Tablas de Vapor

ANEXO I DIAGRAMA P&ID,

DIAGRAMAS DE ELEVACIÓN E ISOMETRICOS

DIAGRAMA P&ID, PLANOS DE ELEVACIÓN E ISOMETRICOS

Todo proyecto de montaje de tuberías requiere de tres tipos de planos para poder serpresentado:

• Diagrama P&ID • Planos de elevación • Isometricos

Diagrama P&ID En este tipo de plano se muestran todos los equipos principales y secundarios que sirvenpara la generación de vapor y su distribución en el circuito calefactor. Además de laslíneas y equipos utilizados para el transporte de otros fluidos como ser agua ycondensado de vapor que también se manejan en la instalación. El sentido de todos los flujos se encuentra indicado y también la posición en donde seencuentran instalados todos los instrumentos dentro del sistema. Las señales enviadas por cada instrumento hacia el PLC se encuentran claramentedefinidas en este diagrama; así como también las señales de salida de este equipo hacialas válvulas automáticas y electrobombas que trabajan en el sistema, en el manejo delíquidos y vapores. Finalmente también se podrá encontrar en este diagrama el computador para monitoreode señales que será ubicado en la sala de control destinada para este fin. Diagramas de Elevación Las vistas de elevación de las tuberías pueden ser hechas desde diferentes posiciones; ennuestro caso hemos realizado una vista frontal, lateral izquierda, lateral derecha ysuperior. En estas vistas no se incluyen dimensiones sin embargo han sido realizadas de maneratal que se reproduzcan en forma exacta la disposición que tendría el arreglo de tuberías,los accesorios y los equipos en el laboratorio. Diagramas Isométricos Los isométricos son diseños hechos en perspectiva isométrica, sin escala. Se hacegeneralmente un diseño para cada tubería individual ó para dos o tres tuberías próximasque serán interconectadas. En el caso de tuberías muy largas se hace necesario sub-dividir la tubería en varios diseños isométricos sucesivos. Nunca se debe mostrar en unmismo diseño isométrico dos tuberías de áreas diferentes. Para un mejor entendimientode los isométricos realizados se presentan también dibujos de elevación para cada un deellos en este trabajo. Los isométricos poseen indicaciones de dimensiones muy útiles ala hora de realizar montajes de este tipo y elaborar listas de materiales.

CONVENCIONES PARA ISOMETRICOS

Válvula de cortina Válvula de cortina Válvula de globo Roscada ó Socketweld Soldadura de tope Bridada

Válvula de globo Válvula de globo Válvula de control Roscada ó Socketweld Soldadura de Tope Bridada

Unión soldada Unión roscada ó Filtro “Y” Socketweld Con soldadura de Encaje

Unión patente Válvula de aguja Reducción Excéntrica Roscada ó Soldada Soldable

Válvula Check Válvula de Bola Válvula de tres vías Roscada Roscada Roscada

CONVENCIONES PARA FLUJOGRAMAS

Válvula de Cortina Válvula de Globo Válvula Check Válvula motorizada

Válvula de 3 vías Válvula de Bola Válvula Bridada Válvula de Alivio

Trampa de Vapor Bomba centrifuga Separador Transmisor de Presión Presión

Manómetro Transmisor de Flujometro Computadora Temperatura para Monitoreo

PLC Filtro “Y” Señal Eléctrica Señal para PC

Tanque abierto Tanque cerrado Intercambiador Línea para de calor proceso

P F

PT

TT

I-2

I-1

ANEXO II FICHAS TÉCNICAS DE

INSTRUMENTOS

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STANDARD RANGESRANGE MAXIMUM* BURST** RANGE MAXIMUM* BURST**

30"-0 HgVac 70 PSI 70 PSI 0-250 PSI(A) 1100 PSI 1100 PSI

30"-0-30 PSI 250 PSI 250 PSI 0-300 PSI 1100 PSI 1100 PSI


30"-0-100 PSI 500 PSI 500 PSI 0-500 PSI(A) 1100 PSI 5800 PSI



0-50 INWC 30 PSI 30 PSI 0-1000 PSI 1750 PSI 8000 PSI

0-100 INWC 30 PSI 30 PSI 0-1500 PSI 2900 PSI 11,600 PSI

0-5 PSI 30 PSI 30 PSI 0-2000 PSI 4600 PSI 14,500 PSI

0-10 PSI 60 PSI 60 PSI 0-3000 PSI 4600 PSI 14,500 PSI

0-15 PSI(A) 70 PSI 70 PSI 0-5000 PSI 11,600 PSI 25,000 PSI

0-25 PSI(A) 145 PSI 145 PSI 0-8000 PSI 17,400 PSI 35,000 PSI

0-30 PSI 145 PSI 145 PSI 0-10,000 PSI 17,400 PSI 35,000 PSI

0-50 PSI(A) 250 PSI 250 PSI 0-15,000 PSI 21,750 PSI 43,500 PSI


0-100 PSI(A) 500 PSI 500 PSI 0-40,000 PSI 44,100 PSI 73,500 PSI


0-200 PSI 500 PSI 500 PSI

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Accuracy ( linearity, including hysteresisand repeatability )

% of span <0.25% (B.F.S.L.) {0.125%} 1 (Calibrated in vertical mounting positionwith process connection down)

RepeatabilityHysteresis

% of span < 0.05< 0.1

1 year stability % of span < 0.2 (under reference conditions)

TemperatureMediaAmbientStorageCompensated range

-22oF to +212oF (-30oC to +100oC) { -40oF to +257oF (-40oC to +125oC)}-4oF to +176oF (-20oC to +80oC)-40oF to +212oF (-40oC to +100oC)+32oF to +176oF (0oC to +80oC)

Temperature error (reference 70oF)on zero pointon span

% of span < 0.2 per 18oF (10oC) change< 0.2 per 18oF (10oC) change

(< 0.4 per 18oF for ranges < 100 INWC)

CE conformityInterference emission per EN 50 081-1 (March 1993) and EN50 081-2 (March94), Interference immunity per EN 50 082-2 (March 1995)

Shock resistanceVibration resistance

gg

1000 per IEC 770 for mechanical shock50 per IEC 770 for vibration under resonance conditions

Electrical connection

WeightDimensions

Electrical protection

Environmental protection

lb

4-pin L-plug per DIN 43 650 with solderless screw terminal and PG 13 fitting{4- pin L-plug with 1/2" female conduit opening, 5 foot vented flying lead, 4 or 6pin MIL plug} {custom plug and cable assemblies}

approximately 0.4 (0.2 Kg)see drawing

protected against reverse polarity, short circuit, and overvoltage

IP 65 (NEMA 5) with 4 pin L-plug, MIL plugs{IP 67 (NEMA 4) with 5 foot flying lead}{IP 68 (NEMA 6) submersible with cable and special case}

Notes: Items in curved brackets { } are available as special order options 1improved accuracy available with pressure ranges > 100 INWC

Supply voltage UB DC Volts 10 - 30 (14 - 30 for 0 - 10 V output signal)

Output and load limitations:Output signal and maximum load

Response time (10...90%)zero and span adjustment

milliseconds%

4-20 mA 2-wire system RA[Ohm] < (UB [V] -10V) / 0.02 A{0-20 mA 3-wire system} RA[Ohm] < (UB [V] -10V) / 0.02 A{0-5 V 3-wire system} RA> 5 kOhm (min){0-10 V 3-wire system} RA> 10 kOhm (min){other signal outputs available}

< 1+10

Specifications Units Type S-10

Sensing principlePressure rangesPressure reference

PSIpiezoresistive up to 300 PSI, thin film > 400 PSIstandard ranges as listed {custom ranges available}relative pressure {absolute reference to 500 PSIA}

Pressure connectionfor ranges < 15,000 PSI:

for ranges > 15,000 PSI:

1/2" NPT male; (1/4"NPT male, G1/2B, G1/4B){SAE #4 (7/16-20 UNF) male O-ring boss for ranges > 400 PSI}F-250-C autoclave (9/16-18 UNF){other pressure connections available}

Material:-wetted parts

-case-internal transmitting liquid

1.4571 and 1.4542 stainless steel (316 ss and PH17-4 ss){for other materials see WIKA diaphragm seals}1.4301 stainless steel (304 ss)silicone oil for piezoresistive sensors to 300 PSI, {halocarbon oil for oxygenservice}, no liquid fill used for thin film sensors > 400 PSI

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Type DIN 43 650 plugAttachable LCD

DisplayVented cable with

free endsSnap CapTM with

terminal blockMIL plug

Protection IP 65 / NEMA 5 IP 65 / NEMA 5 IP 67 / NEMA 4 IP 67 / NEMA 4 IP 65 / NEMA 5

Descriptionand partnumbers

PG9 cable gland(standard)

Part # 1006711

1/2" NPT femaleconduit openingPart # 1632159

Loop poweredprogrammable

4-20 mA3.5 digit

Part # 4210069

5 foot - #974447910 foot - #983891520 foot - #423990430 foot - #423992150 foot - #4293348

PG 11 cablegland, 4-20 mAPart # 2130017

1/2 NPT femaleconduit, 4-20 mAPart # 4260261

4 - pinPT02E-8-4P

Part # 8990935

6 - pinPT02E-10-6P

Part # 9744460

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2-wire system

Wire CodingDINPlug

WireColor

Supply + UB+ / S+ pin 1 brown

Signal - 0V / S- pin 2 green

3-wire system

Wire CodingDINPlug

WireColor

Supply + UB+ pin 1 brown

Supply -Signal -

0V / S- pin 2 green

Signal + S + pin 3 white

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Pressure Gauges

Bourdon Tube Pressure GaugesStainless Steel Case / Copper Alloy Wetted Parts

Industrial Series Liquid Fillable • Type 21X.53

ApplicationSuitable for environments compatible with copper alloywetted parts where vibration or pressure pulsation occurand for gaseous or liquid media that will not obstruct thepressure system.

Sizes (All sizes not stocked)2", 2½", 4" (50, 63, and 100 mm)

Accuracy+ 1.5% of span

Ranges (All ranges not stocked)Vacuum / Compound to 30"HG / 0 / 200 PSIPressure from 15 PSI to 10,000 PSI - 2"Pressure from 10 PSI to 15,000 PSI - 2½",4"or other equivalent units of pressure or vacuum

Working Range2" & 2½" Steady: 3/4 of full scale value

Fluctuating: 2/3 of full scale valueShort time: full scale value

4" & 6" Steady: Full scale valueFluctuating: 0.9 x full scale valueShort time: 1.3 x full scale value

Operating TemperatureAmbient: -40°F to 160°F (-40°C to 71°C) NOTE1

Media: max. 140°F (+60°C)

Temperature ErrorAdditional error when temperature changes from referencetemperature of 68°F (20°C) +0.4% for every 18°F (10°C)rising or falling. Percentage of span.

Standard Features

ConnectionMaterial: copper alloyLower mount (LM)Center back mount (CBM) - 2" & 2½"Lower back mount (LBM) - 4"1/4" or 1/2" NPT limited to wrench flat area(7/16"-20" SAE thread for Type 213.53S)

Bourdon TubeMaterial: copper alloy30"Hg (Vac) to 1000 PSI C-type - 2", 2½"30"Hg (Vac) to 1000 PSI C-type - 4"1500 PSI to 15,000 PSI helical type - 2", 2½"1500 PSI to 15,000 PSI helical type - 4"

MovementCopper alloy

DialWhite ABS with stop pin and black lettering

PointerBlack aluminum (external "zero" adjust screw-optional)

Case304 stainless steel with vent plug and stainless steel crimpring.

O-ring (case/connection sealing):EPDM for standard stocked glycerine filled gauges. Viton forstandard stocked dry gauges, suitable for glycerine, siliconeor fluoroube case filling

Weather ProtectionWeather resistant (NEMA 3 / IP 54) - dry caseWeather tight (NEMA 4X / IP 65) - liquid-filled case

Standard ScalePSIPSI, PSI/KG/CM², PSI/BAR (2½")

Window GasketBuna-N

WindowPolycarbonateAcrylic (4")

Case Filling212.53 - None213.53 - Glycerine

Order Options (min. order may apply)Other pressure connections limited to wrench flat areaStainless steel polished front flangeStainless steel rear flange- 2½" & 4"Brass threaded or press-fit restrictorPressure compensating membrane window for filledgaugesDry case (212.53)Steel zinc plated u-clamp bracket (field installable)Stainless steel u-clamp bracket (field installable)DIN standardsExternal zero adjustment (2½" only)Externally adjustable red drag pointer (max. hand)Externally adjustable red mark pointer (set pointer)Other pressure scales available: Bar, kPa, MPa, Kg/cm 2 and dual scaleCustom dial layoutSilicone or fluorolube case filling (Type 213.53)

Note 1 Temperature Ranges (Liquid filled gauges)Glycerine: -4°F to 140°F (-20°C to 60°C)Silicone: -40°F to 140°F (-40°C to 60°C)

APM 21X.53(APM 02.12)

INTELX

4"

INTELX

Sizes

INTELX

Accuracy

INTELX

+ 1.5% of span

INTELX

Bourdon Tube Pressure Gauges

INTELX

Industrial Series Liquid Fillable • Type 21X.53

INTELX

Weather tight (NEMA 4X / IP 65) - liquid-filled case

INTELX

Weather Protection

INTELX

Operating Temperature Ambient: -40°F to 160°F (-40°C to 71°C) NOTE1 Weather Protection

INTELX

Media: max. 140°F (+60°C)

INTELX

Standard Features

INTELX

Connection

INTELX

Material: copper alloy

INTELX

Lower mount (LM) Case Filling

INTELX

Bourdon Tube

INTELX

Material: copper alloy

INTELX

Movement

INTELX

Copper alloy

INTELX

Case

INTELX

304 stainless steel

INTELX

Standard Scale

INTELX

PSI/BAR

WIKA Instrument Corporation1000 Wiegand BoulevardLawrenceville, Georgia 30043-5868Tel: 770-513-8200 Fax: 770-338-5118http://www.wika.com e-mail: [email protected]

Ordering Information:State computer part number (if available) / type number / size /range / connection size and location / options required.

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A* NOMINAL SIZE

TYPE/SIZE WEIGHT KEY A* B C D E G H J L M N S T W

21X.532"

0.27 lbs.+ 0.06 lbs.

if filled

mm 50 48 30 50 12 53 -- 3.6 6.5 71 60 5.5 -- 14

in 2 1.89 1.18 1.97 0.47 2.09 0.14 0.26 2.80 2.36 0.22 1/4" 0.55

21X.532.5"

0.36 lbs.+ 0.08 lbs.

if filled

mm 63 54 32 62 13 54 -- 3.6 7.5 85 75 6.5 -- 14

in 2.5 2.13 1.26 2.44 0.51 2.13 0.14 0.30 3.35 2.95 0.26 1/4" 0.55

21X.534"

1.10 lbs.+ 0.66 lbs.

if filled

mm 100 87 48 100 15.5 79.5 30 4.8 9 132 116 8 -- 22

in 4 3.43 1.89 3.94 0.61 3.13 1.18 0.19 0.35 5.20 4.57 0.31 1/2" 0.87

NOTE: For 1/4" NPT connections on 3" and 4" gauges, reduce B* dimension by 5 mm / 0.2 in.

A* NOMINAL SIZE

TYPE/SIZE WEIGHT KEY A* B C E S W

213.53S2.5" 0.51 lbs.

mm 63 61.2 31 13 6 14

in 2.5 2.41 1.23 .51 .24 .55

Optional Type 213.53S- 7/16" - 20" SAE Connection

T = 7/16-20" SAE Connectionsupplied with Nitrile o-ring, hex nut, and washer

05/01

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Recommended panel cut-out: D + 1mm

INTELX

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21X.53 4" 1.10 lbs. + 0.66 lbs. if filled mm 100 87 48 100 15.5 79.5 30 4.8 9 132 116 8 -- 22 in 4 3.43 1.89 3.94 0.61 3.13 1.18 0.19 0.35 5.20 4.57 0.31 1/2" 0.87

H10

N

Model

KNXK

KNXRNPT NPT

bushing-union-nipple

OptionalThermowell

Conduit Connection

Instrument Connection

Assembly

Typical KNXK Assembly

Transmitter

Gasket

with optional “A”-Style thermowell

Probe

Bushing

Insert Screw

Termination Head

Thermowell

Spring Loading

Cap

.35” for 1/2” NPT

.45” for 3/4” NPT

A (Installed Length)(A = Thermowell Stem Length)

(Includes Approx. 0.5” Spring Loading)

Cast Aluminum

(N)1”

NPT NPT

spring-loaded bushing

.35” for 1/2” NPT

.45” for 3/4” NPT

A (Installed Length)(A=Thermowell Stem Length)

(Includes Approx. 0.5” Spring Loading)

Refer to page H12 for other models.

July, 2002A Division of

When attaching thermowells to assemblieson this page please refer to theAlltemp Sensors “Thermowell Catalogue”

General Purpose Thermocouple &RTD Transmitter Assemblies

INTELX

A (Installed Length)

INTELX

KNXK

INTELX

Model

H12

Fixed Hex Bushing, Sheathed RTD or T/CModel: KNXG

Flex Armoured, Sheathed RTD or T/CModel: KNXI

Flex Armoured, Sheathed RTD or T/C with Electrical Cord Grip and SpringLoaded BushingModel: KNXM

Oil Seal, Spring Loaded, Sheathed

Model: KNXHRTD or T/C

Refer to Page H11 for Complete Assembly Ordering Schedule

N=1” A N=1” A

N A N A3”

min

July, 2002A Division of

General Purpose Thermocouple &RTD Transmitter Assemblies

Cadillac® Vortex Meter Central Station Steam Co.®

GENERAL INFORMATION

15615 SW 74th Ave., Ste #150 Phone: 888-556-3913 Tigard, OR 97224 Fax: 503-624-6131 www.cadillacmeter.com

Rev 0701

Rev 0701

THE STEAM METER OF CHOICE

THE NEW INDUSTRY STANDARD Since the late 1970’s, the Vortex direct steam flow meters have been acknowledged as the industry standard. Customers choose the Cadillac® Vortex Meter because of proven:

APPLICATIONS • Data Source for energy management system, DCS, district-wide systems. • Energy-Customer Billing from accurately totalized flow measurements. • Basis for internal cost distribution using campus-wide systems. • Process monitoring from central control rooms. • Direct Steam measurements at both Boiler and point of use locations. • Natural Gas measurements for Boiler fuel flow.

FEATURES • ACCURACY: +/-1.0% of the reading for liguids, gas and steam. High accuracy, linear throughout the entire dynamic measuring range. (See Flow Range table on next page) • RANGEABILITY.: Typically 25 to 1 turndown or better. With seasonal steam load variation, the need for a large turndown is essential. Cadillac® Vortex Meters will accurately measure all load requirements with proper sizing. • LONGEVITY: Mean time between failure (MTBF) of 50 years. With no moving parts and through simple robust design the MTBF of the shedder bar is 50 years. With proper system maintenance Cadillac® Vortex Meters will provide reliable,accurate service beyond all flow technologies. • MODERN ELECTRONICS: Meeting the challenges of the next millennium Meters are equipped with electronics capable of mass flow computation for varying steam loads/pressure. Electronics will register locally, remotely or interface with an energy management system. Built to withstand the toughest conditions.

CENTRAL STATION STEAM CO.® 15615 SW 74TH AVE., STE #150 TIGARD, OR 97224 PHONE: 888-556-3913 FAX: 503-624-6131 @ WWW.CADILLACMETER.COM

The small vortex strut of the Cadil-lac Vortex Meter sheds the vortices, which then pass through an ultra-sonic beam, generated by flush mounted transducers (see illustra-tion), where they are detected and counted. The frequency of these vortices is directly proportional to the fluid velocity and exact volu-metric flow rate is computed know-ing the internal cross sectional area. Each vortex meter is tested to determine the relationship between velocity/flow rate and vortex

(Continued on page 3)

The “Karman” vortex meter p r inc ip le i s c l ea r ly illustrated by a flag waving in the wind. As the air passes across the flag pole, vortices peel off and the flag is shaped by these pressure area’s. You will notice that, at low wind velocity, the flag will move slowly from side to side. As the wind increases, the flag will start to flutter and ripple, representing the increased frequency and intensity of these flag pole generated vortices as they pass. Wind velocity can thus be determined by measuring the frequency of that flutter.

The Cadillac® Vortex Meter is a rate, totalizing, and Mass flow meter which is capable of measuring liquid, steam and gas. Due to it’s rugged design it is particularly suitable for direct steam measurement. In any steam system, the Cadillac® Vortex Meter is the number one technology choice due to Cadillac®’s accuracy, linearity, reliability and rangeability. Like many other flow meters, the Cadillac® Vortex Meter is a velocity measuring device which computes flow by multiplying the effective cross sectional area of the flow meter with the detected fluid velocity. The meter has no moving parts and consists of a small vortex strut, embedded transmitting and receiving ultrasonic transducers, and amplifier assembly. It detects velocity by measuring the frequency of the vortices, as they peel off the vortex strut of the flowmeter. The frequency of these “Karman” vortices is directly proportional to the velocity of the moving fluid, whether this is a gas or liquid.

PRINCIPLE OF OPERATION

• ACCURACY, DEPENDABILITY, CONSISTENCY, LOW MAINTENANCE, RANGEABILITY.

Flow

Small Vortex Strut Shed Vortices

Receiving Transducer

Transmitting Transducer

CENTRAL STATION STEAM CO.® 15615 SW 74TH AVE., STE #150 TIGARD, OR 97224 PHONE: 888-556-3913 FAX: 503-624-6131 @ WWW.CADILLACMETER.COM Rev 0701

(Continued from page 2) frequency, which results in a meter K-factor expressed in “Pulses/Gallon”. This volumetric relationship is then converted to relative engineering units, which the flow meter converter can then retransmit via a 4-20 mADC current signal or conditioned pulse. An optional LCD Indicator/Totalizer can display and totalize in engineering units of the users choice. For compressible mediums, such as steam or gases, the meter amplifier can correct for temperature (internally mounted in strut) and pressure to provide a compensated or mass flow output(s) and display.

METER INSTALLATION

To ensure optimum performance and operation, Vortex meters should be sized to operate near or at the higher end of the operating range. This is due to the finite low end ability of the meter to generate and measure vor-tices. This is typically referred to as low flow cutoff. With other technolo-gies on the market this low flow cutoff value is relatively high, thus requiring piping reductions as illustrated to bring the meter within a reasonable range for operation. In a typical steam heating system this is typically 1-2 pipe diameters. However, with the Cadillac® Ultra-sonic Vortex technology, sensitivity is dramatically increased, which results in a significant reduction in low flow cutoff values. Resulting in line size meters and the cost savings of not having to manufacture reducing spool pieces.

The low-end performance of the meter is a function of the fluid’s ability to generate a vortex, which using ultrasonic technol-ogy is at the very threshold of when vortices for a given fluid are shed. This threshold is dependent on fluid velocity, density and Reynolds number. The high end of the flow meter is amplitude limited, which ultimately impacts the electronics ability to distinguish one vortex from another. In most cases, this represents 125 ft/sec for gases and 20 ft/sec for liquids. To guarantee satisfactory performance, we will check every vortex meter application for suitability and will require process medium, pressure, temperature and expected minimum and maximum flow rates. For easy reference, we are providing you with a table (see below) for saturated steam at various pressures. The tables list the minimum and maximum flow capability, between which a flow measurement can be made at stated accuracy. Outside those limits, the accuracy will deteriorate somewhat, the extent of which will depend on the quality of the installation.

METER SIZING INFORMATION

Saturated Steam Flow Range Table. (Steam Flow in lbs/hr)Pipe/Meter

Size 25 PSIG 50 PSIG 75 PSIG 100 PSIG 150 PSIG 200 PSIG 250 PSIG0.5" 2-57 4-90 5-122 6-154 9-217 11-281 14-3441.0" 7-199 11-315 15-428 19-540 27-762 35-983 43-12041.5" 14-568 22-899 31-1222 39-1542 54-2176 70-2808 86-34412.0" 28-908 45-1438 61-1955 77-2467 109-3482 140-4492 172-55063.0" 57-1816 90-2876 122-3910 154-4934 218-6964 281-8985 344-110134.0" 113-2723 180-4314 244-5865 308-7400 435-10446 562-13477 688-165196.0" 309-8355 489-16765 665-25190 839-31785 1184-44870 1527-57889 1872-709528.0" 549-14853 869-29805 1181-44782 1491-56507 2104-79768 2715-102913 3328-12613810" 857-23208 1358-46571 1846-69973 2329-88292 3288-124638 4242-160802 5199-19709012" 1234-33419 1955-67062 2658-100760 3354-127140 4735-179478 6109-231554 7487-283809

Upstream Downstream

10D 5D

Flow

D = nominal Vortex meter diameter

Traditional Vortex Installation

Cadillac® Ultrasonic Vortex Installation

In addition, for line sizes of 6” to 72” the meter is supplied as an insertion device which further re-duces installation costs and fabrica-tion. 10D 5D

Flow

Insertion style meter for line sizes 6” to 72”

Upstream Downstream

Wafer style meters for 1/2” thru 4” line sizes

Flow

Upstream Downstream

10D 5D

INTELX

100 PSIG

INTELX

19-540

INTELX

1.0"

Rev 0701

CENTRAL STATION STEAM CO.® 15615 SW 74TH AVE., STE #150 TIGARD, OR 97224 PHONE: 888-556-3913 FAX: 503-624-6131 @ WWW.CADILLACMETER.COM

• Meter willl consist of an in-line or insertion type flow meter assembly with remote or integral electronics. • Meter available with local or remote indication or blind housings. • Meter available with pulsed DC or analog (4-20 mADC) outputs. • Instantaneous and totalized flow available at local indicator or remotely through outputs. • Meter measures flow using the Karman vortex shedding principle. • Vortices shall be detected with an ultrasonic receiver. • Meter electronics shall be capable of direct mass flow computation for saturated steam without external inputs. • Input power shall be 15-48 VDC, analog output shall be 4-20 mADC, 2-Wire HART Protocol. • Operating pressure/temperature of meter shall be (-5 to 250 psig)/(-40° to 400°F)

CADILLAC® VORTEX METER GENERAL SPECIFICATIONS

CADILLAC® VORTEX METER MODEL NUMBER STRUCTURE

FLOW

“C” MAX RETRACTED

0.75”

13.00” MAX At MAX

INSERTION

7.75” 4.38”

CABLE ENTRY ACCOMODATES

3/4” NPT CONNECTOR

6.10” MIN RETRACTED

“B” MAX INSERTION

6.10”

3/4” NPT PIPE PLUG

4.5”

“A”

1.63”

FLOW FLOW

“E”

0.6”

7.75”

4.38”

“C”

CABLE ENTRY ACCOMODATES

3/4” NPT CONNECTOR

0.6”

3/4” NPT PIPE PLUG

4.5”

“D” DIAMETER

“B” DIAMETER

“A” DIAMETER

Wafer Meter Size - (inches)

0.5" 1.0" 1.5" 2.0" 3.0" 4.0"

Dia "A" 3.50" 3.97" 4.72" 3.97" 5.22" 6.87"Dia "B" 0.50" 0.88" 1.38" 1.75" 2.75" 3.75"Dim "C" 9.47" 9.65" 10.21" 9.79" 10.49" 11.39"Dia "D" 1.38" 2.00" 2.88" 3.15 4.55" 6.19"Dim "E" 2.25" 2.12" 2.12" 2.12" 2.12" 2.12"

CV Cadillac Vortex Flowmeter CVC Cadillac Vortex ConverterA Size 0.5" R Remote MountingB Size 1" I Indicator/TotalizerC Size 1.5" N BlindD Size 2" U Universal Mounting BracketE Size 3" XXFT Interconnecting Cable 10/25/50ft**F Size 4" FM FM ApprovalsG Size 6"H Size 8"I Size 10"J Size 12" *

S Standard ElectronicsM Smart Mass Electronics and Integral RTD

II Integral Converter with Indicator/TotalizerIN Integral Converter - BlindRC Remote Converter

W Wafer Style (1/2" to 4")I Insertion Style (6" to 72") *

150 ANSI Class 150300 ANSI Class 300

FM FM Approvals

For compressible fluids, such as gases or super heated steam, an external pressure input (4-20 madc) into the meter elec-tronics is required to provide mass flow computation. Mass Flow computation available for all gases except Helium and Hydrogen. Central Station Steam Company also offers a complete line of Pressure elements.

MASS FLOW COMPENSATION FOR GASES AND SUPERHEATED STEAM

Insertion Meter Dimensions

Line Size

DIM "A"

DIM "B"

DIM "C"

12" 12.00" 15.00" 21.50"

24" 24.00" 27.00" 33.50"

36" 36.00" 39.00" 45.50"

48" 48.00" 51.00" 57.50"

* For line sizes greater than 12” please contact Factory for pricing. ** Maximum cable length between electronics and flow tube is 50 feet.

INTELX

1.0"

INTELX

3.97"

INTELX

0.88"

INTELX

9.65"

INTELX

2.00"

INTELX

2.12"

INTELX

Size

INTELX

1"

INTELX

B

INTELX

Standard

INTELX

Electronics

INTELX

S

INTELX

W

INTELX

Style (

INTELX

Wafer

INTELX

Style (1/2" to 4")

INTELX

150 ANSI Class 150

INTELX

FM

INTELX

FM Approvals

INTELX

Converter with Indicator/Totalizer

INTELX

Integral

INTELX

II

4

Robustas válvulas de bloqueo de aplicacióngeneral, combinan la estanqueidad de suconfiguración aguja con una gran capacidadde pasaje.Su cuerpo es de barra, opcionalmente forja-do. Poseen bonete roscado con contracie-rre y asiento recambiable de acero inoxida-ble.

Rugged shut-off valves of wide applications, theycombine the leak-proof needle pattern with a wideflow capacity. Bar stock body, optionally forged. They have scre-wed bonnet with backseat and replaceable stain-less steel seat.

Especificaciones técnicas / Technical Data

-Presión de servicio @21°C: 210 kg./cm2 - Standard420 kg./cm2 - Opcional

-Temperaturas máximas: 260°C - empaquetadura teflón500°C - empaquetadura grafoil

-Pressure rating @70°F: 3000 psi - Standard6000 psi - Optional

-Maximum temperatures: 500°F - teflon packing930°F - graphoil packing

TIPOTIPE

CODIGOCODE

CT

CG

IT

IG

EMPAQUETADURAPACKING

Teflón / TeflonGrafoil / Graphoil

Teflón / TeflonGrafoil / Graphoil

ASIENTOSEAT

VASTAGOSTEM

CPO. Y BONETEBODY & BONNET

Materiales / Materials

Válvulas aguja de bloqueoShut-off needle valves

Otros materiales y empaquetaduras a pedido. Other materials and packings on request.

Acero carbono

Carbon steelAISI 420

420 SS

-

AISI 420

420 SS

AISI 316

316 SSAISI 316

316 SS

Acero al carbono

Carbon steel

Acero inoxidable

Stainless steel

A

B

A

B

DE

C

D

C

DE

5

Opcionales / Optional Supplies

Configuración ánguloServicio de alta presiónVástago especial (excepto V4)

Angle patternHigh pressure ratingSpecial stem (except V4)

Para ordenar la compra de su válvula, utilice el código indicado en pag. 3 Use code descibed in page 3 for your valve purchase order.

CONEXIONES CONNECTIONS DIMENSIONES MEASURES (MM)

ENTRADA SALIDA MODELO RECTA STRAIGHT ANGULO ANGLE

INLET OUTLET MODEL A B C D E (abierta) D E (abierta)

(open) (open)

1/4 NPT H Fem 1/4 NPT H Fem VA 125 60 30 33 13 72 33 70

1/4 NPT M Male 1/4 NPT H Fem VA 125M 78 47 33 13 72 33 70


3/8 NPT M Male 3/8 NPT H Fem VA 138 M 78 47 41 14 75 41 90





Dimensiones para el montaje / Installment required measures

ANEXO III FICHAS TÉCNICAS DE

EQUIPOS

Armstrong Flo-Rite-Temp™ STShell and Tube Steam Instantaneous Heat Exchanger

LTube

Removal Distance

A

3/4'' NPT 1/4'' NPT

F

C

D

B

E

G2

1

3

Wat

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WHM-

288

805_WHM_pg272_297 1/16/02 9:18 AM Page WHM-15

The Flo-Rite-Temp is a compact heavy duty industrial steam shell and tube type instantaneous heat exchanger.Its heavy duty construction and easy-to-clean tube bundlemake it ideal for those difficult applications where minimum downtime is a concern.

Features• Straight tube bundle with a free floating end designed for

easy bundle removal.• A non U-bend tube bundle design with a removable end

cover allows for easy and assured tube cleaning whenrequired.

• Heavy duty 5/8'' tubes of 16 gauge admiralty brass assurelong life and maintainability—10 year tube bundle warrantyagainst workmanship or material defects.

• The removable tube bundle end cover allows for 100%visual inspection of all tubes both inside and out.

To select the correct size shell and tube heat exchanger, the following data must be known:

1. Flow in gallons per minute (gpm in tubes)2. Inlet water temperature (°F/°C in tubes)3. Outlet water temperature (°F/°C in tubes)4. Steam pressure available at exchanger (psig in shell)

Armstrong-Yoshitake, Inc., 221 Armstrong Blvd., P.O. Box 408, Threewww.armst

MaterialsHead Heat Exchanger Shell Heat Exchange

Cast IronASTM A278

Carbon SteelASTM-SA-53B

Brass ASTMAlloy C44300 5/8

SpecificationsTube Side Maximum

Working PressureShell Side Maximum

Working Pressure150 psig (10.2 bar)

All dimensions and weights are approximate. Use certified print for exac

NOTE: All stainless steel available upon request.

Dimensions and Weights

A B C D E F G

442ST inmm

54-1/21,384

4-1/2114

3-1/289

3-1/289

7178

6-1/2165

512

552ST inmm

67-1/41708

5-9/16141

4-1/2114

4102

7-7/8200

6-3/4171

615

662ST inmm

80-1/42,038

6-5/8168

5-1/2140

4-3/4121

9-1/4235

6-7/8175

7-119

862ST inmm

83-1/22121

8-5/8219

8-7/8225

6-1/8156

9-1/2241

7-7/8200

820

ModelDimensions

15

Step No. 1From the table on page WHM-17, determine the clean tubetemperature value by using inlet water temperature and outletwater temperature along with the available saturated steampressure (psig) at the exchanger. Where necessary interpolate.

Step No. 2The clean tube temperature values are calculated with nofouling allowance. If a fouling allowance is specified or mustbe considered, refer to the table on page WHM-16. Basedon the fouling factor and tube velocity, obtain multiplicationfactor. The clean tube temperature value from Step 1 mustnow be corrected by multiplying its value by the fouling factor.The fouling factor will give you the value that the exchangerwill be reduced to when fouling is considered.

Rivers, MI 49093 – USA Phone: (616) 279-3600 Fax: (616) 273-8656rong-intl.com

r Tubes Tube Sheets Tube Bundle End CapB111

" - 16 BWGBrass

ASTM B16Brass

ASTM B16

Shell Side Fluid Maximum Working Temperature

Steam 375°F (191°C)

t dimensions. Design and materials are subject to change without notice.

L 1 2 3

750

1,2701-1/4 NPT

323/4 NPT

202 NPT

50lbkg

9443

262

1,5751-1/2 NPT

401 NPT

252-1/2 NPT

65lbkg

16977

/21

741,880

2 NPT50

1-1/4 NPT32

3 NPT80

lbkg

239108

374

1,8803 NPT

802 NPT

504 150# ANSI

100lbkg

440200

WeightConnections


Water Heating

and Mixing

805_WHM_pg272_297 1/16/02 9:18 AM Page WHM-16

Step No. 3From the capacity table below and the known gpm, movedown the appropriate gpm column and select a temperaturevalue equal to or greater than the required value from Step 1 with no fouling allowance or from Step 2 with a fouling allowance considered.

Example:Select a unit for 40 gpm from 40°F to 120°F with 15 psigsteam pressure available. From the table on page WHM-17,the clean tube temperature value is 45. Go to capacity tablebelow with a flow of 40 gpm. Select a temperature value of45 or greater. A Model 552ST would be the shell and tubeheat exchanger required with a temperature value of 48 anda tube velocity of 5.2.

Armstrong-Yoshitake, Inc., 221 Armstrong Blvd., P.O. Box 408, Threewww.armst

Flo-Rite-Temp ST Capacities

5 10 15 20Clean Tube Temperature Value 105 89 60 50Average Tube Velocity, ft/sec 1.6 2.4 3.6 4.8Clean Tube Temperature Value 85Average Tube Velocity, ft/sec 2.9Clean Tube Temperature ValueAverage Tube Velocity, ft/secClean Tube Temperature ValueAverage Tube Velocity, ft/sec

662ST

862ST

Model

442ST

552ST

0.0005 0.0010 0.0015

1 1.12 1.26 1.372 1.19 1.37 1.573 1.25 1.37 1.574 1.27 1.53 1.85 1.30 1.58 1.96 1.32 1.65 1.9

6.5 1.35 1.67 2.1

Fouling Correction Factor

Fouling CorrectionFactorTube

Velocity, ft/sec

Example:Same as above but with a specified fouling factor of 0.0010from the Fouling Correction Factor table below, the cleantube temperature value remains at 45. Multiply 45 by thefouling factor multiplier of 1.58 at 5 ft/sec (round velocity fromthe capacity table to nearest even number on the FoulingCorrection Factor table) consult capacity table below. Thenew clean tube temperature value for this heat exchanger is now 71.1. The capacity has been reduced from 40 gpm to25-30 gpm at this fouling factor. You also have the option tojump up to a 662ST and achieve approximately 50 gpm atthis fouling factor using a 71.1 temperature value.

Ethylene glycol Correction FactorEthylene glycol (50% and 50% water) correction factor.Use the same steps as for water except multiply the cleantube temperature value from Step 1 or Step 2 by using thecorrection factors shown in the table below.

Rivers, MI 49093 – USA Phone: (616) 279-3600 Fax: (616) 273-8656rong-intl.com

25 30 40 50 60 70 80 90 100 110 120 140456

80 59 48 38 293.7 4.4 5.2 5.9 6.6

112 86 70 63 50 46 392.2 2.9 3.7 4.4 5.2 5.9 6.6

120 118 116 104 91 85 66 62 58 461.6 2 2.4 2.8 3.2 3.6 4 4.4 4.8 5.6

Gallons Per Minute Heated in Tubes

50% Glycol - 50% Water Correction FactorAverage SolutionTemperature °F

Clean Tube TemperatureValue Correction Factor

60 1.4480 1.40100 1.36140 1.28180 1.18200 1.12

WHM-16

289

Armstrong-Yoshitake, Inc., 221 Armstrong Blvd., P.O. Box 408, Three Rivers, MI 49093 – USA Phone: (616) 279-3600 Fax: (616) 273-8656www.armstrong-intl.com


Clean Tube Temperature Values

Inlet Outlet 0 2 5 10 15 20 30 40 50 75 100 125 Inlet Outlet 0 2 5 10 15 20 30 40 50 75 100 12560 13 13 12 12 11 10 10 10 9 8 8 7 140 11 10 9 8 7 7 7 5 5 5 4 480 27 25 24 22 21 20 18 18 16 16 15 14 150 22 21 19 17 15 14 12 11 10 9 9 7100 42 40 38 35 33 31 28 26 24 22 21 20 160 37 34 30 28 24 22 19 17 16 14 13 12120 59 54 52 49 45 43 39 37 35 31 29 28 170 54 48 42 37 32 30 26 23 22 19 17 16140 78 72 69 63 59 55 50 47 44 40 38 35 180 78 68 58 52 42 40 33 30 27 25 22 20160 104 96 89 80 74 70 62 58 54 48 45 42 190 106 90 76 64 55 50 42 38 34 30 26 24180 143 131 118 103 94 88 76 71 67 60 54 50 200 150 136 104 80 70 60 50 46 42 37 32 2970 13 13 13 12 11 11 10 10 9 9 8 7 150 12 11 10 8 8 7 7 6 5 5 4 490 28 26 25 23 22 21 19 18 17 16 15 14 160 25 24 21 18 16 14 13 12 10 9 9 7110 43 41 39 36 34 31 29 27 26 28 21 20 170 42 38 33 29 25 23 20 18 16 14 13 12130 61 58 54 50 46 44 39 37 35 32 29 28 180 63 55 48 40 34 32 27 24 22 19 17 16150 84 79 72 65 60 57 51 48 45 40 38 35 190 92 78 65 60 46 42 35 31 28 26 22 20170 114 106 96 85 78 72 62 60 56 50 46 43 200 137 113 90 72 61 54 44 40 36 30 27 25190 168 149 130 111 100 92 80 76 70 64 56 52 210 172 124 94 78 65 56 48 45 39 33 3080 14 13 12 12 11 11 10 10 10 9 8 7 220 191 120 105 84 66 59 53 44 39 36100 29 26 25 24 23 21 20 18 17 16 15 14 160 14 13 12 10 8 8 7 6 6 5 5 4120 45 43 40 38 35 32 30 28 26 24 22 20 170 30 26 22 20 16 15 13 12 11 10 10 8140 65 60 57 52 48 45 40 38 36 32 30 28 180 50 45 38 31 28 24 22 18 18 14 13 12160 91 85 78 69 64 60 52 50 46 41 38 36 190 80 66 56 45 38 34 30 26 23 21 18 16180 130 117 106 90 84 79 67 63 59 52 48 44 200 104 102 78 60 53 46 37 34 32 26 24 21200 208 178 149 128 112 100 86 78 74 64 58 52 210 160 116 82 70 60 48 44 39 34 29 27100 15 14 13 13 12 11 10 10 10 9 9 7 220 116 85 78 62 54 47 42 35 32120 31 30 27 25 24 22 20 19 18 16 16 14 170 16 14 13 12 9 8 8 6 6 5 5 4140 51 47 45 40 37 34 31 29 27 25 23 21 180 37 32 27 22 19 17 15 13 12 10 10 8160 78 72 66 58 53 50 43 40 38 34 31 29 190 65 55 45 39 31 27 23 20 19 16 14 13180 116 105 93 80 73 68 59 54 50 44 40 38 200 113 88 69 52 44 39 32 28 26 22 19 17200 193 163 136 112 98 90 77 70 65 56 51 46 210 146 102 75 62 53 44 38 35 29 25 23120 17 16 15 14 12 12 11 10 10 9 9 7 220 168 106 84 62 56 48 44 37 31 27130 24 22 20 19 18 16 14 13 12 11 10 10 180 20 18 16 12 11 10 8 7 6 6 6 4140 37 35 32 28 26 24 21 20 18 16 16 15 190 48 40 31 25 22 20 16 14 13 11 10 9160 63 57 53 46 42 39 34 32 30 26 24 22 200 94 73 56 42 35 30 26 22 21 17 16 14180 101 92 80 69 62 57 49 45 42 36 33 30 210 132 87 62 51 43 35 30 28 23 20 18200 176 148 122 98 86 79 67 60 56 47 43 39 220 154 93 76 62 50 43 37 32 27 24120 8 8 7 7 6 5 5 5 4 4 4 3 190 28 23 18 14 12 12 9 7 7 6 6 5130 19 18 16 15 13 13 11 11 10 9 9 7 200 73 56 41 30 25 22 18 16 14 12 11 9140 30 26 24 22 20 18 17 15 14 13 12 11 210 204 115 75 50 42 35 28 24 22 18 16 15150 43 38 36 30 28 26 25 21 19 18 16 15 220 140 83 64 55 42 36 31 26 22 19160 56 52 46 40 36 34 30 26 25 23 20 18 200 45 32 23 17 14 12 10 8 7 6 6 5170 70 60 57 51 45 42 36 34 30 28 25 23 210 175 91 56 37 30 25 19 17 16 13 12 10180 95 86 76 64 56 51 46 42 39 34 30 27 220 120 66 50 40 31 26 23 19 16 15190 124 106 90 72 66 60 52 46 44 38 34 31 230 122 68 62 46 38 33 27 23 21200 170 142 115 92 82 73 62 55 51 43 40 38 210 130 52 33 21 16 14 10 9 8 7 6 5130 10 9 8 8 7 7 6 5 5 4 4 4 220 97 50 36 30 22 18 16 13 12 10140 20 18 17 16 14 13 12 11 10 9 9 7 230 98 65 51 36 30 26 20 18 16150 31 30 27 26 22 20 17 16 15 13 12 11 240 124 84 52 46 42 31 25 22160 46 42 38 32 28 27 24 22 21 18 17 15170 63 56 50 44 39 36 30 29 26 24 21 19180 83 74 65 55 49 45 38 35 32 28 26 23190 112 103 84 68 62 55 46 43 38 35 30 27200 158 132 107 85 74 66 56 50 46 39 35 32

Saturated Steam Pressure psig (at Sea Level)

40

50

60

WaterTemp. °F

80

100

110

120

190

200

130

140

150

160

WaterTemp. °F Saturated Steam Pressure psig (at Sea Level)

170

180

Wat

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WHM-17

290

805_WHM_pg272_297 1/16/02 9:18 AM Page WHM-17

http://www.armstrong-intl.com/common/allproductscatalog/cleaninplace.pdf

10

�

�

��

��

� �

� � � � ��

Steam saturation curve

Pressure bar g

Tem

pera

ture

°C

D

A

B

C

Drain E

Sizes and pipe connections

10

Dimensions, weights and volumes (approximate) in mm, kg and litres

Limiting conditions

Operating range

Materials

F Drain trapping

½", ¾" and 1" screwed BSP, NPT with screwed BSP or NPT drain.

Body and cover SG iron DIN 1693 Gr. GGG 40

Gasket Semi-rigid graphite laminate

Bolts Steel BS 1768 Gr. 5

Bush½" - ¾" Malleable iron

1" Forged carbon steel ASTM A105N

Baffle Cast iron DIN 1691 Gr. GG20

Body design conditions PN16PMA - Maximum allowable pressure 16 bar g

TMA - Maximum allowable temperature 300°CDesigned for a maximum cold hydraulic test pressure of 24 bar g

Size A B C D E F Weight Volume

½" 124 225 86 88 ½" 1" 2.7 0.53

¾" 156 260 110 113 ½" 1½" 4.2 1.13

1" 222 377 143 152 ½" 2" 8.1 3.15

The product must not be used in the red area.*PMO - Maximum operating pressure for steam.

S1SG iron

86

Control Valves with Electric and Pneumatic Actuators

Dimensions [mm] and Weights [kg]

ApplicationType V 725 Control of liquids, gases and steam up to 250 °C. Ultra-compact

pneumatic design thanks to directly attached positioner.

Max. Differential Pressure Ratings [bar] for Actuator Sizing

Pneumatic actuator Electric actuatorkvs DN LiftIP-127 IP-127 IP-252 IP-252 IP-502 IP-502 IP-700 IP-700 AP-102 AP-204 AP-208

(m3/h) (mm) (mm)FS1) FÖ2) FS1) FÖ2) FS1) FÖ2) FS1) FÖ2)

0.63 40 40 40 40 – 40 401.6 15, 20, 25 40 40 40 40 – 40 402.5 40 40 40 40 – 40 40

4 40 40 40 40 40 405.6 15 40 40 40 40 40 406.3 20, 25, 32 40 40 40 40 40 40

8 20 20 40 40 40 40 40 4010 25, 32, 40 40 40 40 40 40 4014 25 36 40 40 40 26 4016 32, 40, 50 36 40 40 40 26 4025 40, 50 18 33 40 40 12 40

31.5 40 12 23 32 40 8 2840 50 11 21 29 40 7 25

47.5 50 7 14 20 40 4 1740 65 40 40 40 40 23 4063 65, 80 38 40 40 40 13 29

100 80, 100 23 40 35 40 8 18125 80 40 16 36 24 40 5 12160 100 14 32 22 37 4 11180 100 10 22 15 26 3 7

Pneumatic actuators with spring range 2.0 – 4.8 bar. Other ranges on request.Max. differential pressures for control valves with PTFE rings. 1) Spring to close 2) Spring to open

DN 15 20 25 32 40 50 65 80 100∅ D Lift 20 mm Lift 40 mm

Length L 130 150 160 180 200 230 290 310 350H1 IP-127 198 355 355 355 356 356 361 – – –

IP-252 265 362 362 362 363 363 368 – – –IP-502 352 – – – – – – 536 536 539IP-700 405 – – – – – – 647 647 650

H2 AP-102 177 508 508 508 525 525 578 – – –AP-204 177 508 508 508 525 525 578 631 631 635AP-208 177 – – – – – – 669 669 673

Weight IP-127 13 13 15 18 20 24 – – –IP-252 17 18 19 23 24 28 – – -IP-502 – – – – – – 57 65 79IP-700 – – – – – – 72 77 93AP-102 10 11 12 15 17 21 – – –AP-204 10 11 12 16 17 22 37 44 58AP-208 – – – – – – 39 46 60

L

H2

∅ D

L

H1

87

Control Valve with Pneumatic andElectric Actuator PN 16/40

Extra price for control valve (bellows only available for pneumatic actuators)Bellows for cast steel bodyBellows for S.S. bodyPlug with soft seat of PTFE

AccessoriesPneumatic actuators Electric actuators

Pneumatic positioner SRP981 Potentiometer 1000 OhmElectro/pneumatic positioner SRD992 (EEx ia IIC T4) 2 additional limit switches3/2 way solenoid valve 330 (230 V/50 Hz) Position indicator (4 – 20 mA)1)Filter and reducing station FRS B72G incl. pressure gauge Positioner (4 – 20 mA)1)Limit-value transmitter unit, mechanical (2 pcs.) 1) Potentiometer required

Limit-value transmitter unit, slot-type initiator (2 pcs.)

Flanged connections to DIN 2526 design C (Please state nominal pressure rating when ordering DN 65, 80 and 100 mm).

Control valves for larger nominal sizes, higher pressures or special applications, e.g. three-way valves, available on request.

Nominal size DN (mm) 15 20 25 32 40 50 65 80 100

Cast steel body GS-C25 (1.0619)with pneumatic actuator IP-127 – – –with pneumatic actuator IP-252 – – –with pneumatic actuator IP-502 – – – – – –with pneumatic actuator IP-700 – – – – – –with electric actuator AP-102 – – –with electric actuator AP-204 – – –with electric actuator AP-208 — – – – – –

Stainless steel body (1.4581)with pneumatic actuator IP-127 – – –with pneumatic actuator IP-252 – – –with pneumatic actuator IP-502 – – – – – –with pneumatic actuator IP-700 – – – – – –with electric actuator AP-102 – – –with electric actuator AP-204 – – –with electric actuator AP-208 – – – – – –

Test certificatesMaterial test to EN 10204 2.2Material test to EN 10204 3.1 BPressure/leak test to EN 10204 2.2Pressure/leak test to EN 10204 3.1 B

16

Ball-Float Traps UNAPN 16 – PN 160

Features of the UNA series• Unaffected by back pressure and

condensate temperature

• No loss of live steam due tocontinuous water seal at the seat

• No banking-up of condensate evenwith extreme load and pressurefluctuations

• Particularly well suited for heatexchangers controlled from thesteam side

• Unaffected by dirt

• Automatic thermostatic air-venting(Duplex design)

• Ideal for discharging coldcondensates, distillates andcondensates derived from chemicalproducts (Simplex design)

• Repairable in-line

• Thanks to the rolling ball valve onlyreduced operating forces and smallcontrol units are required (compact,lightweight design for large flowrates)

Specification

Condensate discharge withoutbanking-up, even at varyingoperating conditions and backpressure. Automatic air-venting(Duplex design). Also for thedischarge of cold condensatesand distillates, and for draininggas and compressed air systems(Simplex design).

Available orifices for max. differential pressures

Type Closing units (Orifice)UNA 13 Orifice 4, 13UNA 15 Orifice 4, 13, 21UNA 23 Orifice 2, 4, 8, 13UNA 25/26 Orifice 2, 4, 8, 13, 22, 32UNA 27h Orifice 16, 28, 45UNA 39 Orifice 80, 110, 140, 140 max

L

L

UNA 13/15DN 15 – 25 mm

UNA 23/25/26hDN 15 – 50 mm

UNA 23/25/26 vDN 15 – 50 mm

Type PN MaterialDIN ASTM1)

UNA 13 16 GG 25 A 126 Cl. BUNA 23 16 GG 25 A 126 Cl. BUNA 15 25 C 22.8; GS-C 25 A 105; A 216 WCBUNA 25 40 GGG 40.3 FGS 370-17UNA 26 40 C 22.8; GS-C 25 A 105; A 216 WCBUNA 27h 63 GS-22 Mo 4 A 217 WC1UNA 39 160 13 Cr Mo 4 4 A 182 F 121) Physical and chemical properties comply with DIN grade.

INTELX

UNA 13 16 GG 25 A 126 Cl. B

INTELX

UNA 13

INTELX

13 L

17

Ball-Float Traps UNAPN 16 – PN 160

Pressure/Temperature Ratings and Designs

Type PN ∆PMX [bar]Max. Pressure/Temperature Rating

DesignPMA / TMA PMA / TMAUNA 13 16 13 16 bar / 120 °C 13 bar / 300 °C Simplex, Simplex-R, Duplex, h + v (h < > v convertible)UNA 23 16 13 16 bar / 120 °C 13 bar / 300 °C Simplex, Simplex-R, Duplex, h + vUNA 15 25 21 21 bar / 225 °C 13 bar / 400 °C Simplex, Simplex-R, Duplex, h + v (h < > v convertible)UNA 25 40 32 32 bar / 250 °C 25 bar / 350 °C Simplex, Simplex-R, Duplex, h + vUNA 26 40 32 32 bar / 250 °C 21 bar / 400 °C Simplex, Simplex-R, Duplex, h + vUNA 27 h 63 45 63 bar / 250 °C 45 bar / 450 °C Simplex, Duplex, hUNA 39 160 140 160 bar / 300 °C 35 bar / 550 °C Simplex, e

Capacity ChartsThe charts show the maximum hot condensate capacities for the range of float-controlled orifices (O) and sizes available.

UNA 13, UNA 15 UNA 23, UNA 25, UNA 26

Simplex: Float control (without thermostatic bellows)Simplex-R: Float control + inner vent pipeDuplex: Float control + automatic air-venting

h: for horizontal linesv: for vertical linese: angle pattern

Differential pressure ∆PMX Differential pressure ∆PMX

INTELX

UNA 13,

Thermostatic Steam Traps MKwith Membrane Regulator PN 25 – PN 40

12

TypeMaterial

Design/ApplicationDIN ASTM

MK 45-1 C 22.81) A 1051)2) With tandem seat (double sealing)MK 35/31 C 22.81) A 1051)2) For low condensate flowrates,

steam-tracing, steam-line drainage, air-venting

MK 45-2 C 22.81) A 1051)2) With single seatMK 35/32 C 22.81) A 1051)2) For medium condensate flowrates,

steam-tracing, drainage of heatexchangers, air-venting

MK 25/2 C 22.82) A 1053)2) With single seatMK 25/2 S C 22.82) A 1052)3) For large condensate flowrates,MK 25/2 S3 C 22.82) A 1053)2) drainage of heat exchangers

MK 36/51 1.43014) A 182 F 304 With tandem seat (double sealing)For low condensate flowrates, steam tracing, steam-line drainage, air-venting and vacuum-breaking

1) Material complies with DIN and ASTM requirements.2) MK 25/2 S DN 40/50: cover made of cast steel GS-C 25

(ASTM nearest equivalent: A 216 Gr. WCB)3) Physical and chemical properties comply with DIN grade.

ASTM nearest equivalent grade is stated for guidance only.4) DIN nearest equivalent grade is stated for guidance only.

Very sensitive response characteristic

Function is not impaired by high back pressure

Automatic air-venting (trap can be used for thermal air-venting in steam systems)

Installation in any position (horizontal and vertical lines)

High hot-water capacities even withlow differential pressures

With tandem seat (double sealing) for low condensate flowrates

Built-in non-return valve

Stainless steel internals (corrugatedmembrane of Hastelloy)

Design “U” with undercooling capsule:utilization of a certain amount ofsensible heat by banking-up ofcondensate, decreasing the amount of flash steam

MK 35/31DN 10, 15 mm

MK 36/51DN 8, 10, 15, 20 mm

L

L

MK 45DN 15, 20, 25 mm

L

Features of the MK series

Specification

Thermostatic Steam Traps MKwith Membrane Regulator PN 25 – PN 40

13

Pressure/Temperature Ratings

Capacity ChartsThe charts show the maximum hot condensate capacities.

Max. Pressure/Temperature RatingType PN ∆ PMX (bar)

PMA / TMA PMA / TMAMK 45-1 PN 40 22 32 bar / 250 °C 21 bar / 400 °CMK 45-2 PN 40 22 32 bar / 250 °C 21 bar / 400 °CMK 35/31 PN 25 21 21 bar / 225 °C 9 bar / 450 °CMK 35/32 PN 25 21 21 bar / 225 °C 9 bar / 450 °CMK 25/2 S DN 25 PN 40 22 32 bar / 250 °C 14.5 bar / 450 °CMK 25/2 S3 DN 25 PN 40 22 32 bar / 250 °C 14.5 bar / 450 °CMK 25/2 DN 40/50 PN 40 22 32 bar / 250 °C 14.5 bar / 450 °CMK 25/2 S DN 40/50 PN 40 22 32 bar / 250 °C 21 bar / 400 °CMK 36/51 – 32 32 bar / 240 °C 32 bar / 240 °C

MK 25/2 S, DN 40, 50 mm (Curve 1)MK 25/2 (Curve 2)

MK 25/2 S3 (Curve 3)MK 25/2S, DN 25 mm (Curve 4)

MK 45-1 (Curve 1)MK 45-2 (Curve 2)MK 36/51 (Curve 3)

MK 35/31 (Curve 1)MK 35/32 (Curve 2)

Varec, Inc.5834 Peachtree Corners East, Norcross (Atlanta), GA 30092 USA

Tel: +1 (770) 447-9202 Fax: +1 (770) 662-8939

www.varec.com

6700 TEC012GVAE1103

6700 Liquid Level IndicatorAccurate gaugeboard indicator for level measurementin storage tanks

ApplicationsThe Model 6700 Liquid Level Indicator is an economical, easy to install measurement device utilizing target and gaugeboard to indicate tank level. The indicator displays liquid level (product innage) to an accuracy of 1" (25 mm). Designed for use on a variety of atmospheric and low pressure storage vessels, the 6700 may be installed on both in-service and out-of-service tanks.

Features•Accurate to 1” (25 mm)•Durable aluminum gaugeboard with vinyl

facing•Level indication in feet/inches or meters/

decimeters•Full travel or half travel designs•Standard and severe service configurations•Vertical cone roof and bolted tank models

Liquid Level Indicator

2 Technical Information

Function and system design

Operation Changes in the liquid level of the tank raise or lower the float, which moves the indicator cable. Cable movement drives the indicator up and down the gaugeboard on the side of the tank. The liquid level in feet and inches, or meters and decimeters is shown by the indicator position on the gaugeboard. The user may then convert the liquid level to units of volume. This may be accomplished manually or Varec’s computer aided data acquisition system may perform the task.

Installation Varec offers a variety of models and installation kits to suit most applications for the 6700 Liquid Level Indicator. Included with each 6700 are all components necessary for installation, except for the 1-1/2" (38 mm) pipe. A comprehensive instruction manual provides step-by-step details on installation.

The aluminum gaugeboard is provided in 7 ft (2.1 m) sections and includes the necessary number of splice brackets to connect the sections supplied per the measuring range ordered. The aluminum board is 0.8" (2 mm) thick with a vinyl facing of Imperial or Metric units of measure.

TEC012GVAE1103 3

6700

Accessories

Oil Seals Oil seals are used when the tank cannot be free vented to atmosphere.

Drive Elbow Modification Kit

This kit allows additional transmitters or limit switches to be driven by the 6700. The kit includes the drive elbow, which replaces the standard elbow, and sufficient tape/cable for a 48 ft (14.4 m) tank.

Manways and Inspection Covers

To facilitate initial installation and subsequent inspection and service, Varec offers several inspection and manway covers.

Extension BracketKit

The extension bracket bolts to the standard bracket and provides an extension of approximately 2" (50 mm) from the side of the tank. Slotted holes are provided for adjustment. The kit includes a single bracket and the necessary mounting hardware.

Reinforcing Bracket The reinforcing bracket is installed between the standard mounting bracket and provides additional stiffness for the gaugeboard. This option is recommended for areas with high wind conditions.

Severe Service Kit For corrosive chemical storage, Varec offers a Severe Service Kit. All wetted parts are fabricated from fiber reinforced plastic (vinyl ester) or teflon coated stainless steel.

Stainless Steel Kit For corrosive or clean liquids such as potable water, a Stainless Steel Kit is offered with all wetted parts, top anchors and elbows fabricated from 316 stainless steel.


4 Technical Information

Technical specifications

Cone roof tank half travel bolted Cone roof tank full travel

Cone roof tank full travel severe The 6700 can be installed usingservice shown with Oil Seal option various manhole covers

6700 Liquid Level IndicatorDescription Standard Stainless Steel Severe ServiceIndicator board 0.08" (2 mm) aluminum 0.08" (2 mm) aluminum 0.08" (2 mm) aluminum

Sheave elbows Aluminum 316 stainless steel Cast iron

Indicator target 316 SS/HMWPE 316 SS/HMWPE 316 SS/HMWPE

Float 316 stainless steel 316 stainless steel Fiber reinforced vinyl ester

Float cable 316 stainless steel 316 stainless steel Teflon coated 316 SS

Guide cable 316 stainless steel 316 stainless steel Teflon coated 316 SS

Top anchors Steel 316 stainless steel Steel

Bottom anchors Steel 316 stainless steel (Customer supplied)

Cable fastener 316 stainless steel 316 stainless steel Fiber reinforced vinyl ester

Cable crimp Nickel plated copper Nickel plated copper Nickel plated copper

20

19

13

14

8

7

6

2

1

0

20

19

13

14

8

7

6

2

1

0

2

27

26

24

25

23

12

14

13

5

4

0

3

2

1

0

1

2

6

7

8

20

19

14

13

2

1

0

27

26

24

25

14

20

19

13

14

8

7

6

2

1

0

20

19

13

14

8

7

6

2

1

0

2

27

26

24

25

23

12

14

13

5

4

0

3

2

1

0

1

2

6

7

8

20

19

14

13

TEC012GVAE1103 5

6700

Order Codes

6700 Liquid Level Indicator

Oil Seals

Drive Elbow Modification Kit

Extension Bracket Kit

Reinforcing Bracket

10 Tank TypeBL Bolted

ST Standard

SV Severe

SS Stainless steel

Board Type and Length - imperial06F Tank to 6 ft

13F Tank to 13 ft

20F Tank to 20 ft

27F Tank to 27 ft

34F Tank to 34 ft

41F Tank to 41 ft

48F Tank to 48 ft

55F Tank to 55 ft

63F Tank to 63 ft

Board Type and Length - Metric02M Tank to 2 m (1.8 m)

04M Tank to 4 m (4.0 m)

06M Tank to 6 m (6.1 m)

08M Tank to 8 m (8.2 m)

10M Tank to 10 m (10.4 m)

12M Tank to 12 m (12.5 m)

14M Tank to 14 m (14.6 m)

16M Tank to 16 m (16.5 m)

19M Tank to 19 m (18.9 m)

Half Travel - Vertical Tank13H Tank to 13 ft - half travel

27H Tank to 27 ft - half travel






N6700- Product designation

Part # Description

10-01994-AAA 135° aluminum elbows, 8.5" (216 mm) W.C. max working pressure

10-01994-BAA 135° cast iron elbows, 8.5" (216 mm) W.C. max working pressure

10-02861-AAA 180° aluminum elbows, 27" (689 mm) W.C. max working pressure

Part # Description

13-08821 Drive Elbow Modification Kit, Imperial

13-08971 Drive Elbow Modification Kit, Metric

Part # Description

13-10720-003 Extension Bracket Kit

Part # Description

02-10721 Reinforcing Bracket


Varec, Inc.5834 Peachtree Corners East, Norcross (Atlanta), GA 30092 USA

Tel: +1 (770) 447-9202 Fax: +1 (770) 662-8939

Your offical representative

www.varec.com

© 2002 Goulds Pumps

Close-CoupledCentrifugal Pumps

3642MODEL

Motor• NEMA standard• Open drip proof, TEFC, or

(explosion proof threephase only) enclosures.

• 60 Hz, 3500 RPM• Stainless steel shaft• Single phase: 1⁄2-2 HP ODP

or TEFC. Built-in overloadwith automatic reset.

• Three phase:1⁄3-2 HP: ODP,208-230/460 V1⁄2-2 HP: TEFC,208-230/460 V1⁄2-2 HP: expl. proof,230/460 V

• Overload protection mustbe provided in starterunit. Starter and heaters (3)must be ordered sepa-rately.

FEATURES

■ Compact Design:Close coupled, spacesaving design provideseasy installation. Flexiblecouplings and bedplatesnot required.■ Mounting: Can bemounted in vertical orhorizontal position.■ Construction: Availablein brass fitted (BF), all iron(AI), or all brass (AB). Brassfitted means brass impeller.■ Impeller: Enclosed designfor high efficiencies. Threadeddirectly on motor shaft.Stainless steel locknut onthree phase models requiresno clearance adjustments.Balanced for smooth opera-tion.

■ Casing: Volute type,cast iron or brass construc-tion. Back pullout design.Discharge can be rotatedin eight positions. Verticaldischarge standard. Tappedopenings provided forpriming, venting anddraining.■ Mechanical Seal: Standard carbon/ceramic faces, BUNAelastomers, 300 seriesstainless steel components.Option seals available.■ Motor: Close-coupleddesign. Ball bearings carry allradial/axial thrust loads.Designed for continuousoperation. All ratingsare within working limitsof the motor.

APPLICATIONS

Specifically designed for thefollowing uses:• Water circulation• Booster service• Liquid transfer• Spraying systems• Jockey pump service• General purpose pumping

SPECIFICATIONS

Pump• Capacities: to 110 GPM• Heads: to 118 feet• Pipe connections:

• Maximum workingpressure: 125 PSI

• Temperature: standardseal, 212°F (100°C)maximum or 250°F (121°C)with optional hightemperature seal.

• Rotation: right hand i.e.;clockwise when viewedfrom motor end.

Model Suction Discharge

1 x 11⁄4 - 5 11⁄4" NPT 1" NPT

11⁄4 x 11⁄2 - 5 11⁄2" NPT 11⁄4" NPT

Effective April, 2002 www.goulds.comB3642

Goulds Pumps is ISO 9001 Registered.

Goulds Pumps and the ITT Engineered Blocks symbol areregistered trademarks and tradenames of ITT Industries.

PRINTED IN U.S.A. SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE.

Material Code Engineering Standard

1001 Cast iron ASTM A48 CL 20

1101 Brass ASTM B584

MOTOR FRAME

Single Phase Three Phase

ODP TEFC ODP TEFC/EXPL

48 1⁄3 — — —

56 1⁄2 – 2 1⁄2 – 2 1⁄3 – 2 1⁄2 – 2

Motor Frame

COMPONENTS

DescriptionItemNo.

100 Casing 1001 1001 1101101 Impeller 1101 1001 1101108 Adapter 1001 1001 1101123 Water deflector Rubber or Micarta➒

240Motor Support SteelRubber Channel Rubber

304 Impeller nut* Stainless steel351 Gasket-casing Composite

358Pipe plug 1⁄4" vent

Steel Steel Steeland drain

370Hex head cap screw

Steeladapter to case

371Hex head cap screw

Steeladapter to motor383 Mechanical Seal

Material Code

Brass All AllFitted Iron Brass

351 408 108

100

101

304

383123

358

370 371

MATERIALS OF CONSTRUCTION

DIMENSIONS AND WEIGHTS

Pump A B D E F H L O P W X Y Z CP

1x11⁄4-5

11⁄4x11⁄2-5

7 131⁄2 48 55

151⁄2 56 67

37⁄8 4 21⁄4 215⁄16 153⁄4 56 6873⁄8

63⁄4 57⁄8 41⁄8 215⁄16 5 13⁄32 73⁄8 7⁄16 4

Wt.(lbs.)

MotorFrame

(All dimensions are in inches and weights in lbs. Do not use for construction purposes.)

358

* Impeller nut furnished on three phase units only.

47⁄8"APPROX.

CAPACITOR(Single Phase)

P

4-H HOLES

21⁄2"

OMAX.

LBF

YCP APPROX.

EA

E

ZW

D

Close-CoupledCentrifugal Pumps

3642MODEL

OrderSuffix

35⁄8 41⁄8 23⁄16 31⁄16

240

Service Rotary Stationary Elastomers Metal Parts10K10 Std.

General Ceramic

N 10K6Heavy BUNADuty Ni-Resist

O 10K18 Opt. Hi Temp.Carbon

EPR

V 10K55Chem.

Ceramic VitonDuty

408Prime plug – priming

Steel Brass1⁄4" NPT

300Series SS

X

FIBERGLASS AUTOMATIC WATER SOFTENER45,000 - 750,000 Grains Softening Capacity

301-11 Water Softener

PARKER B O I L E R C O.

5930 Bandini BoulevardLos Angeles CA 90040Fax (323) 722-2848

www.parkerboiler.com

Phone (323) 727-9800BROCHURE 301-11 0H1

301-11 Water Softener

The Parker Automatic Water Softener gives you the best in quality equip-ment to soften water most efficiently at reduced Operating Cost. You can place complete confidence in Parker. For over 50 years, Parker has manu-factured Softeners widely used in laun-dries, hospitals, institutions, schools, hotels, apartments, restaurants, dairies and industrial plants. Each model Softener has been properly engineered and designed to assure the best in quality and to furnish soft water by the most efficient and economical method known. Constant research, develop-ment and proven satisfaction makes the Parker name synonymous with quality.

ADVANTAGES1. Reliable Control ValveThese softeners include a top mounted solid brass valve with a fully adjust-able 5-cycle control for controlled upflow back wash, downflow brining, slow rinse, rapid rinse, timed brine refill and downflow service. The valve features time proven hydraulically balanced pistons to pilot service flow and regeneration. Models standardly include a built-in 12-day Time Clock. This valve brings great performance and versatility to commercial and industrial water softening applications.

2. Safe Low Voltage ControlsAll models require a 115 Volt, 1Ph, 60 Hz electrical duplex outlet and include a 115/24 Volt plug-in trans-former and 10 Ft. Extension Cord. The low voltage electrical supply at the softener near the water connec-tions provides greater safety to operating personnel.

3. Softener TankThe Heavy Duty NSF (National Sanitation Foundation) approved

5. DistributorA bottom stack or hub and lateral distributor system provides maximum service flow and minimal pressure loss.

6. Brine TankThe high density polyethylene Brine Tank will not crack or rust out and comes complete with a high level shut-off and overflow connection. Dust-tight covers keep out unwanted impurities.

Be sure of getting only the best Water Softener at low initial cost. The Parker is a rugged, heavy duty Industrial soft-ener, built to provide many years of trouble-free service. The purchase of a Parker Softener assures not only the ultimate in quality but the guar-antee of an experienced manufacturer to assure the ultimate in economy of operation and maintenance.

Fiberglass AutomaticWater Softener

fiberglass reinforced pressure vessel is totally non-corrosive and assures dependable, rust free service. Softener is suitable for pressures to 100 PSI and temperatures to 110° F.

4. ResinThe FDA approved high capacity lon Exchange Resin has uniform and stable beads to assure long life, high salt efficiency and maximum hardness removal.

NEVER A COMPROMISE FOR QUALITY OR SAFETY

INTELX

Water Softener

INTELX

301-11

PARKER FIBERGLASS AUTOMATIC WATER SOFTENER

MODEL NO CAPACITY FLOW RATE(G.P.M) PIPE SIZE TANK SIZE (DIA/HEIGHT) INCHES MAX HEIGHT SHIPPING (GRAINS) @15PSI∆P* @25PSI∆P** (INCHES) SOFTENER BRINE (INCHES) WEIGHT (LBS)

FGA-45-1 45,000 16 22 1 10/54 18/40 62 140

FGA-90-1 90,000 19 26 1 14/65 24/41 73 240

FGA-120-2 120,000 47 64 2 16/65 24/41 80 450

FGA-180-2 180,000 63 81 2 22/54 24/50 73 575

FGA-240-2 240,000 74 97 2 24/60 30/50 80 825

FGA-300-2 300,000 68 91 2 24/71 30/50 91 975

FGA-450-2 450,000 84 105 2 30/72 39/48 95 1,400

FGA-600-2 600,000 85 100 2 36/72 39/60 95 1,850

FGA-750-2 750,000 90 105 2 36/72 42/60 95 2,100

FIBERGLASS AUTOMATIC WATER SOFTENER45,000 - 750,000 Grains Softening Capacity301-11 Water Softener


5930 Bandini BoulevardLos Angeles CA 90040Fax (323) 722-2848www.parkerboiler.com

Phone (323) 727-9800BROCHURE 301-11 0H1

NOTE1. Electrical: A 115 Volt, 60 Hz, 1 Ph duplex outlet that is always energized is required. All Models include a 10' Extension Cord and 115/24 Volt Trans-former so that the Softener operates on 24 VAC.

2. Water Requirements: MINIMUM PRESSURE/TEMPERATURE: 25 PSI/34° F MAXIMUM PRESSURE/TEMPERATURE: 100 PSI/110° F The softener tank must not be subject-ed to freezing conditions. If piping has any sediment or iron, install separate filter ahead of softener.

3. The Models FGA-45 through FGA-120 are shipped loaded with Resin. The larger models are shipped with separate Resin and require loading at time of installation.

4. Always locate the softener close to a drain and provide for the installation of a bypass valve.

5. Softener capacities are based on 30,000 Grains per Cu. Ft. of Resin.

6. For dual models, add a “D” in front of the part number.

301-

11 W

ater

Sof

tene

r

* Recommended maximum continuous flow rate** Maximum instantaneous flow rate

BRINE TANK SOFTENER

dia. dia.

tank height

max. height

tank

heig

ht

INTELX

FGA-45-1 45,000

INTELX

16 22

INTELX

1 10/54 18/

INTELX

18/40 62

INTELX

140

INDUSTRIAL PACKAGED STEAM BOILERHorizontal Drum Sectional Water Tube

7 to 25 HP Gas Fired


5930 Bandini BoulevardLos Angeles CA 90040Fax (323) 722-2848

www.parkerboiler.com

Phone (323) 727-9800BROCHURE 0A3

103 Steam Boilers 7-25 HP

6. Codes All Parker Steam Boilers are manufactured in accordance with the ASME Power & Heating Boiler Codes and registered with the National Board of Boiler and Pressure Vessel Inspectors. The standard natural gas fired model is furnished as an Underwriters’

ADVANTAGES1. Safety The Parker tube bundle is extremely flexible and offers a long life with a 20 year warranty against thermal shock. No Parker Boiler has ever been known to experience an internal explosion.

2. Large Heating Surface A large amount of heating surface provides increased efficiency, long boiler life and minimizes chances of scaling. Compare ours to the competition.

3. Simplicity The Atmospheric Burner System, the control system and entire boiler are furnished so that it is simple to oper-ate by regular personnel. Simplicity is a decided advantage as there are no expensive blowers, complicated controls, or burner adjustments, as is necessary on many boilers.

4. Internal Accessibility– Inspection Cabinet doors can easily be removed in a matter of minutes, making the internal boiler, drum, tubes, and burn-ers readily accessible. Easy-to-remove gasketed access plugs are provided at both ends of every tube. Boiler inspections can be accomplished quickly and at low costs.

5. Ease of Inspection and RepairAny boiler may eventually require retubing depending on care and operating conditions. Retubing does not require special tools, skills or welding as is necessary on most boilers designed with rolled tubes.

Laboratories, Inc. Listed Gas Fired Boiler Assembly and displays their symbol on the nameplate. Outdoor, propane and Low NOx models are ETL listed. Canadian models are C-ETL Listed Industrial and Commercial Gas Fired Packaged Boilers certified to CAN/CGA 1-3.1 and UL 795.

THE PARKER DESIGNThe Parker water tube design offers an extremely efficient, reliable steam boiler built for long term use and ease of maintenance. The Parker design offers many advantages. Compare ours to the competition.

IndustrialPackaged

Steam BoilerPressures

to 250 PSI

NEVER A COMPROMISE FOR QUALITY OR SAFETY


INDUSTRIAL PACKAGED STEAM BOILERHorizontal Drum Sectional Water Tube7 to 25 HP Gas Fired


5930 Bandini BoulevardLos Angeles CA 90040Fax (323) 722-2848www.parkerboiler.com

Phone (323) 727-9800BROCHURE 0A3

THE PARKER DESIGNA time proven product backed by one of the largest and most successful manufacturers of packaged steam boilers whose name is synonymous with quality and safety. Every boiler is thoroughly factory fire tested and is required to meet the highest standards in all places of mechanical and operating efficiency before shipment.

ADVANTAGES7. Dry Steam Our large horizontal steam drum provides ample steam release area to assure dry steam delivery. No steam separators are required.

8. Heavy Duty Tubes Parker tubes are 1-5/16” O.D. Grade SA-53 steel heavy .133” thickness which is almost double that of standard gauge boiler tubing. Each tube is double-welded to assure a rugged connection.

9. Fast Heat-Up Our boiler requires less than ten minutes to heat up to 100 PSI from a cold start which is a considerable time and fuel saver.

10. Low Cost Operation The staggered tubing design provides a multi-baffled heating surface to increase efficiency.

11. Heavy Insulated Cabinet The cabinet is durably constructed with two thicknesses of heavy steel, insulat-ed on all sides with high temperature thermal fiber insulation to effectively reduce heat losses to a minimum.

Pressure gauge

Safety valve

Tubes - 1 5/16” OD heavy thickness .133” double welded to headers

Staggered tubes designed to be flexible for free expansion and contraction provide 8 pass self-baffled heating surface

Easy to remove access plugs on each end of the tube

Automatic burner controls provide electronic flame supervision and intermittent ignition, dual low water cutoffs, dual fuel valves and variable rate firing on natural gas

Secondary, M.R. probe type low water cutoff

Steam valve

Horizontal steam drum extra heavy seamless 1/2” thick steel over 60,000 PSI tensile strength

Water level pump control & primary low water cutoff

Sectional tubes removable by disconnecting two unions

Efficient Parker atmospheric low pressure gas burners provide high combustion efficiency and uniform heat distribution

Heavy Steel Boiler frame for setting on concrete floor

103

Stea

m B

oiler

s 7-

25 H

P


ANEXO IV FICHAS TÉCNICAS DE

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Tablas de Vapor

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