energy saving effect Q = qm x C x (T2 T1) x qv x C x iT 60 1 x 70 x 4.186 x 103 x 4.0 60 = = qm x C x (T2 T1) 860 Q = = 19535 [J/s] 19535 [W] = 19.5 [kW] x qv x 60 x C x iT 860 = Cooling capacity = Considering a safety factor of 20%, 19.5 [kW] x 1.2 = 23.4 [kW] 1 x 70 x 60 x 1.0 x 103 x 4.0 860 = Thermo-chiller T1: Outlet temperature Q: Heat generation amount 1680 [cal/h] 860 Users equipment = T = T2 T1
Q = qm x C x (T2 T1) x qv x C x iT 60 1 x 35 x 4.186 x 103 x 3.0 60 = = qm x C x (T2 T1) 860 Q = = 7325 [J/s] 7325 [W] = 7.3 [kW] x qv x 60 x C x iT 860 = Cooling capacity = Considering a safety factor of 20%, 7.3 [kW] x 1.2 = 8.8 [kW] 1 x 35 x 60 x 1.0 x 103 x 3.0 860 = Q: Heat generation amount T1: Outlet temperature Thermo-chiller Users equipment 7325 [W] = 7.3 [kW] T = T2 T1 Cooling
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 60
Determine the mean suction flow: Q r = v x 6 o T1 9 9 0 . s : s : : P o o . g u o.z T 2 = 3 1 o 1 mean suction flow required from ejector (N/min), 0.1 0.2 0.3 0.5 0.7 1 2 3 | 5 7 10 20 30 50 70 100 O T1 i(sec) o1 adsorption response time to 63% to P, (sec), T1 adsorption response time to 95% of P" (sec), T2 1 l lncnnica System Specif ication (continued) 2.
Silent interval is indicated by T1-T2-T3-T4. Table 3.8-2 RTU mode message frame a)Start b)Slave Address c)Function d)Data e) Checksum (CRC) f)End T1-T2-T3-T4 XX XX XX XX XX XX T1-T2-T3-T4 a) Start In Modbus RTU mode, message frames are separated by a silent interval (non-communication time).
Silent interval is indicated by T1-T2-T3-T4. Table 3.8-2 RTU mode message frame Address c)Function d)Data e)Checksum a)Start b)Device (CRC) f)End T1-T2-T3-T4 XX XX XX XX XX XX T1-T2-T3-T4 a) Start In Modbus RTU mode, message frames are separated by a silent interval (noncommunication time).
Name Alarm flag 1 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Name Alarm flag 2 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Name Alarm flag 3 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Name Alarm flag 4 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Name Alarm flag 5 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Bit Name Explanation 0 Low tank fluid level 1 CH1 abnormal high circulating fluid temp. 2 Reservation
62 17 50 14 19 L UT Weight (g) Bore size (mm) RS W T1 T2 V Part no.
14 15 14 14 17 16 18 D-Y59/Y69 D-Y7P/Y7V D-Y7W/Y7WV 8 7 5.5 6.5 6.5 Since this is a guideline including hysteresis, not meant to be guaranteed.
14 1/4 14 14 1/4 63 102 13 13 162 14 14 1/4 14 14 1/4 80 122 196 20 20 3/8 17.5 17.5 3/8 100 122 196 20 20 1/2 17.5 17.5 1/2 Female Rod End (mm) Bore size A1 H MM ZZ 20 8 13 M4 x 0.7 92 25 8 14 M5 x 0.8 93 32 12 14 M6 x 1 95 40 13 15 M8 x 1.25 104 50 18 16 M10 x 1.5 120 63 18 16 M10 x 1.5 120 80 21 19 M14 x 1.5 144 100 25 22 M16 x 1.5 147 D* When female thread is used, use a washer etc
62 17 50 14 19 L UT Weight (g) Bore size (mm) RS W T1 T2 V Part no.
18 Interface cable 7 9 8 Power cable 14 Power cable b View b View a a Wiring Signal description Cable description Color Pin no.
-02 Performance/Specifications General specifications LC5-1-T1-02 Part no.
JXC-OMT0030CN GWProfibus / LEC-GPR1 1 . 4 2 . 6 21 . 6 22 . 6 23 . 7 24 () . 8 1 . 8 2 . 8 3LEC . 8 4 . 8 5 . 8 6 . 9 7 . 9 3 . 10 31 . 10 32 . 12 33 . 13 1LECGPR1 . 13 2DIN LECGPR1D . 13 34 . 14 1 . 14 2 . 14 4 . 15 41 ADDRESS,B RATE . 15 42 CN2SW . 16 43 LEC . 17 44 SIEMENS PLC S7 . 19 5 . 21 51 CN4: . 21 52 CN3: . 21 53 CN1:CONT . 21 54 CN2:PC/TB . 22 1 - 6CN . 23 61 . 23
Please contact SMC for details. 14 XLG Series Specifications Model XLG-16-2 XLG-25-2 XLG-40-2 XLG-50-2 XLG-63-2 XLG-80-2 Valve type Double acting (Dual operation), Pressurize to open/close Fluid Inert gas under vacuum Operating temperature [C] XLG 5 to 60 (High-temperature type: 5 to 150) Operating pressure [Pa(abs)] Atmospheric pressure to 1 x 105 Conductance [L/s]*1 5 14 45 80 160 200 Leakage
Q = qm x C x (T2 T1) x qv x C x iT 60 1 x 35 x 4.186 x 103 x 3.0 60 = = qm x C x (T2 T1) 860 Q = = 7325 [J/s] 7325 [W] = 7.3 [kW] x qv x 60 x C x iT 860 = Cooling capacity = Considering a safety factor of 20%, 7.3 [kW] x 1.2 = 8.8 [kW] 1 x 35 x 60 x 1.0 x 103 x 3.0 860 = Q: Heat generation amount T1: Outlet temperature Thermo-chiller Users equipment T = T2 T1 7325 [W] = 7.3 [kW] Cooling
NBR JIS B 2401.P12 q Seal 10 x t1 Fluororesin NBR Fluororesin Nylon Fluororesin Fluororesin (Antistatic specifications) Nylon Fluororesin Nylon Fluororesin 101 x t2 98 x t5 w Gasket e Seal Note 3) 23 x t1 r Seal 10 x t1 t Seal 20 x t1 Note 1) The quantity used for 1 filter is 1 each for the following seals, gaskets and O-rings.
K ( across flats) YB-03 32, 40 11.5 depth 7.5 34 9 25 7 12 H (With locking) YB-05 50, 63 14.5 depth 8.5 42 11 32 9 12 YB-08 80 18 depth 12 52 13 38 11 16 d1 d2 YB-10 100 21 depth 14 62 17 50 14 19 L UT Weight (g) Bore size (mm) RS W T1 T2 V Part no. C UA Material: Chrome molybdenum steel (Nickel plated) YB-03 32, 40 9 50 80 18 6.5 10 Part no.
x 1.5 M14 x 1.5 22 22 42 14 30 12 14 16 30 12 14 36 41.6 Y-G04 10 18 32, 40 42 0.3 0.5 +0.5 +0.3 +0.070 0 14 IY-G05 22 50, 63 I-G05 M18 x 1.5 M18 x 1.5 28 28 56 18 40 16 20 20 40 16 20 44 50.6 Y-G05 14 22 50, 63 56 0.3 0.5 +0.5 +0.3 18 IY-G08 28 80 I-G08 M22 x 1.5 M22 x 1.5 38 38 71 21 50 21 27 23 50 21 27 56 64 +0.070 0 Y-G08 18 28 80 71 +0.5 +0.3 0.3 0.5 +0.084 0 +0.084 0 22 IY-G10 32
: NPTF 1/8 01: R 1/8 T1: NPTF 1/8 IF Data 16-6-13