KEMPER ThermoSystem Heating water hygienically and energy-efficiently with patented cascade rotation for automated operating change among all heating modules For further information on KTS use the QR code! www.thermosystem-kts.com
KEMPER ThermoSystem Drinking Water heating without compromise The KEMPER KTS ThermoSystem combines fulfilment of the highest domestic hot water-hygiene requirements, energy optimisation, convenience and comfort as well as security of supply at all draw-off points. KTS is a modern, central domestic hot water heating system, which operates according to the continuous flow principle. The constant discharge temperature at the draw-off points is achieved in particular due to the high control quality of control unit integrated in the ThermoBox. Use of KTS enables integrated design and installation of a hygienically safe and energy-optimised drinking water heating system in the familiar KEMPER quality. This includes not only the connected domestic hot water system but also the circulation system (PWH and PWH-C). KTS makes energy efficiency + domestic hot water hygiene systematic! Advantages at a glance No domestic hot water hygiene risk areas due to patented cascade rotation Energy-efficient operation Low investment costs due to precise, customized system design Fast presence and high consistency of the outlet temperature (PWH) for small and large draw-off quantities Can also be used for aggressive domestic hot water* Low limescale precipitation due to patented positioning of the plate heat exchanger Longer pump life thanks to patented cooling of the pump electronics In-house KTS service team * EPDM sealed version of the ThermoBox 2
How it works Intelligent technology acc. EN 806 PWC = potable water cold PWH = potable water hot PWH-C = potable water hot - ciruclation drinking water installation and consumption drinking water heating heat generation and energy storage primary feed heating feed Heat source For example: > Boiler > Heat pump > Solar system > CHP > Solid fuel boiler primary return heating return According to DIN 1988-200, the KEMPER KTS ThermoSystem is an indirectly heated continuous flow domestic hot water heating system. The thermal energy required for the domestic hot water heating is stored in a buffer tank on the heating side. The domestic hot water is solely heated in flow. If one or several draw-off points for heated domestic hot water are opened, the plate heat exchanger heats the required quantity of domestic hot water. The draw-off flow rate is determined exactly by a flow rate sensor. At the same time different temperatures are measured. The control uses this information to activate the high-efficiency pump, which pumps the heating water out of the buffer tank, the KTS ThermoTank. The KTS ThermoTank S has an internal baffle, which ensures low-turbulence stratification of the return medium from the domestic hot water heater. To use the low return temperature to increase the efficiency optimally, it must be prevented from mixing with warmer layers in the buffer tank. To this end a thermostatically activated 3-way changeover valve is inserted in the return pipe to the buffer tank. Depending on the set temperature, the return water is fed specifically into the bottom or middle area of the buffer tank. Unlike domestic hot water tanks, in which this is questionable from a hygienic point of view, in buffer tanks the formation of temperature stratification is explicitly required from an energy point of view. Recharging of the buffer tank is controlled precisely by two Pt 1000 sensors attached to the buffer tank. The KTS ThermoBox is delivered electrically and hydraulically preassembled. The recharging requirement can be transmitted to the heat generator via a floating contact of the control. The optimised arrangement of the system components makes maintenance easy. Quality is our standard since 1864
Cascade arrangement The tailor-made solution for large properties Up to four ThermoBox modules can be connected together to form a cascade to cover the demand of high draw-up flow rates. In this way the PWH demand of small flow rates (e.g. one draw-off point) through to peak flow rates with high simultaneity can be covered. Thanks to the cascade arrangement, high control quality is achieved across the complete bandwidth of the PWH demand and what is more, is always at the energy optimum. Continuous alternation of the modules is achieved by the patented cascade rotation. This ensures uniform capacity utilisation of the individual units at all times. drinking water installation and consumption The necessary communication between the ThermoBox modules takes place via Mod- Bus. Connection to an existing building services management system is possible via the KTS ComLog module, or also via ModBus. The KTS ComLog module can also be used as a data logger for recording the operating parameters. 1 2nd 1st GF BM 4
! Note on the hydraulics: To achieve hydraulically balanced flow on the domestic hot water and heating side the cascade is connected according to the "Tichelmann principle". See I + II drinking water heating heat generation and energy storage primary feed I 2 3 4 TF 02 (a) heating feed II TF 04 (b) TF 05 (b) Heat source For example: > Boiler > Heat pump > Solar system > CHP > Solid fuel boiler primary return heating return (a) Temperature TF 02 required for ThermoBox control 1 to 4 (b) Temperature only required for controllers with master function I = Hydraulic linking of the primary circuit (HTG) by means of "Tichelmann" II = Hydraulic linking of the secondary circuit (PWH/PWC) by means of "Tichelmann" Quality is our standard since 1864
The -ThermoBox the "heart" of the domestic hot water heating Control unit Adaptive controller due to "neuronal networks" with high control quality. The output control of the pump is optimised automatically by the controller and adjusted to your property. one recharging request and one fault message can be output by each controller. BSMS-compatible via ModBus in conjunction with the ComLog module. A ModBus connection also ensures communication between the ThermoBoxes. Flow Heating water Return Heating water Pump The high-efficiency pump output is controlled according to the pulse width modulation principle. Longer pump life due to patented cooling of the pump mechanism by means of the stack effect. Compliance with the energy efficiency index (EEI) according to EC Directive. Gravity brake in the heating flow with integrated ventilation position. Pt 1000 temperature measurement sensor for recording the PWH temperature as a control variable. The arrangement directly in the medium avoid the otherwise high temperature fluctuations that usually occur. Plate heat exchanger made of stainless steel, for all domestic hot water qualities (also available as Cu soldered variant, usable up to domestic hot water electrical conductivity of 500 μs/cm). Fast cooling of the secondary side after the drawing-off by patented inclined position of the heat exchanger. This prevents excessive limescale precipitation. Potable Water Hot Hot (PWH) Flow sensor according to the vortex principle for exact determination of the PWH flow rate on drawing off and in circulation mode. Potable Water Cold Cold (PWC) Full flow shut-off valve with actuator only for cascade units or for switching on or off further ThermoBoxes in the cascade group (see Page 4). 6
The Technical data -ThermoBox KTS ThermoBox If larger draw-off flow rates are required, up to four units can be connected together as a cascade. In this way up to 240 l/min maximum (PWH = 60 C) can be achieved with a cascade. KTS ThermoBox S Model 920 B30 S B40 S B50 S B60 S KTS ThermoBox Model 910 B30 B40 B50 B60 PWH draw-off flow rate [l/min] (1) 3,5-32 3,5-42 3,5-50 6,0 (2) - 60 PWH temperature [ C] 50-65 Thermal disinfection 75 C to 80 C (PWH) possible manually PWH draw-off capacity [kw] 111 145 173 209 (1) with PWH = 60 C and storage temperature 80 C (2) Valid for 10K storage temperature increase. The minimum draw-off flow rate is to be increased by 2 l/min for each additional 5K increase. KTS ThermoBox S, Model 920 E, with EPDM sealed stainless steel plate heat exchanger KTS ThermoBox, Model 910 E, with CU soldered stainless steel plate heat exchanger KTS ThermoBox S as cascade, Model 920 K, with EPDM sealed stainless steel plate heat exchangers KTS ThermoBox as cascade, Model 910 K, with CU soldered stainless steel plate heat exchangers Part No. Type Part No. Type Part No. Cascade Type Part No. Cascade Type 9203000100 B30 S 9103000100 B30 9203000200 2 units 9103000200 2 units 9204000100 B40 S 9104000100 B40 9203000300 3 units B30 S 9103000300 3 units B30 9205000100 B50 S 9105000100 B50 9203000400 4 units 9103000400 4 units 9206000100 B60 S 9106000100 B60 9204000200 2 units 9104000200 2 units 9204000300 3 units B40 S 9104000300 3 units B40 9204000400 4 units 9104000400 4 units 9205000200 2 units 9105000200 2 units 9205000300 3 units B50 S 9105000300 3 units B50 9205000400 4 units 9105000400 4 units 9206000200 2 units 9106000200 2 units 9206000300 3 units B60 S 9106000300 3 units B60 9206000400 4 units 9106000400 4 units Quality is our standard since 1864
The -ThermoTank S optimised "energy storage" for domestic hot water heating The KTS ThermoTank is a heating medium buffer tank, which has been developed with the help of state-of-the-art flow simulation software. This achieves energy-optimised, temperature-dependent stratification during the charging and discharging process of the heat transfer medium. The internal baffles ensure low-turbulence stratification of the return medium from the domestic hot water heater. The unitised construction of the insulation enables retrofitting even in an already completed pipe installation. Hook strips help to ensure easy closure. Subsequent dismantling and renewed refastening is also no problem. The insulation made of rigid non-woven is characterised by its optimised fit and conforms to building material class B1. Thanks to its very low thermal conductivity, energy-efficient storage of the heating medium is possible. The variable heights of the temperature sensors enable the temperature zones to be arranged individually. This in turn enables coordination of the ThermoSystem with the heating system. Among other things, this enables the timing of the heat source to be optimised and temperature zones to be adjusted to different heat source combinations. Mixing area Thermographic image of the KEMPER KTS ThermoTank Section through the KEMPER KTS ThermoTank KEMPER KTS ThermoTank insulated Intelligent energy storage with KEMPER know-how Baffle for low-turbulence and low-mixing action charging and discharging for energy-efficient storage of the thermal energy (Optional) generous dimensioning and number of connections 8
The -ThermoTank S optimised "energy storage" for domestic hot water heating NEW Gebr. KEMPER GmbH KTS-ThermoTank S; + Co. KG; Olpe T500 - Ø650 A B C D E F G C 101 w 500 L 2015 812/2013 Energy efficiency label for KEMPER KTS ThermoTank to EU Regulation 812/2013 KTS ThermoTank S buffer tank with baffle Type Volume [l] PN 3, Model 950 Part No. PN 6, Model 960 Part No. PN 6 2), Model 965 Part No. PN 10, Model 970 Part No. Stoppage heat losses [W] EEC 3) T500 S 500 9500050000 9600050000 9650050000 9700050000 101 C T850 S 850 9500085000 9600085000 9650085000 9700085000 130 C T1000 S 1000 9500100000 9600100000 9650100000 9700100000 141 C T1001 S 1) 1000 9501100000 9601100000 9701100000 146 C T1500 S 1500 9500150000 9600150000 9650150000 9700150000 179 D T2000 S 2000 9500200000 9600200000 9700200000 207 D T3000 S 3000 9500300000 9600300000 9700300000 - - 1) like T1000 S, however overall height reduced by 210 mm. 2) Buffer tank with three additional, connections for electric heating elements with an offset arrangement. 3) EEC = energy efficiency class according to EU Regulation No. 814/2013 Quality is our standard since 1864
-ComLog module Safety through monitoring of the system The ComLog module, Model 955 02, logs each measured value recorded by the ThermoBox control. The measured values are logged with time and date at a sampling rate of 10 seconds. This enables continuous documentation of operation. The data is stored on an SD card and can be evaluated and visualised using conventional spreadsheet programs. Visualisation of the data (see example below) enables the use behaviour of your property to be displayed and your complete system to be adjusted and optimised. Documentation of the function of the KTS system Interface with the BSMS Data stored in CSV format 1 GB memory card is included in the supply Part No. 9550200100 Flow rate [l/min] Temperature [ C] Flow Rate PWH Temperature Primary Feed Temperature Temperature at bottom of Thermo Tank Time [hh/mm] Example: Possible graphic evaluation of a ComLog file for one day 10
-Temperature controlled 3-way changeover valve Optimised temperature stratification The temperature-controlled 3-way changeover valve is used to optimise the stratification within the ThermoTank. In this way the different return temperatures of the respective operating situations are taken into account (draw-off or circulation case). The temperatures in the bottom part of the ThermoTank are kept low to enable heat source high efficiency to be achieved. Due to the optimised stratification, mixing of the heating medium is reduced to a minimum. This means a constant high temperature level is achieved in the top part of the ThermoTank. This increases the efficiency of the heat source and the ThermoBox and reduces the ThermoTank volume required compared to other buffer tanks. DN 32: Part No. 9550103200 DN 40: Part No. 9550104000 DN 50: Part No. 9550105000 DN 65: Part No. 9550106500 DN 80: Part No. 9550108000 Supply case: In the supply case the return cools rapidly and is fed into the bottom area of the ThermoTank. Circulation mode: In circulation mode the return has a higher temperature level and is fed into the middle area of the ThermoTank. Quality is our standard since 1864
-Design support Know-how for energy efficiency and security of supply Use-orientation is an important factor in the KTS design! To this end, detailed recorded data of water consumptions and user profiles in medium-sized and large properties are evaluated and used as demand profiles. The demand profiles database is extended continuously. The profiles can be individually adjusted and combined to obtain a realistic representation of user behaviour. The PWH value is calculated target-orientated, independent of the user profile. With the circulation heat demand added, the actual cumulative heat demand required is obtained (PWH + PWH-C). Precisely matched to the determined demand, the KEMPER KTS ThermoSystem can be designed to be energy-optimised. The heat supply required is available at all times. Measured demand profile of a swimming pool Calculated accumulation curve Continuously growing demand profile database Demand profile: Care home for the elderly Demand profile: Hospital intensive care ward Demand profile: Student hall of residence Demand profile: Hospital ward block 12
-Design support Advantages for customers We will be pleased to help you select a suitable ThermoSystem and with the optimisation. We and our extensive know-how and many years of experience are also available to advise you on unusual applications. The calculation results contain all relevant details of the hydraulics and performance of the KTS system. The KTS hydraulics diagram is generated automatically after the calculation is completed and is sent to the customer. The customer also receives a bill of quantities including gross prices. KTS hydraulic diagram Optimum energy and economic adaptation of the KEMPER KTS ThermoSystem requires integrated consideration of the whole property. Not only the domestic hot water system but also the whole heating system are important for this. To ensure a fast and smooth process, we have provided KTS record sheets, a checklist for all important data which can be downloaded from www.thermosystem-kts.com/download. Calculation results / material list www.thermosystem-kts.com/download Quality is our standard since 1864
-Accessories Everything at a glance KTS temperature controlled 3-way changeover valve, Model 955 01 KTS ComLog module, Model 955 02, for ModBus via the RS485 interface DN 32: Part No. 9550103200 DN 40: Part No. 9550104000 DN 50: Part No. 9550105000 DN 65: Part No. 9550106500 DN 80: Part No. 9550108000 Part No. 9550200100 KTS connection kit, Model 955 03, SAN DN 20, HZG DN 32 KTS pressure relief valve, Model 955 04, for 10 bar Full-bore ball valve, Model 351 00, for the KTS ThermoTank Part No. 9550301000 Part No. 9550401000 DN 15: Part No. 3510001500 DN 20: Part No. 3510002000 DN 25: Part No. 3510002500 DN 32: Part No. 3510003200 DN 40: Part No. 3510004000 DN 50: Part No. 3510005000 Insulation shells for the KTS connection kit Insulation shell, Model 471 24, for the ball valve 2x Part No. 4711902000 and 2x Part No. 4712402500 DN 32: Part No. 4712403200 DN 40: Part No. 4712404000 DN 50: Part No. 4712405000 14
NOTES Quality is our standard since 1864
www.kemper-olpe.de Gebr. Kemper GmbH + Co. KG Harkortstraße 5 D-57462 Olpe, Germany Tel. +49 2761 891-0 Fax +49 2761 891-175 info@kemper-olpe.de KEMP 7013 11/15 www.thermosystem-kts.com