THERMOSTATIC CONTROL TECHNOLOGY HORNE 40 AND 50 THERMOSTATIC MIXING SYSTEMS

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CONTROL TECHNOLOGY 40 AND 50 MIXING SYSTEMS

2 APPLICATIONS CONTROLLING TEMPERATURES IN; > hot water supplies distributed to groups of taps or showers. > domestic hot water supplies from large combination boilers. > hot water for process applications. FEATURES ACCURACY OF TEMPERATURE CONTROL WITH ENORMOUS TURN DOWN RATIO MIXED TEMPERATURE MAINTAINED WHEN NO OUTLETS ARE IN USE SUPPLIED AS AN ASSEMBLED PACKAGE EASE OF MAINTENANCE RELIABILITY BENEFITS MIXED TEMPERATURE CONTROLLED OVER FULL RANGE OF FLOW RATES FROM ALL OUTLETS IN USE SIMULTANEOUSLY TO ONLY ONE OUTLET IN USE AT THE DESIRED TEMPERATURE IS ALWAYS AVAILABLE AT EVERY OUTLET EASILY INSTALLED ON SITE WITH NO CHANCE OF MISTAKES EASILY STRIPPED AND CLEANED WITHOUT THE NEED FOR SPECIAL SKILLS OR TOOLS MATERIALS OF CONSTRUCTION SPECIFICALLY CHOSEN TO GIVE A TROUBLE FREE WORKING LIFE SAFE AND COMFORTABLE HOT TEMPERATURES Safe and comfortable hot water temperatures are typically 43-46 C for a bath and 38-41 C for a shower. Domestic hot water, however, is normally stored at temperatures close to 60 C. Water, at this temperature, coming into contact with skin for 3 seconds, can result in a third degree burn. The risk of injury can be eliminated by reducing the hot water temperature before it is distributed to outlets. 40 and 50 Thermostatic Mixing Systems can reduce the temperature by mixing hot water with cold water to produce mixed water, at a temperature, which is controlled within safe and comfortable limits. Distributing water at temperatures below 52 C would allow any legionella in it to multiply. There are water treatment processes available to combat legionella and any water should be treated if the users of it are considered to be at risk of contracting legionnaires disease. Domestic hot water supplies from combination boilers will normally be controlled at temperatures of 55 C to 60 C. If lower temperatures are required at some outlets, 15 or 20 TMVs could be installed to reduce the temperature to the desired level. To control the temperature at showers TSV1 Thermostatic Shower Valves can be used.

3 TECHNICAL INFORMATION "F" (MAINTENANCE ACCESS) B C HOT A D A MIXED FLOW E H MIXED RETURN G A COLD J RETURN TO K K CALORIFIER Fig.1 SIZE B.S.P. mm mm mm mm mm B.S.P. mm B.S.P. B.S.P. 40 1,1/2" 142 251 121 222 50 2" 150 256 143 244 235 248 1" 114 1" 130 1/2" 1/2" 1/2" 1/2" RANGES OF TEMPERATURE ADJUSTMENT THE FOUR STANDARD RANGES ARE; 15 C to 32 C, 32 C to 52 C, 45 C to 62 C, 58 C to 80 C. 6 5 SIZING CHART H-50 H-40 80 70 60 OPERATING CONDITIONS Maximum hot water supply temperature: 85 C Minimum hot water supply temperature: Maximum cold water supply temperature: Maximum static pressure: Maximum pressure drop across TMV: 10 C above mixed water temperature setting 10 C below mixed water temperature setting 10 bar 1.2 bar Maximum recommended flow rates 40 TMV: 50 TMV: 4.5 l/s (270 l/min) 5.7 l/s (342 l/min) WRAS Approved: Certificate No. 1305306 FLOW RATE l/s 4 3 2 1 2 4 6 8 PRESSURE DROP THRO' TMV mwg 10 12 The pressure drop across the TMV for any given flow rate can be easily estimated. For example, if the designed maximum mixed water flow rate is 3.5l/s the pressure drop across the TMV is found by reading across from 3.5 on the y axis to the points of intersection with the curves then down to the x axis. It will be seen that the pressure drops are; 7.4m WG for the 40 TMV and 4.7m WG for the 50 TMV. 50 40 30 20 10 FLOW RATE gpm

4 HOW 40 AND 50 MIXING SYSTEMS WORK HOT 60 C CHECK VALVE 40 OR 50 T.M.V. THERMOMETER MIXED FLOW 45 C MIXED RETURN 43 C D.H.W.S CALORIFIER 60C CHECK VALVE 43 C 12 C COLD BALL FLOW INDICATOR / CHECK VALVE Fig.2 MIXING SYSTEMS (TMSs) have the ability to control mixed water temperatures when OUTLETS ARE IN USE and also when OUTLETS ARE NOT IN USE as follows. WHEN OUTLETS ARE IN USE the TMV mixes hot water, from a calorifier, with cold water to deliver mixed water, at a chosen temperature, to a number of outlets. The flow rate through the TMV will vary, depending upon the demand, at the outlets. A specially designed bypass arrangement, in the TMV, enables it to control the mixed water temperature, within safe and comfortable limits, over the full range of flow rates from all the outlets in use simultaneously right down to only ONE outlet in use. Hot and cold water supply temperatures will normally vary, from time to time, throughout any 24 hour period. When these variations occur the TMV will compensate for them and will continue to control the mixed water temperature within safe and comfortable limits. WHEN OUTLETS ARE NOT IN USE and all the taps or showers are turned off, the mixed water is purely being circulated by pump round the pipework and its temperature will fall slightly due to pipework heat losses. To make up the losses, a small portion of the return water is sent back through the calorifier for reheating and is then mixed with the remainder of the return to bring the mixed water flow temperature back up to the desired level. The (TRL), at the return connection to the TMV, controls the amount of return water sent back through the calorifier for reheating, to make up the heat losses. If the return temperature tends to rise, the TRL tends to close and less water will be returned for reheating. Conversely if the return temperature tends to fall, the TRL will tend to open and more water will be returned for reheating. In practice, the TRL adopts a throttling position and the portion of return water reheated, in the calorifier, is just sufficient to be mixed with the remainder of the return to bring the mixed water flow temperature back up to the desired level. The mixing of the two portions of return water takes place in the TMV but since the TRL controls the amount of water passed through the calorifier for reheating, it is in fact, the TRL which controls the mixed water flow temperature, when the outlets are not in use, and not the TMV. A considerable benefit of this arrangement is that the thermostat element in the TMV is always immersed in water at the desired mixed water flow temperature, therefore, as soon as there is a demand at an outlet the TMV does not need to make a correction in temperature and there is no start up transient, as there is with a point of use TMV. The ball flow indicator gives a visual indication that the mixed water is circulating and that some of it is passing back to the calorifier. This indicator is essential during commissioning or adjusting the temperature setting on the TRL. It is also a check valve to prevent back flow from the calorifier.

5 FOR EXAMPLE To distribute water at 45 C, when the calorifier temperature is 60 C and the cold water temperature is 12 C, the TMV is adjusted to give a mixed water temperature of 45 C. The TMV will now mix the hot and cold supplies in the proportion of 69% hot water and 31% cold water. Whenever there is a demand, at the outlets, for mixed water, the TMV will continue to mix in these proportions. If and when there is a change in hot or cold water supply temperatures the TMV will correct the proportions of the mix to maintain the desired temperature, within safe limits. When there is no demand for mixed water, and the outlets are not in use, if the return temperature falls from 45 C to 43 C, due to pipework heat losses, the TRL will send 12% of the return back to the calorifier for reheating to 60 C, and this will be mixed, with the remaining 88% at 43 C, to bring the flow temperature back up to 45 C. SUMMARY The mixed water temperature is controlled by the TMV when the outlets are in use and by the TRL when the outlets are not in use. The combination of TMV and TRL ensures that hot water, at safe and comfortable temperatures, is always available at the outlets. COMPLETE PACKAGE HOT 40 OR 50 TMV PIPE UNION AND CHECK VALVE THERMOMETER MIXED FLOW TEMPERATURE ADJUSTMENT MIXED RETURN PIPE UNION AND CHECK VALVE CHECK VALVE COLD RETURN TO CALORIFIER Fig.3 40 and 50 TMS are supplied as Complete Packages, for ease of installation, consisting of; > 40 OR 50 TMV > Thermostatic Return Limiter. > Check valves at hot and cold water inlets. > Check valve at mixed water return connection. > Ball Flow Indicator, supplied loose, to be fitted, in a horizontal position, in return pipe to calorifier.

6 TYPICAL APPLICATIONS COLD ~ COLD SERVICE MIXED FLOW 45 C 40 OR 50 TMV MIXED RETURN D.H.W.S. CALORIFIER 60 C Fig.4 APPLICATION 1 Using a TMS to reduce a DHWS flow temperature from 60 C to 45 C to prevent scalding and provide hot water at a number of outlets at a safe and comfortable temperature. When the outlets are in use the TMV mixes hot water, from the calorifier, at 60 C with cold water at ambient temperature to produce mixed water at 45 C. When the outlets are NOT in use the mixed water is circulated, by pump, to ensure that water, at the desired temperature, is always available at all of the outlets. The controls the amount of return water passed back through the calorifier for re-heating to make up heat losses in the mixed water flow and return pipework. COLD ~ COLD SERVICE MIXED FLOW 45 C 40 OR 50 TMV MIXED RETURN D.H.W.S. CALORIFIER 60 C TREATMENT UNIT Fig.5 APPLICATION 2 Where there is a risk of the water being contaminated by legionella bacteria, treatment to kill the bacteria should be provided, as shown.

7 COLD ~ COLD SERVICE NORMAL TEMPERATURE DHWS FLOW 60 C DHWS RETURN 40 OR 50 TMV MIXED FLOW 45 C D.H.W.S. CALORIFIER MIXED RETURN 60 C Fig.6 APPLICATION 3 Using a TMS to reduce a DHWS flow temperature, from 60 C to 45 C, to some outlets, while other outlets are supplied with hot water at 60 C. CHECK VALVE TEMP./PRESSURE RELIEF VALVE 40 OR 50 T.M.V. COLD MIXED FLOW 60 C MIXED RETURN EXP'N. VESSEL HOT COMBINATION BOILER 85 C BALL FLOW INDICATOR/CHECKVALVE Fig.7 APPLICATION 4 Using a TMS to reduce the temperature in hot water from a combination boiler from 70-80 C to the normal DHWS flow temperature of 60 C. PLEASE NOTE 40 and 50 TMSs can be installed in any attitude with the outlet pointing in the horizontal direction, as shown in the typical application sketches, or pointing vertically upwards or vertically downwards. The ball flow indicator must be installed in a horizontal pipe. The four typical applications shown are only representative of the many applications for which 40 and 50 TMVs are suitable. We would be pleased to advise on specific applications.

ENGINEERING Ltd PO Box 7 Rankine Street Johnstone PA5 8BD United Kingdom tel +44 (0)1505 321455 fax +44 (0)1505 336287 email sales@horne.co.uk web www.horne.co.uk

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