Process Pump Dynamic viscosity [m2/s] Viscosity [Pas] Density [kg/m3] Viscosity and dynamic viscosity are obtained by the formulas below. Dynamic viscosity [cSt] Viscosity [mPas] Density [g/cm3] 1 [mPas1 [cP] 14 Working Principle 1. When air is supplied to P1 port, it enters drive chamber A. 2. Diaphragm A moves to the left, and at the same time diaphragm B also moves to the left. 3.
Dynamic viscosity [m2/s] Viscosity [Pas] Density [kg/m3] Formulas below can be used for common units 1cP = 1mPas = 10-3Pas 1cSt = 1mm2/s = 10-6m2/s 13 Working Principle 1. When air is supplied, it passes through the switching valve and enters drive chamber B. 2.
Dynamic viscosity [m2/s] Viscosity [Pas] Density [kg/m3] Formulas below can be used for common units 1cP = 1mPas = 10-3Pas 1cSt = 1mm2/s = 10-6m2/s 14 Working Principle 1. When air is supplied to P1 port, it enters drive chamber A. 2. Diaphragm A moves to the left, and at the same time diaphragm B also moves to the left. 3.
Dynamic viscosity [m2/s] Viscosity [Pas] Density [kg/m3] Formulas below can be used for common units 1cP = 1mPas = 10-3Pas 1cSt = 1mm2/s = 10-6m2/s Pulsation Attenuating Capacity The process pump generates pulsation because it discharges a liquid using two diaphragms.
Table 3-1 Amount of radiation and required ventilation Required ventilation amount m3/min Heat Differential temp. of 3 oC Differential temp. of 6 oC Radiated Model between inside and outside between inside and outside kW of installation area of installation area HRS012-AApprox. 2 40 20 HRS018-AApprox. 4 70 40 HRS024-A-20 Approx. 5 90 50 The water-refrigerated thermo-cooler discharges heat
Table 3-1 Amount of radiation and required ventilation Required ventilation amount m3/min Differential temp. of 3 oC Differential temp. of 6 oC Heat Radiated between inside and between inside and Model kW outside of installation outside of installation area area HRS018-A-20--R Approx. 4 70 40 HRS030-A -20--R Approx. 6 100 60 3.2 Installation HRS-R Series 3-6 HRX-OM-W058 Chapter 3 Transport
Table 3-1 Amount of radiation and required ventilation Required ventilation amount m3/min Differential temp. of 3 oC Differential temp. of 6 oC Heat Radiated between inside and between inside and Model kW outside of installation outside of installation area area HRS050-A-20--R Approx. 10 140 70 3.2 Installation HRS-R Series 3-6 HRX-OM-X027 Chapter 3 Transport and Setting Up 3.2.3 Installation
Table 3-1 Amount of radiation and required ventilation Required ventilation amount m3/min Heat Differential temp. of 3 oC Differential temp. of 6 oC Radiated Model between inside and outside between inside and outside kW of installation area of installation area HRS030-A-20 Approx. 6 100 60 The water-refrigerated thermo-cooler discharges heat by using facility water.
Table 3-1 Amount of radiation and required ventilation Required ventilation amount m3/min Differential temp. of 3 oC Heat Differential temp. of 6 oC Radiated between inside and Model between inside and outside kW outside of installation of installation area area HRS040-A-20 Approx.8 120 70 The water-refrigerated thermo-cooler discharges heat by using facility water.
Table 3-1 Amount of radiation and required ventilation Required ventilation amount m3/min Differential temp. of 3 oC Heat Differential temp. of 6 oC Radiated between inside and Model between inside and outside kW outside of installation of installation area area HRS050-A-20 Approx.10 140 70 The water-refrigerated thermo-cooler discharges heat by using facility water.
Table 3-1 Amount of radiation and required ventilation Required ventilation amount m3/min Differential temp. of 3 oC Heat Differential temp. of 6 oC Radiated between inside and Model between inside and outside kW outside of installation of installation area area HRS060-A-20 Approx.12 200 100 The water-refrigerated thermo-cooler discharges heat by using facility water.
Table 3.2-1 Amount of radiation and required ventilation Required ventilation amount (m3/min) Heat Differential temp. of Differential temp. of Model radiation 3 oC between inside and 6 oC between inside and (kW) outside of installation outside of installation area area HRS400-A-46Approx.52 865 435 Installation environment specifications Sound noise: HRS400-A-46 : 71 dB(A) Front 1m, height
Table 3.2-1 Amount of radiation and required ventilation Required ventilation amount (m3/min) Heat Differential temp. of Differential temp. of Model radiation 3 oC between inside and 6 oC between inside and (kW) outside of installation outside of installation area area HRL100-A-20 Approx.18 305 155 HRL200-A-20 Approx.35 590 295 HRL300-A-20 Approx.45 760 380 Installation environment specifications
Table 3.2-1 Amount of radiation and required ventilation Required ventilation amount (m3/min) Heat Differential temp. of Differential temp. of Model radiation 3 oC between inside and 6 oC between inside and (kW) outside of installation outside of installation area area HRL100-A-20 Approx.18 305 155 HRL200-A-20 Approx.35 590 295 HRL300-A-20 Approx.45 760 380 Installation environment specifications
Table 3.2-1 Amount of radiation and required ventilation Required ventilation amount (m3/min) Heat Differential temp. of Differential temp. of Model radiation 3 oC between inside and 6 oC between inside and (kW) outside of installation outside of installation area area HRL100-A-40 Approx.18 305 155 HRL200-A-40 Approx.35 590 295 HRL300-A-40 Approx.45 760 380 3.2 Installation HRL Series 3-6
Table 3-1 Amount of heat radiation and required ventilation Required amount of ventilation [m3/min] Model No.
Table 3-1 Amount of radiation and required ventilation Required ventilation amount (m3/min) Heat Differential temp. of 3 C between inside Differential temp. of 6 C between inside radiation Model (kW) and outside of and outside of installation area installation area HRR010-A-10/20Approx.2 40 20 3.2 Installation HRR Series 3-4 HRX-OM-X084 Chapter 3 Transport and Setting Up The water cooled
Table 3-1 Amount of radiation and required ventilation Required ventilation amount (m3/min) Heat Differential temp. of 3 C between inside Differential temp. of 6 C between inside radiation Model (kW) and outside of and outside of installation area installation area HRR012-A-10/20Approx.2 40 20 HRR018-A-10/20Approx.4 70 40 HRR024-A-10/20Approx.5 90 50 HRR030-A-10/20Approx.6 100 60 3.2 Installation
Table 3-1 Amount of radiation and required ventilation Required ventilation amount (m3/min) Heat Differential temp. of 3 C between inside Differential temp. of 6 C between inside radiation Model (kW) and outside of and outside of installation area installation area HRR050-A-20/40Approx.10 140 70 3.2 Installation HRR Series 3-4 HRX-OM-X071 Chapter 3 Transport and Setting Up The water cooled
HRS090 Series 2.1 Precautions for communication 2-1 HRX-OM-T004 Chapter 2 Contact input/output communication 2.2 Communication specification Table 2.2-1 DIO Communication specification Item Specification Connector type M3 terminal block Contact input Insulation method Photo coupler signal Rated input voltage DC24V Input voltage range DC 21.6V to 26.4V Rated input current 5mA TYP Input impedance