Emerson mass flowmeter r050s116ncanmzzz + 1700i12demmzzz
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Emerson mass flowmeter r050s116ncanmzzz + 1700i12demmzzz, touch screen and OLED Forum
Emerson mass flowmeter r050s116ncanmzzz + 1700i12demmzz8 f3f   ? 8 A6 i; x1 DMicro Motion HPC010P) o7 p; }) \# ` 6 V × x high quasi high pressure Coriolis flowmeter, d9 z; H; O7 V3 I. V high-pressure Coriolis flowmeter performs well in chemical injection and other applications on offshore platforms, and is an ideal solution for challenging high-pressure process applications.

Emerson mass flowmeter r050s116ncanmzzz + 1700i12demmzzz

accurate and repeatable measurement can ensure accurate downhole chemical delivery.
in this paper, the design of O7 V3 I. V high-pressure Coriolis flowmeter is introduced   f$ U1 y7 e+ y/ c( x.
H/ a4 u5 c5 x- ^* @0 p# ^+ o! uSpecifications&S9 y (L0 Y: T. I0 x flow rate 25-240 kg / HR (55-529 lb / HR)% m $X5 a (L $V # F7 q)Liquid mass flow accuracy standard (Reference) conditions ± 0.20%"G) I0 | 4 g $O2 T2 V2 e liquid mass flow repeatability standard conditions ± 0.1%" s1 v* s- T2 @4 D- XUnder the standard condition of liquid density accuracy ± 0.005 g/cc1 e 'X: R: T8 | 8 e (Z0 x temperature range, standard conditions, ± 1 DEG C ± 0.5%; n4 M& C; _; h+ b; Z * r "J pressure range 0-1034 barg (0-15000 psi)! V( q( V2 |3 K5 ^: F6 |$ }6 Q6 U,h. ^8 L% d9 Q+ sfunction. a. M( K6 V; X + I: n excellent neutral performance for high voltage applications& O& u1 g% l. Z   @! E6i can measure mass flow, volume flow, density, concentration and temperature reliably and repeatedly with one device(^ 7 E / X% v "W4 O + u9 ~ 6 F: s) achieves the best practical Coriolis performance at operating pressures up to 1034 barg (15000 psi), 1 m; @% G# p. Z6 b( _ 9 nThere are no movable parts that will wear or need to be replaced, so the maintenance work is minimized and the long-term reliability is guaranteedT. '# O-A, N use intelligent instrument to check the integrity of the system, without removing the instrument, it can maximize the normal operation time "A / J9 f; b6 V& a1 D1 \There are two wires, direct connection (without transmitter), stainless steel and 5700 transmitter to choose from, which can meet various installation requirements3 ^* G/ ~+ z5 E- y$ o; S4 E reduces over injection of high value chemicals,It can significantly reduce the operating cost 'G8 s # C - L "^. K1 a( ~/ J. Z4 |2 r2 ^ 1 L4 X. G2 T: R 'D9 S + [2700i13bbaezzz / f050s239ccaaezzz high accuracy Coriolis flowmeter! K9 Q0 A / g $l (^% d $K7 z2700 high precision Coriolis MVD 2700 multivariable flow and density sensor 5 u    u    K: k) Y" AInstallation I: integrated installation transmitter: ^ 3 Q8} 6 w ([- QPower supply 1: 18 to 100 VDC or 85 to 265 VAC; Automatic switching/ }5 W' ^7 a; y    V8 H6 P ` display 3: no display screen; Not applicable for certification codes J, t or S$ F! S% P+ i% N; I output B: one Ma; Two configurable IO channels - default configuration of 2 mA, 1 fo $]! e    H2 e: Z/ z0 x8 I    o. p( w1 t4 {Installation code B: 1 / 2 inch NPT - no sealing sleeve; Not applicable for certification codes T, s or J& v" d' N0 T# C: z! G certification a: CSA C-US (USA and Canada) 3] - H 'H4 W8 t' g (ULanguage a: English installation manual; English configuration manual * J & E6 L2 U2 L ([(WSoftware Z: flow variable (standard)) Q8 y + O6 O5 uZ: No software option 2 - s * F5 E5 B8 tZ: Standard products/ i' Q    r) R    w% J" q2 P1 y,?! Z) d$ V* v1 y3 gF050S239CCAAEZZZZ( k' J, k. J7 A0 K! H8 J8 ~ f050 sensor series+M2 {% U. C. o 'L2 u basic model s: 316L stainless steel f050 1 / 2 inch (13 mm) 3 N & G7 J4 x)]Process connection 239: # 12    VCO    316/316L    Swagelok fitting 3 / 4 "NPT female adapter 5 ^ - B3 M    J" vCase C: compact case0 J$ `4 v; L$ y0 ~2 _ Electronic interface C: for integrated 1700 or 2700 transmitter: A0] 7 @ / B, K * C. d0 Y2O $Y! fConduit connection a: 3 / 4 "NPT - no sealing joint; m. _% s* X9 p    w0 I9 n- w8 dCertification a: CSA (USA and Canada): Class 1, Division 1, groups C and D language e:    English installation manual # L $W6 n: K: W: a; yOther certification Z: no other standard certification option is selected; Not applicable to f100p instrument6 T6 q! Y4 n! W4 a% w. @$ v    M calibration Z: 0.20% mass flow and 0.002 g / cm3 (2.0 kg / m3) density calibration4 G+ o, v- `8 C# o; F measurement application software Z:    No measurement application software! Q2 g5 U% c' n: z! J '] & K: D factory option Z: standard product,j3 D. J" @/ ^    I2 x/ k0 `& ?! z    H, ?$ x. S / @ $y6} 7 C selection reference:) }& m    s/ ^3 {    X Emerson flow transmitter: 1700r12abpmzzz7 V, (6 x) E4 F3 M8 n1700: high accuracy Coriolis MVD 1700 single variable flow transmitter) y '_    V" Q. @$ g$ ER: 4-wire split mounting transmitter 5 T3 e # A8 M 'n, Y / n@1: 18 to 100 VDC or 85 to 265 VAC; Automatic switching5 C% M & n & {(U, ~ * J% S2): backlit dual line display, displaying process variables and accumulator reset,Glass dial 5 T2 U. B '[ 7 H- n) ]    k9 P7 @A: Analog output: one Ma; One frequency; RS-485 ; Only for display code 8 * Z    V& Y6 _    tB: 1 / 2 inch NPT - no seal sleeve; Not applicable to certification code T, s or j% | 5 G8 z$ I$ K! Z. n: e! V( {P: Nepsi - equipment category 2 (zone 1 - Flame Retardant junction box); Only for language code m (Chinese)1 Q: '(D "W $H2 | + JM: Chinese installation manual; Chinese configuration manual& q& G' h/ d! C) BZ: flow variable (standard)7 _& w8 w/ ? 0 H. {Z: no software option 20 Z# ~; N9 x $B: J * F6 Z9 DZ: standard product! a3 K4 H4 B5 [8 N4 c; z,K# @& _$ Q9 l1700: high accuracy Coriolis MVD 1700 single variable flow transmitter * Q. t0 f # X / L3 p1: Integral mounting transmitter 4 P /}: C0] 4 [4 T! ["}% J    m   |. 1: 18 to 100 VDC or 85 to 265 VAC; Auto switch% m: F5 e! Z& W1: Dual line display, display process variables and accumulator reset, glass dial; Not available for installation code m or P'n "B1 e (n # C -') e. ha: analog output: one Ma; One frequency; RS-485 ; Only for display code 8& P7 P. ^/ J* L; S1 VB: 1 / 2 inch NPT - no seal sleeve; Not applicable for certification codes T, s or J5 J (E3 d0 C7 G5 I) QA: CSA C-US (USA and Canada)+ j5 F- z* m; P    Nm: Chinese installation manual; Chinese configuration manual# J! C6 ^ 8 N8 H8 ~ Z: flow variable (standard) 3 T $F7 Z * m (Q; I# z    iZ: No software option 2 * e * {7 B% g% a, O2 IZ: Standard product. M3]. \; r) E: B3 d! w; n+ h$ ?   {- ] 4 |5 P9 L6 Z! e' G6 K) }Emerson mass flowmeter cmf050m304nqbzezzz + 1700r11abzezzz5 E3 N1 D: D1 Y "@ 2 / Emerson mass flowmeter cmf100m317nqbzzz + 1700r11abzzz6} * S4 Y2 y. S9 B / C * I Emerson high accuracy mass flowmeter k025s176nzti16abpmzzz   \ 5 [3 _ 1 u* f1 g+ C,U" kEmerson mass flowmeter r200s341ncaamzzz / 1700i11abamzzz   ^* D5 |, \9 L% B# mEmerson mass flowmeter cmf025m314nqezezzz* C    N7 H7 m * \% ` 4 M0 i7 {+ ''x "U Emerson mass flowmeter f025s319cqezezz & D9_ 8 }% M% _   \   P9 LEmerson mass flowmeter cmf400m436nrazezzz! @ 4 i7 i#^ ~) C Emerson mass flowmeter cmf300m356nrhzezzz * l "i#| 2 C" G! c+ P9 g6 {: ^1 tEmerson mass flowmeter cmf025m009prb3ezzz. C1 o) B + V4 x + L    fEmerson mass flowmeter f200s418ccaaezzz / 1700i11abaezzz/ [% t4 x: |3 V6 W& N( f! N: | Emerson mass flowmeter cng050s290nqepmzzz3 m * r + D / # Z / u! o4 \Emerson mass flowmeter r025s172ncapmzzz + 170012abpmzzz1 o) ?: { 2 m / u, F0 D Emerson mass flowmeter transmitter 1700r12abmmzzz% h7 W& B9 u( z/ i; C * B Emerson elite series Coriolis Emerson mass flowmeter cmf025m009prb3ezzz / N / | + U & O: D3 X; sEmerson mass flowmeter f200h549ccaaezzz + 2700i11abaezzz3 k' Y,a( ^! Y% s' U (D5 Z Emerson elite series Coriolis Emerson mass flowmeter cmf025m009prb3ezz4 X & U *? 2 v- [" d1 X- l/ WEmerson mass flowmeter 2700r12bbaezzz / t150t641sqbaezzz? O, [, O5 G4 V; W7 ]Emerson mass flowmeter cmfs015m176n2bpmkztg / 1700r12abpmzzpk% Q% v- k% {$ u$ D' A+ o' \    Q $N4 {Emerson mass flowmeter cmfs025m176n2bpmkzztg / 1700r12abpmzzpk/M6n & X # T8 j5z: u Emerson mass flowmeter f050p150ccammzzz + 1700i11abmmzzz)B4 K6 H5 g # G1 J 'Z1 D Emerson mass flowmeter f200s369crapmzzz / 1700c18abpmzpk5 @ 2 V    N( N# D4 qEmerson mass flowmeter k200s369nzti159epmzzz: T $~ * B "D + I (|Emerson mass flowmeter k200s369nzti16abpmazzz (DN50) / x9 M% W3 o "Y (E)    YEmerson mass flowmeter k300s371nztr16abpmazzz (DN80)%M9 | - R * I4 '% J2 E6 [Emerson mass flowmeter k300s371nzt116aepmazzz   M1 g. o: b    U5 C Emerson mass flowmeter cmfhc2m452n2fzezzz + 1700r13defezz8 ? 0 f,O0 _ 6 i5 H & Y3 K Emerson mass flowmeter 2700111 ddmezz4 u9 a "p'j    B& ~+ m% w# k+ wEmerson mass flowmeter cmf025m300n2fnmzzz / 2700r12gfmmzzz (x4 P2 B - Z0 y. BEmerson mass flowmeter lngs06s176npdrepamzznz / E + R (a - [8 D7 Y1 KEmerson mass flowmeter f200s365ccapmzzz / 1700i12abpmzzz-R4 L & C $~ - t / M Emerson mass flowmeter cmf200m418nabzmzzz / 1700r11abzezzz5 s: C + B4 L (R) Emerson mass flowmeter cmf050m313n2bpmzzz + 1700r12abaezzz} 2 z- ?* x) ]: L   ^! YEmerson mass flowmeter cmfs025m176n2bzmkzz + 1700r12abzmzzz) P & i7 @ - Q   ] 1 h. s. W; WEmerson mass flowmeter cmfs010m323n2bmmkzz / 1700r12abmmzz5 ~ 1_ 9 E3 v& m. y' aEmerson mass flowmeter cmfs025m172bmmkzz / 1700r12abmmzzz:? 7 m) f2 ~% F( dEmerson mass flowmeter r025s176ncammzzz - M7 w (W & P + Q! r$ Y; ?# jEmerson mass flowmeter cmf025m300nrapmzcx6 P. O/ H! M $x) M0 H -] 2 C Emerson mass flowmeter cmfs050m176n2bzmkzz / 1700r12abpmzzz* A" F6 B! N; P0 z7 @ 2 m Emerson mass flowmeter cmf200m369n2bpmzz / 1700r12abpmzz4 Z5 R: f5l6 \ # R. E\Emerson mass flowmeter cmfs015m176n2bpmczz / 1700r12abpmzzz2 @    E / R) y8 | - G #} + V Emerson mass flowmeter cmfs075m176n2bpmczz / 1700r12abpmzzz8 n# O7 s4 N2 _' C'i% u9 u Emerson mass flowmeter r200s343ncapmzzz + 1700i12abpmzzz0 i9 `: N5 _' J; B7 {Emerson mass flowmeter cng050s290ncapmzzz + 1700i18aepmzzz1d,s% E9 D. w( ]Emerson mass flowmeter cmfs015m319n2bpmczz + 1700r12abpmzzz! D% B # [+ P # Q8 M6] Emerson mass flowmeter cmf300m355n2gme3zzmcht + 5700r12agmazzzaaazamvcmp0 Z( ]- }3 j% u* `; Y $L / J) l Emerson mass flowmeter f300s371ccapmzzz + 1700i12abpmzzz7 I - Q1 o "D4 X5 a Emerson mass flowmeter 5700r12agmazzzaaazamvcmp + cmf300m355n2gme3zzmcht0 J6 X "C2 m3 h. R% A9 ~ Emerson mass flowmeter cng050s239ncaamzzz '} / D' e # W; r. eEmerson mass flowmeter r050s116ncanmzzz + 1700i12demmzzz! Y5 ` 6 \ \ 2 o * C 'H2 D. @ 2 Z3 [Emerson mass flowmeter cmf200m418nqbamzzz + 1700r12abamzzz: p0 a% c/ @# U" L1 _& E4 A & R6 n + E8 P Emerson mass flowmeter f300s391ccanmzazz + 2700i11ddmezz7 L    m( _% _ 0 B# ~Emerson mass flowmeter f300s391ccanmzazz + 2700i11ddmezzz4 C" j4 l! L7} "P8 g" C Emerson mass flowmeter cmf350m443n2bmzzz + 2700r12bbpmzpk& ]# J& ^    L'm Emerson mass flowmeter f300s357caezezzz( {& W: E) r: t# J$ |) ~,@%Y9 x Emerson mass flowmeter f100s139ccaiezzz + 1700i12abiezz8 M    A, l7 N( f9 E4 ]Emerson mass flowmeter f100s138ccaiezzz + 1700i12abiezz / S    K3 x# w% g& ^3 YEmerson mass flowmeter f200s378ccaamzzz9 Y9 g8 K: L    R2 G2 f Emerson mass flowmeter cng050s290nwbzez1 g (I    Q/ F: A; j" M& k1 bEmerson mass flowmeter transmitter 2700r11abuezz2 F "\'r0 m, S% C-R / S`Emerson mass flowmeter f050s122crazezz + 2700c12befezz + U! l9 s; Z5 d. V( i8 _ 9 S7 `3 p    jEmerson mass flowmeter cmf200ma36n2ezezzz + 2700r15bgfezwzpk8 }/ [% [. J: H' o& ^- ? 7 X7 Z Emerson mass flowmeter f100s131crazmzzz + 1700c18aefmzpk2 Q1 Z # Q & H # t! [ y8 d3 mEmerson mass flowmeter k100s328nztr16abpmz2 D & n $Q,X" o! q9 MEmerson mass flowmeter r200s369ncapmzyzz + 1700i12abpmzzz4 a+ D- n5 d3 [: c7 ]! N $g Emerson mass flowmeter k025s113nztr16abpmzzz% z) J    S3 _+ C( ?    A) cEmerson mass flowmeter f300s357ccapmzzz + 1700i12abpmzzz0 Q4 K1 V 'P6] # U0 N7% x Emerson mass flowmeter cmfs015m313n2bzmczz + 1700r11abaezz 1 o%!] 7 a( w    g+ lEmerson mass flowmeter cmfs010m313n2bzmczz + 1700r11abaezzz. f0 V9 Z5 g( Q   ] 0 K Emerson mass flowmeter k100s328nzti16fbpmazzz% y-z1_ k0 u! L. G0 e! lEmerson mass flowmeter cmfs150m341n2bmkzztg + 1700r12abpmzzz # j + h3u; ^! X5 REmerson mass flowmeter cmfs010m314n2bamcz + 1700r11abamzz6 o% Y5 ~ 9 t / XEmerson mass flowmeter cmf350m435n2bzezzz + 1700r12abfezz1 Y7 F. Z9 D: X! x3 nEmerson mass flowmeter f200h549ccaamz1zz + 2700i11abamzzz' @    C # Y - V8 s / y Emerson mass flowmeter cmf010m300nafzezzz + 1700r11dfzezz2 C% K1 V4 x2 I    K' [4 J# ]: |' SEmerson mass flowmeter cmf100m306nrammzzz# j,T; J2 ^) s (y $h) Emerson mass flowmeter cng050s290naezzz + 1700r12aezzzz5 F' p) w    F. _) R- ?$ ~ Emerson mass flowmeter f200s418crazmzz + 1700c12abmezz# H    P4 o'u #] * J Emerson mass flowmeter cmf300a371nrapmzzz + 1700c15abpmzpk)Q) [% E9 V (T & H Emerson mass flowmeter cmfs007m323n6bzmczz)Y8 F% Z: M7 n & t0 s' M1 Q Emerson mass flowmeter f100s131ccazmzzz' J" a+ B8 Y3 N3 y+ c7 F    G * J Emerson mass flowmeter f100s131ccazmzz / 1700i12abfmzz2 Q; J2 t( L( i6 P8 vEmerson mass flowmeter cmfs040m176n2bpmkzz + 1700r18abpmzzz! U, w+ k* }; G) XEmerson mass flowmeter f100s131ccaamzzz + 1700i12abamzzz + y; q9 t2 S, @. m, R    TEmerson mass flowmeter f050s116ccaamzzz + 1700i12abamzzz/^: B% X # I) g & i5 r Emerson mass flowmeter r050s113nvbamzzz + 1700r12abamzzz "P1} 5Z   |; s+ xEmerson mass flowmeter r050s113ncazezzz + 1700i11abzezzz+ _- G$ p1 C3 l,k. H & t0 F7 W3 m Emerson mass flowmeter cmf050m178nqemezzz + 1700r11emezzz. V    t" q5 j8 b4 a+ ?! _ 3 mEmerson mass flowmeter cmf350m436n2b6mzzz + 5700r15abfazzzatgmv2_ q* X/ s8 @/ B0 ^, J2 L/ X7 ]Emerson mass flowmeter cng050s239ncazezzz + 1700i11aezzzz # @ 3 a $k    n0 m7 z2 M$ AEmerson mass flowmeter 2700r12aefmzz6 w#h0 G1 C0 n   [ 4 Z' f# c) `Emerson mass flowmeter cmf400m452nrapmzzz / 1700c12abpmzpk5 L5c; j# U4 ^& A$ ^/ q/ I: u% M/ y6 _ 1 a# Z! c# }.
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