEIN) System extensions Adiabatic extract air humidification, Integrated cold generation, Dehumidification heat recovery 28 Air conditioning EcoCond EcoCond+

References ECOCOND FULL VERSION WITH SYSTEM EXTENSIONS (SCHÖNKLINIKEN VOGTAREUTH) System extensions Dual pump, interconnection, multi-unit systems, adiabatic extract air cooling ECOCOND+ WITH SYSTEM EXTENSIONS (MOUSONTURM, FRANKFURT-ON-MAIN) ECOCOND FULL VERSION WITH SYSTEM EXTENSIONS (GOETHE PLAZA, FRANKFURT-ON-MAIN) System extensions Adiabatic extract air humidification Dehumidification heat recovery System extensions Adiabatic extract air humidification, Integrated cold generation Air conditioning EcoCond EcoCond+ 29

Notes 30 Air conditioning EcoCond EcoCond+

BerlinerLuft. Technik GmbH CompetenceCenter Klimatechnik In der Kolling 66450 Bexbach Tel +49 68 26-52 07 0 Fax +49 68 26-52 07 10 E-mail bltk@berlinerluft.de www.berlinerluft.de Reserve technical changes 07. 2015