文件名称:
艾默生(罗斯蒙特) 8600 Utility涡街流量计英文样本.pdf
开发工具:
文件大小: 1mb
下载次数: 0
上传时间: 2019-10-20
详细说明:艾默生(罗斯蒙特) 8600 Utility涡街流量计英文样本pdf,提供艾默生(罗斯蒙特) 8600 Utility涡街流量计英文样本资料下载,资料主要介绍了8600 Utility涡街流量计的性能特点及选型规格参数等。November 2013
Rosemount 8600
Specifications
The following specifications are for the rosemount 8600 except
where noted
Table 1. Minimum Measurable Meter Reynolds
Numbers
Functional Specifications
Meter sizes
Reynolds Number
(Inches /DN)
Limitations
Process fluids
1 through 4/25 through 100
Liquid gas, and steam applications. Fluids must be
6 through 8/150 through
5000 minimum
homogeneous and single-phase
200
Table 2. minimum measurable meter velocities
Line sizes
Feet per Second Meters per Second
Flanged Style
36/
1,1/2,2,3,4,6,and8 inches
Gases
36/p
(DN25,40,50,80,100,150,and200
The p is the process fluid density at flowing conditions in lb/ft
for ft s and kg for m s
le schedules
Process piping Schedules 10, 40, 80, and 160
(1) Velocities are referenced to schedule 40 pipe
Table 3. Maximum measurable meter velocities(1)
Note
(Use the smaller of the two values
The appropriate bore diameter of the process piping must
be entered using the field Communicator or AMS Device
Feet per Second Meters per Second
Manager Meters will be shipped from the factory at the
_0002519400r76
Schedule 40 default value unless otherwise specified
Gases
1900000250
1134,000/or76
The p is the process fluid density at flowing conditions in lb/ft
Measurable flow rates
for ft s and kg m for m/ s
Capable of processing signals from flow applications which meet (1)Velocities are referenced to schedule 40 pipe
the sizing requirements below
To determine the appropriate flowmeter size for an application
Process Temperature limits
process conditions must be within the Reynolds number and
Standard
velocity limitations for the desired line size provided in Table 1
Table 2, and Table 3
58to482F(-50to250°C)
Output Signals
Note
Consult your local sales representative to obtain a
20 mA Digital HART Signal
computer sizing program that describes in greater detail Superimposed on 4-20 mA signal
how to specify the correct flowmeter size for
an application.
Optional scalable pulse output
via HART communications; capable of switching up to 30 oc t
0 to 10000 Hz; transistor switch closure with adjustable scaling
The Reynolds number equation shown below combines the effects
of density(p), viscosity(pco), pipe inside diameter (D), and flow
120 mA maximum
velocity (v)
VD
Analog Output Adjustment
Engineering units and lower and upper range values are
user-selected. Output is automatically scaled to provide 4 mA at
the selected lower range value, 20 mA at the selected upper
range value. No frequency input is required to adjust the range
alue
www.rosemount.com
Rosemount 8600
November 2013
Scalable Frequency Adjustment
Optional LCD Indicator
The scalable pulse output can be set to a specific velocity
The optional LCD indicator is capable of displaying
volume, or mass(i.e. 1 pulse=1 lb The scalable pulse output
can also be scaled to a specific rate of volume, mass, or velocity
■ Primary variable
e.100Hz=500b/hr)
■ Velocity flow
Ambient Temperature Limits
■ Volumetric e|ow
Operating
■ Mass flow
-58to185°F(-50to85C
-4 to 185F(-20 to 85 C)for flowmeters with local indicator Percent of Range
Storage
■ Analog Output
58to250°F(-50to121°c)
■Tota|izer
50 to 185 F(46 to 85 C)for flowmeters with local indicator
Pressure limits
Shedding frequency
Flange Style Meter
Pulse Output Frequency (if applicable)
Rated for ASME B16.5(ANSI)Class 150, 300, EN 1092-1 PN 16 Electronics Temperature
and 40
a Process Temperature(MTA Option Only
Power Supply
a Calculated Process Density (MTA Option Only)
HART Analog
If more than one item is selected, the display will scroll through
External power supply required Flowmeter operates on 10.8 to all items selected
42 Vdc terminal voltage with 250-ohm minimum load required
for HART communications, 16.8 Vdc power supply is required)
Enclosure Rating
Power Consumption
FM Type 4X; IP66
One watt maximum
Permanent pressure loss
Load Limitations(HART Analog
The approximate permanent pressure loss(PPl)from the
Rosemount 8600 flowmeter is calculated for each application in
Maximum loop resistance is determined by the voltage level of the Vortex sizing software available from your local Rosemount
the external power supply, as described by
representative. The Ppl is determined using the equation
1250
A×Dx×O
1000
PPL
D
00s
Operating
Reg
where
PPL- Permanent Pressure loss(psi or kPa)
08
2
Where
Power Supply(volts)
P,=Density at operating conditions(b/ft or kg/m2)
Q=Actual volumetric flow rate( Gas=ft/min or m/hr
Rmax=41.7(Vps-10.8)
Liquid-gal/min or I/min)
Power Supply Voltage( volts)
Rmax= Maximum Loop Resistance(Ohms)
D= Flowmeter bore diameter(in or mm)
A=Constant depending on meter style, fluid type, and
flow units Determined per the following table
Note
HART Communication requires a minimum loop
resistance of 250 ohms
www.rosemount.com
November 2013
Rosemount 8600
amping
Table 4. Determining the pPl
Flow Damping adjustable between 0. 2 and 255 seconds
Meter
English Units
SI Units
Style
Process Temperature Damping adjustable between 0. 4 and 32.0
A
A
A
Liquid
A
Ids( MTA Option Only)
8600534×10519×1050425118
Response Time
Minimum Upstream Pressure(Liquids)
Three vortex shedding cycles or 300 ms, whichever is greater,
Flow metering conditions that would allow cavitation, the
maximum required to reach 63. 2% of actual input with the
release of vapor from a liquid, should be avoided This flow
minimum damping(0. 2 seconds)
condition can be avoided by remaining within the proper flow
range of the meter and by following appropriate system design
Turn-on Time
For some liquid applications, incorporation of a back pressure HART Analog
valve should be considered. To prevent cavitation, the minimum
Less than four (4)seconds plus the response time to rated
upstream pressure should be
accuracy from power up(less than 7 seconds with the mta
P=2.9*AP+1.3*OP=29*△P+p+0.5psa(3.45kPa)
(use the smaller of the two results)
Option
P=Line pressure five pipe diameters downstream of the
Transient protection
meter(psia or kPa abs
AP= Pressure loss across the meter(psi or kPa)
The optional transient terminal block prevents damage to the
Pv=Liquid vapor pressure at operating conditions(psia or flowmeter from transients induced by lightning, welding heavy
kPa abs)
electrical equipment, or switch gears. The transient protection
electronics are located in the terminal block
Failure mode alarm
The transient terminal block meets the following specifications:
HART Analog
IEEE C62.41-2002 Category b
If self-diagnostics detect a gross flowmeter failure, the analog 3 kA crest 8 X 20 us)
signal will be driven to the values below
6 kV crest(1.2×50μs)
LOW
3.75
6 kv/0.5 kA(0.5 us, 100 kHz, ring wave)
H
NAMUR LOW
3.60
Security Lockout
NAMUR High
22.6
When the security lockout jumper is enabled, the electronics
alarm jumper on the electronics. NAMUR-compliant alarm limits outpur allow you to modify parameters that affect flowmeter
are available through the C4 or CN Option. Alarm type is field Output Testing
configurable also
Current source
Saturation Output Values
Flowmeter may be commanded to set the current to a specified
When the operating flow is outside the range points, the analog value between 4 and 20 mA
output continues to track the operating flow until reaching the
saturation value listed below; the output does not exceed the
Frequency Source
listed saturation value regardless of the operating flow. The
Flowmeter may be commanded to set the frequency to a
NAMUR-Compliant Saturation Values are available through the specified value between 0 and 10000 Hz
C4 or Cn option Saturation type is field configurable
3.9
Low flow Cutoff
High
20.8
Adjustable over entire flow range Below selected value, output
NAMURLoW
3.8
is driven to 4 ma and zero pulse output frequency
NAMUR High
20.5
Humidity Limits
Operates in% relative humidity under noncondensing
conditions(tested to IEC 60770, Section 6.2.11)
www.rosemount.com
Rosemount 8600
November 2013
Overrange Capability
HART Analog
Analog signal output continues to 105 percent of span, then
remains constant with increasing flow. The digital and pulse
outputs will continue to indicate tlow up to the upper sensor
limit of the flowmeter and a maximum pulse output frequency
f10400H
Flow Calibration
Meter bodies are flow-calibrated and assigned a unique
libration factor( K-factor)at the factory. The calibration factor
is entered into the electronics, enabling interchangeability of
electronics and or sensors without calculations or compromise
accuracy of the calibrated meter bo
www.rosemount.com
November 2013
Rosemount 8600
Typical flow ranges
Table 5-Table 9 show typical flow ranges for some common process fluids with default filter settings. Consult your local sales
representative to obtain a computer sizing program that describes in greater detail the flow range for an application
Table 5. typical pipe velocity ranges for 8600(1)
Process line size
Liquid velocity Ranges
Gas velocity Ranges
(Inches/DN)
Vortex meter
ft/s)
(ft/s)
(m/s
1/25
8600F010
070t250
0.21to7.6
6.50to250.0
1.98to76.2
1}2/40
8600F015
0.70to25.0
021to7
6.50to250.0
1.98to76.2
2/50
8600F020
0.70to25.0
0.21to7.6
6.50to250.0
198to76.2
3/80
8600F030
0.70to25.0
0.21to76
6.50to250.01.98to76.2
4100
8600F040
0.70to25.0
021t7.6
6.50to250.0
1.98to76.2
6/150
8600F060
0.70to25.0
021t7.66.50to250.0
1.98to76.2
8/200
8600F080
0.70to25.0
0.21to7.6
6.50to250.0
198to76.2
(1)Table 5 is a reference of pipe velocities that can be measured for the standard rosemount 8600. it does not consider density limitations, as described in Table
2 and 3. velocities are referenced in schedule 40 pipe
Table 6. Water flow rate limits for the rosemount 8600(1)
Process line size
Minimum and maximum measurable Water Flow rates
Vortex meter
(Inches/DN)
Gallons/Minute
Cubic Meters/Hour
1/25
8600F010
2.96to67.3
0.67to15.3
2/40
8600F015
4.83to158
1.10to359
2/50
8600F020
7.96to261
1.81to59.4
3/80
8600F030
17.5to576
4.00to130
4/100
8600F040
30.2to992
6.86to225
6/150
8600F060
68.5to2251
15.6to511
8/200
8600F080
119to3898
270to885
Conditions: 77F(25'C)and 14.7 psia(1.01 bar absolute)
(1) Table 6 is a reference of flow rates that can be measured for the standard rosemount 8600. It does not consider density limitations, as described in Table 2 and
Table 7. Air Flow Rate Limits at 59 F(15 C)
minimum and maximum Air flow rates
for line sizes 1-in. /DN 25 through 2-in /DN 50
Flow rate
Process pressure
1-in. DN 25
12-in./DN40
-in DN 50
Limits
Rosemount 8600
Rosemount 8600
Rosemount 8600
ACFM ACMH
ACFM
ACMH
ACFM
ACMH
nax
79.2
134
212
360
349
593
0 psig o bar g)
mIn
9.71
16.5
18.4
31.2
30.3
51.5
79.2
134
212
360
349
50 psig (3, 45 bar G)
max
593
mIn
3.72
6.32
8.76
14.9
14.5
24.6
100 psig (6, 89 bar G)
max
79.2
134
212
360
349
593
mIn
2.80
4.75
6.58
11.2
10.8
18.3
707
134
212
360
349
59
150 psig(10, 3 bar G)
mIn
2.34
3.98
9.36
9.09
15.4
max
79.2
134
212
349
593
200 psig(13, 8 bar G)
360
mIn
2.34
3.98
9.36
9.09
15.4
max
79.2
134
337
326
300 psig (20, 7 bar G)
mIn
2.34
3.98
5.51
9.36
9.09
15.4
124
400 psig (27, 6 bar G)
max
73.0
172
293
284
483
mIn
2.34
3.98
5.51
9.36
9.09
15.4
max
660
154
262
254
432
500psg(34,5bar)
mIn
2.34
3.98
5.51
9.36
9.09
15.4
www.rosemount.com
7
Rosemount 8600
November 2013
Table8, Air flow rate limits at59°F(15°c)
Minimum and maximum Air flow Rates
for line sizes 3-in. DN 80 through 4-in. /DN 100
Process pressure
Flow rate limits
3-in. DN 80
4-n|DN100
Rosemount 8600
Rosemount 8600
ACFM
ACMH
ACFM
ACMH
1308
0 psig(o bar G)
maⅩ
1326
2253
mIn
66.8
114
115
195
50 Psig (3, 45 bar G)
770
1308
1326
2253
mIn
31.8
54.1
54.8
93.2
mdⅩ
770
1308
1326
2253
100 psig (6, 89 bar G)
mIr
23.9
40.6
41.1
698
150 psig(10, 3 bar G
770
1308
1326
2253
mIn
20.0
34.0
34.5
58.6
200 psig(13, 8 bar G)
nax
770
1308
1326
2253
mIn
20.0
34.0
34.5
58.6
300 psig (20, 7 bar G)
max
718
1237
2102
mIn
20.0
34.0
34.5
58.6
max
625
400 psig(27, 6 bar G
1062
1076
1828
mIn
20.0
34.0
34.5
58.6
500 psig (34, 5 bar G)
560
964
1638
mIn
20.0
34.0
34.5
58.6
Table9 Air flow rate limits at59°F(15°c)
Minimum and maximum air flow rates
for line sizes 6-in. /DN 150 through 8-in. /DN 200
Process Pressure
Flow rate limits
6-in. DN 150
8-in. DN 200
Rosemount 8600
Rosemount 8600
ACFM
ACMH
ACFM
ACMH
max
0 psig(0 bar G)
3009
5112
5211
mIn
261
443
452
768
3009
5112
5211
8853
50 psig (3, 45 bar G)
m
124
215
365
max
3009
5112
5211
8853
100 psig(6, 89 bar G)
min
93.3
159
162
276
150 psig(10, 3 bar G)
max
3009
5112
5211
8853
m
78.2
133
135
229
max
3009
5112
5211
8853
200 psig(13, 8 bar G)
78.2
133
229
300 psig(20, 7 bar G)
max
2807
4769
4862
8260
78.2
133
135
229
maⅩ
2442
4149
4228
7183
400 psig(27, 6 bar G)
mIn
133
136
22
500pg(34,5baG
max
2188
3717
3789
6437
78.2
133
136
9
Notes
The rosemount 8600 measures the volumetric flow under operating conditions (i.e. the actual volume at the operating pressure and
temperature-actm or acmh), as shown above. However, gas volumes are strongly dependent on pressure and temperature
Therefore, gas quantities are typically stated in standard or normal conditions (e.g. SCFM or NCMH). ( Standard conditions are
typically 59F and 14.7 psia. Normal conditions are typically 0C and 1 bar abs.
The flow rate limits in standard conditions are found using the equations below:
Standard Flow Rate= Actual Flow Rate X Density Ratio
Density Ratio=Density at Actual(Operating) Conditions /Density at Standard Conditions
8
www.rosemount.com
November 2013
Rosemount 8600
Table 10. Saturated Steam Flow Rate Limits(Assumes Steam Quality is 100%)
Minimum and maximum Saturated Steam flow rates
for line sizes 1-in. DN 25 through 2-in./DN 50
Process Pressure Flow Rate Limits
1-in. /DN 25
12-in. / DN40
2-in. DN 50
Rosemount 8600
Rosemount 8600
Rosemount 8600
Ib/ hr
Ib/ hi
kg hr
Ib/hr
kg hr
15 psig(1,03 bar G)
max
342
155
917
416
151
685
mIn
34.8
158
82.0
37.2
135
61.2
max
449
203
1204
546
25 psig(1, 72 barG)
1983
899
399
18.1
939
42.6
155
70.2
max
711
322
1904
864
3138
1423
50 psig 3, 45 bar G)
mIn
50.1
22.7
118
53.4
88.3
l221
554
1483
2444
100 psig(6, 89 bar G)
3270
5389
DIn
65.7
29.8
70.1
255
116
max
1724
782
4616
2094
7609
150 psig(10,3 bar G)
3451
78.1
354
84
83.2
303
137
max
2225
1009
5956
2702
9818
4453
200 psig(13, 8 bar G)
88.7
40.2
209
94.5
344
156
max
3229
1464
8644
3921
14248
6463
300 psig(20, 7 bar G)
mIn
107
48.5
252
189
max
4244
1925
11362
5154
18727
8494
400 psig(27, 6 bar G)
125
295
134
487
221
2393
500 psig (34, 5 bar G)
max
5277
14126
6407
23284
10561
mIn
156
70.7
367
167
605
274
Table 11. Saturated Steam Flow Rate Limits assumes Steam Quality is 100%)
Minimum and maximum Saturated steam Flow Rates
for line sizes 3-in DN 80 through 4-in. /DN 100
Process Pressure
Flow Rate limits
3-in. /DN 80
4-in. /DN 100
Rosemount 8600
Rosemount 8600
lohr
ag/ht
lb/ hr
g/hr
maⅩ
3330
1510
2601
15 psig(1,03 bar G)
5734
mIn
135
513
233
25 psig (1, 72 bar G)
max
4370
1982
7526
3414
mIn
341
155
587
267
6914
l1905
5400
50 psig 3, 45 bar G)
max
3136
mIn
195
739
335
100pg(6,89barG)
max
11874
5386
20448
9275
mIn
562
55
968
439
150 psig (10, 3 bar G
max
16763
7603
28866
13093
mIn
668
303
1150
522
21630
9811
37247
200 psig(13, 8 bar G)
16895
n
759
344
1307
593
31389
14237
300 psig(20, 7 bar G)
max
54052
24517
n
914
415
1574
714
400 psig(27, 6 bar G)
max
41258
18714
71047
32226
mIn
1073
1847
838
nax
51297
23267
88334
40068
500 psig(34, 5 bar G)
mIn
1334
605
2297
042
www.rosemount.com
Rosemount 8600
November 2013
Table 12. Saturated Steam Flow Rate Limits(assumes Steam Quality is 100%)
Minimum and maximum Saturated steam flow rates
for line sizes 6-in. DN 150 through 8-in. /DN 200
Process
Flow rate
6-in. /DN 150
8-in. /DN 200
Pressure
Limits
Rosemount 8600
Rosemount 8600
Ib/hr
kg/hr
Ib/ hr
kg hr
15 psig
ax
13013
5903
22534
10221
(1,03barG)
1163
528
2015
914
25 psig
max
17080
7747
29575
13415
(1,72barG)
mIn
1333
605
2308
1047
50 psig
max
27019
12255
46787
21222
(3.45 bar G
1676
760
2903
1317
100 psig
max
46405
21049
80356
36449
(6, 89 bar G
mIn
2197
996
3804
1725
150 psig
65611
2976
113440
51455
(10, 3 bar G
mIn
2610
4520
2050
200
max
530
38342
146375
66395
(13,8barG)
nIn
2965
1345
5134
2329
300 psi
max
122666
55640
212411
96348
(20,7barG)
mID
3572
1620
6185
2805
400p59
max
161236
73135
279200
126643
(27,6barG)
NIn
4192
1901
7259
3293
500 psig
max
200468
90931
347134
157457
(34, 5 bar G
mIn
5212
2364
9025
4094
www.rosemount.com
(系统自动生成,下载前可以参看下载内容)
下载文件列表
相关说明
- 本站资源为会员上传分享交流与学习,如有侵犯您的权益,请联系我们删除.
- 本站是交换下载平台,提供交流渠道,下载内容来自于网络,除下载问题外,其它问题请自行百度。
- 本站已设置防盗链,请勿用迅雷、QQ旋风等多线程下载软件下载资源,下载后用WinRAR最新版进行解压.
- 如果您发现内容无法下载,请稍后再次尝试;或者到消费记录里找到下载记录反馈给我们.
- 下载后发现下载的内容跟说明不相乎,请到消费记录里找到下载记录反馈给我们,经确认后退回积分.
- 如下载前有疑问,可以通过点击"提供者"的名字,查看对方的联系方式,联系对方咨询.