ED Range Condensate Drains Reliable, energy efficient removal of compressed air condensate
ED Range of condensate drains Reliable, energy efficient removal of compressed air condensate e The problem Th Drain Type 1 2 Manual drain ( 1 2 open) Mechanical float drain (stuck open) Removing condensate from any compressed air system is vitally important. Even small quantities of condensate can have a significant and detrimental effect on downstream equipment and processes. Typical Air Loss Based upon an operating pressure of 7 bar g (102 psi g) Energy required to generate air m 3 /min m 3 /h cfm Kw hp 2.6 156 92 17.3 23.2 0.28 17 10 1.89 2.53 Disc/steam trap 0.11 6.8 4 0.76 1.02 Timed drain 0.06 3.7 2.18 0.41 0.55 ED Range 0 0 0 0 0 NB. Discharge timings and duration s for timed drains vary from system to system as do the orifice sizes of all drains. For calculations based upon your actual site conditions, please contact your local domnick hunter representative. The problem Condensate is always present when compressing air. Even the smallest system can produce large quantities of oily acidic condensate. Removing condensate from any compressed air system is vitally important. Even small quantities can have a significant and detrimental effect on downstream equipment and processes. Removal using drain valves is simple, however most are purchased on their initial price only, with little thought to their maintenance and running costs. The hidden cost with the most common drain types, lies within their operation, that is they discharge expensive compressed air. Air leaks are often the biggest single waste of energy associated with a compressed air system and are not always from piping, fittings or joints. The real cost Consider the short falls with the most common drain types Manual valves are often left open to discharge condensate, therefore discharging expensive system air at the same time. Open valves also reduce system pressure and may prevent the operation of downstream equipment. Mechanical float drains are sensitive to dirt found in un-filtered condensate and often stick open to permanently discharge air or stick closed leading to downstream contamination from condensate carryover. Disc and steam trap drains, through normal operation, constantly discharge valuable, expensive air, even if no condensate is present. They also emulsify condensate preventing easy on-site separation. Timed drains require frequent resetting of timer settings to accommodate changes in ambient conditions. When incorrectly set, they discharge significant amounts of valuable air or fail to remove all of the condensate resulting in downstream contamination. False economy? Consider the compressed air and energy losses associated with these common types of drain. What appears to be a good purchase could actually turn out to be the most expensive option. For example, a system using a single timed drain, could lose approximately 0.062m 3 /min (2.18 cfm) of air. Over a full year of continuous operation that equates to approximately 32,498m 3 (1,142,669ft 3 ) of air lost! In energy terms that single drain would use 3,581 kw (4,804 hp) of energy per year! Now multiply that by every drain of that type in the system.
e The efficient solution solution ED Range of condensate drains The simple, economical solution The domnick hunter ED Range electronic level sensing drains detect and discharge only when condensate is present. Intelligent operation always ensures no unnecessary loss of valuable compressed air. The benefits are obvious Removes liquid condensate efficiently Saves valuable compressed air Reliable operation removes the risk of condensate carryover and protects downstream equipment and processes Long service intervals with simple, easy maintenance The domnick hunter ED Range of condensate drains is clearly the most economic solution because they do not discharge valuable compressed air. The range of simple, reliable drains has no mechanical sensor parts. Intelligent capacitive sensing works with all types of compressed air condensate, including 100% oil, 100% water or any level of emulsification. ED Range condensate drains will even work with aggressive oil-free condensates because they are internally and externally corrosion protected. Operation is completely automatic and no adjustment for pressure is required. ED Range condensate drains are the reliable, easy to install, cost effective solution for condensate removal, with a model to suit every system or application. The Models ED100/ED200 Designed as stand alone drains and to complement the domnick hunter OIL-X PLUS filters, WS water separators and small refrigeration dryers. ED300/ED400/ED500 Designed for higher condensate volumes as seen with compressor intercoolers, aftercoolers, air receivers, refrigeration dryers & large water separators. ED200 ED300/ED400/ED500 OIL-X PLUS filter fitted with ED100 drain
ED Range of condensate drains Reliable, energy efficient removal of compressed air condensate eliable & efficient Customer Benefits ED Condensate Drains - reliable and efficient Removes liquid condensate efficiently. Saves valuable compressed air. Saving Air - Saves Energy - Saves Money. Increases the energy efficiency of a compressed air system. Reliable operation removes the risk of condensate carryover and protects downstream equipment & processes. Long service intervals with simple, easy maintenance O Standard Features - All Models Intelligent sensing system operates with all levels of condensate from 100% oil to 100% water Maximum corrosion protection at no extra cost - standard models are suitable for all compressor types including aggressive oil free condensate. IP65/NEMA 4 Ingress Protection Rating Large inlet connections - prevent blockage and air locks when using single, top entry piping Constantly rated electrical components increase reliability Suitable for use in tropical climates Remote alarm facility indicates blockage, overflow and power loss. (Not standard on ED100) Special Features - ED100/ED200 Zero air loss Zero energy loss. Standard models suitable for 110V/230 V AC, 50/60 Hz operation. No pilot air required Unfiltered pilot air blocks easily, therefore direct operating valves are employed to eliminate problems and improve efficiency. Simple adaptor kits allow easy connection to domnick hunter Filters and Water Separators. Strainer kit also available for use with unfiltered condensate from, for example, air receivers.
Operation Compressed air condensate removed from the system enters the drain bowl monitors the liquid level. When the liquid level reaches a pre-determined point, 2 the solenoid valve is opened for a set duration 3. 1. A level sensor located within the drain bowl constantly Liquid is discharged from the drain bowl, under pressure, through the outlet port 4. The pre-set opening time has been selected to allow a small amount of condensate to remain within the bowl after the solenoid valve has closed. This eliminates any unnecessary loss of valuable compressed air. Level monitoring and discharge operation are continuous. The ED200 is shown but operation is identical for all models in the ED Range. 1 2 3 4 Alarm Mode Should the drain fail to discharge, due to an excessive volume of condensate or blocked outlet piping, an alarm mode is activated. The alarm mode is indicated by the normally solid green power LED flashing. During the alarm mode, the drain will continue to cycle to clear the liquid in the bowl. When clear, the drain will resume normal operation. Special Features - ED300/ED400/ED500 No unnecessary air loss does not discharge large volumes of air during operation. Standard models suitable for 24V/110V/230 V AC, 50/60 Hz operation. Integral valve protection strainer - Large surface area strainer is more efficient than inline strainers, requiring less maintenance. Protected pilot air supply - Pilot air filter prevents blockage of pilot air supply used to control outlet valve. Easy mounting and installation no additional mounting brackets required. Choice of outlet connection suitable for flexible or rigid outlet piping. Manual relief valve - allows release of pressure in the event of a power loss. Bowl heater facility prevents bowl damage from freezing condensate. PATENT APPLIED FOR
ED Range of condensate drains Reliable, energy efficient removal of compressed air condensate Weights & Dimensions & Dimensions Pr Dimensions Model A B C D Weight ED100 118mm (4.66 ) 75.13mm (2.96 ) 116.75mm (4.6 ) N/A 0.8 Kg (1.76 lbs) ED200 113mm (4.5 ) 98.5mm (3.9 ) 131.5mm (5.2 ) N/A 0.9 Kg (2 lbs) ED300 179mm (7 ) 201mm (7.9 ) 168mm (6.5 ) 230mm (9 ) 6.5 kg (14 lbs) ED400 179mm (7 ) 231mm (9 ) 168mm (6.5 ) 230mm (9 ) 7.4 kg (16 lbs) ED500 179mm (7 ) 651mm (25.5 ) 168mm (6.5 ) 230mm (9 ) 13.6 kg (30 lbs) Model ED100 Model ED200 Models ED300/400/500 A A A D C B C B B C Selection Criteria criteria The most important factors to consider when selecting condensate drains are the ambient conditions of the installation. Correct product selection is critical for the operation of a condensate drain. Failure to correctly specify a condensate drain could result in condensate carryover, air-locking and premature valve failure. Capacities shown in this literature assume installation in two of the worlds major climatic conditions. Should the condensate drain be installed in conditions other than those shown, please contact your local domnick hunter approved distributor/agent for correct sizing. An example of how atmospheric conditions affect selection A 7 bar g, 2.83m 3 /min (102 psi g, 100 cfm) system operating in an ambient of 25 C, RH 65% (77 F, RH 65%), and with a discharge temperature of 35 C (95 F), will produce 1.77 L/hr (0.5 USG/hr) of condensate at the aftercooler alone. Increasing the ambient temperature from 25 C (77 F) to 35 C (95 F), and the discharge temperature from 35 C (95 F) to 45 C (113 F) will increase the condensate produced by a factor of 1.9, to 3.31L/hr (0.87 US G/hr). Increasing the temperatures as above and the relative humidity to 85% will increase the condensate produced by a factor of 2.7, to 4.8 L/hr (1.3 US G/hr). The addition of a refrigeration dryer to the system, further reduces the temperature and dewpoint and increases the condensate volume. The result of a 2 C (35 F) dewpoint can be seen on the previous calculations. 1.77 L/hr becomes 2.54 L/hr (0.5 US G/hr becomes 0.7 US G/hr). 3.31 L/hr becomes 4.71 L/hr (0.87 US G/hr becomes 1.25 US G/hr). 4.8 L/hr becomes 6.2 L/hr (1.3 US G/hr becomes 1.64 US G/hr). As we can see, a flow rate of 2.83m 3 /min (100 cfm) can produce anywhere between 1.77 L/hr (0.5 US G/hr) and 6.2 L/hr (1.64 US G/hr). Each condensate drain model has a fixed condensate flowrate which cannot be exceeded. The condensate drain must be derated to accommodate the extra condensate produced.
Product Selection Climate Condition 1 Ambient temperature at compressor inlet: 25 C (77 F) Relative humidity at compressor inlet: 65% RH Compressor discharge temperature: 35 C (95 F) System pressure: 7 bar g (102 psi g) Refrigeration Dryer Dewpoint: 2 C (35 F) Climate Condition 2 Ambient temperature at compressor inlet: 35 C (95 F) Relative humidity at compressor inlet: 85% RH Compressor discharge temperature: 45 C (113 F) System pressure: 7 bar g (102 psi g) Refrigeration Dryer Dewpoint: 2 C (35 F) Compressor/Air Receiver Flow Rates Model m 3 /min m 3 /hr cfm ED100 5.25 315 185 ED200 10.5 629 370 ED300 21.2 1274 750 ED400 101.9 6116 3600 ED500 1005.2 60315 35500 Compressor/Air Receiver Flow Rates Model m 3 /min m 3 /hr cfm ED100 1.9 116 68 ED200 3.9 232 136 ED300 7.8 469 276 ED400 37.5 2253 1326 ED500 370.3 22215 13075 Refrigeration Dryer Flow Rates Model m 3 /min m 3 /hr cfm ED100 12.0 719 423 ED200 24.0 1438 846 ED300 48.6 2915 1715 ED400 233.2 13989 8234 ED500 2299.2 137952 81195 Refrigeration Dryer Flow Rates Model m 3 /min m 3 /hr cfm ED100 6.6 397 233 ED200 13.2 793 467 ED300 26.8 1607 946 ED400 128.6 7714 4541 ED500 1267.9 76073 44775 The above selection tables show the maximum air flow rates for each of the ED Range condensate drains, when used at different points in a compressed air system operating in the climatic conditions shown. The refrigeration dryer flow rates, OIL-X PLUS Filter and WS Water Separator selections assume that adequate condensate removal has been provided at the compressor intercooler/aftercooler and the air receiver. OIL-X PLUS Filter and WS Water Separator Selection ED100 suitable for OIL-X PLUS models 0009G 0145G and WS models WS15 WS100 ED200 suitable for OIL-X PLUS models 0205G 1000G and WS models WS250 WS800
ORDEM e PROGRESSO Technical Specifications Model Voltage AC Current/Power Operating Operating Connections Frequency Fuse Single Consumption Pressure Temperature Tol. Hz Rating Inlet Outlet Phase (Energised) Max Min Max Min ED100 1 x G 1 2 10mm 110Vac-200mA-26W 16 bar g 2 bar g 66 C 2 C and ( 3 8 ) 110/230 ± 10% 50/60 3A 230Vac-140mA 26W (232 psi g) (29 psi g) (150 F) (36 F) 1 x G 1 4 i/d hose ED200 2 x G 1 2 8mm 110Vac-200mA-26W 14 bar g 2 bar g 66 C 2 C ( 5 16 ) 110/230 ± 10% 50/60 3A 230Vac-140mA 26W (204 psi g) (29 psi g) (150 F) (36 F) i/d hose ED300/ED400 3 x G 3 4 12 mm 24Vac-310mA-5.5W 24/110/ 16 bar g 2 bar g 66 C 2 C ( 1 2 ) ± 10% 50/60 110Vac-156mA -14.6W 3A 230 (232 psi g) (29 psi g) (150 F) (36 F) ED500 3 x G1 i/d hose 230Vac-90mA-17.5W Standard units supplied with BSP threaded connections. NPT connections also available. Typical Installation dh domnick hunter limited Dukesway, Team Valley Trading Estate, Gateshead, Tyne and Wear, England NE11 0PZ Tel: +44 (0)191 402 9000 Telefax: +44 (0)191 482 6296 http://www.domnickh.co.uk domnick hunter PGI Pty Ltd Boronia, Australia Tel: +61 (0)3 9762 9922 Telefax: +61 (0)3 9762 9911 hb-domnick hunter equipamentos Itda Sao Paulo, Brazil Tel: +55 (0)11 3766-3977 Telefax: +55 (0)11 268-1421 domnick hunter Canada inc Mississauga, Canada Tel: +1 (905) 820 7146 Telefax: +1 (905) 820 5463 Toll Free: 1-888-342-2623 WS AO domnick hunter China Beijing, China Tel: +86 10 646 33523 Telefax: +86 10 646 33521 domnick hunter Scandinavia Stenløse, Denmark Tel: +45 (0)47 107775 Telefax: +45 (0)47 173332 Air Receiver AA General use domnick hunter France S.A. Villefranche sur Saône, France Tel: +33 4 74 62 34 51 Telefax: +33 4 74 62 35 44 Compressor domnick hunter gmbh Krefeld, Germany Tel: +49 (0) 2151 8366-0 Telefax: +49 (0) 2151 395779 Refrigeration Dryer P.T. domnick hunter Indonesia Ltd Jakarta, Indonesia Tel: +62 21 458 40488 Telefax: +62 21 452 4323 domnick hunter Nihon Kobe, Japan Tel: +81 (0)78 391 8055 Telefax: +81 (0)78 391 8056 Maintenance Kits Model ED100/ED200 ED300/ED400/ED500 Maintenance Kit EDMK2 EDMK3 ED100/ED200 Adaptor Kits/Strainer Kit Part Number To suit filter/water separator EDAK1 0009G-0145G/WS15-WS100 EDAK2 0205G-1000G/WS250-WS800 EDAK3 Strainer to suit ED100/ED200 domnick hunter - RL (Malaysia) SDN BHD Petaling Jaya, Malaysia Tel: +60 3 733 3415 Telefax: +60 3 735 1699 domnick hunter - RL (Singapore) Pte Ltd Singapore Tel: +65 250 4088 Telefax: +65 250 4223 domnick hunter Iberica Barcelona, Spain Tel: +34 (0)3 351 4807 Telefax: +34 (0)3 351 7102 Use only domnick hunter genuine replacement parts dh, domnick hunter and OIL-X are registered trademarks of domnick hunter limited. domnick hunter limited has a continuous policy of product development and although the Company reserves the right to change specifications, it attempts to keep customers informed of any alterations. This publication is for general information only and customers are requested to contact our Industrial Division Sales Department for detailed information and advice on a products suitability for specific applications. All products are sold subject to the CompanyÕs standard conditions of sale. Q 5240 Since 1987 domnick hunter SweTec AB Gothenburg, Sweden Tel: +46 (0)31 748 0610 Telefax: +46 (0)31 748 0621 domnick hunter - RL (Thailand) Co. Ltd Bangkok, Thailand Tel: +66 2 267 9760 Telefax: +66 2 267 9764 domnick hunter inc Charlotte, USA Tel: +1 (704) 921 9303 Telefax: +1 (704) 921 1960 Toll Free: 1-800-345-8462 Your Partner in Compressed Air Purification a member of the domnick hunter group plc For the latest information visit the domnick hunter Copyright domnick hunter limited 1998 website on http://www.domnickh.co.uk Publication Reference: 23 10/98 Rev.002 Stock No: 17 400 4423