Log Sheet Chiller (Shift Sore)
The Log Sheet Chiller (Shift Sore) procedure helps optimize chiller performance by tracking critical parameters like temperatures, pressures, and flow rates. It ensures early detection of issues, reduces downtime, and supports energy efficiency.
MX Regent Canggu
11/29/2024
Log Sheet Chiller (Shift Sore)
The Log Sheet Chiller (Shift Sore) procedure helps optimize chiller performance by tracking critical parameters like temperatures, pressures, and flow rates. It ensures early detection of issues, reduces downtime, and supports energy efficiency.
Jam 17:30
Chiller No.
Vane opening (%)
2nd vane opening (%)
High EXV opening (%)
Low EXV opening (%)
HGBP valve opening (%)
Voltage (V)
Motor current (A)
Power Input (kW)
Oil tank temperature (℃)
Oil pressure (MPa)
Oil level (%)
Oil cooling temp (℃)
Evaporator pressure (MPa)
Evaporator Saturated temp (℃)
CHW Entering temp (℃)
CHW Leaving temp (℃)
CHW Differential temp (℃)
CHW inlet pressure (kgf/cm2)
CHW outlet pressure (kgf/cm2)
CHW Differential pressure (kPa)
CHW flow rate (m³/h)
Cooling capacity (kW)
Condenser pressure (MPa)
Condenser Saturated temp (℃)
CW Entering temp (℃)
CW Leaving temp (℃)
CW Differential temp (℃)
CW inlet pressure (kgf/cm2)
CW outlet pressure (kgf/cm2)
CW Differential pressure (kPa)
CW flow rate (m³/h)
Heat capacity (kW)
Economizer pressure (MPa)
Econ Saturate temperature (℃)
COP
Heat balance
Inverter Fin Temp (℃)
CHWP running no.
CHWP freq (Hz)
CWP running no.
CWP freq (Hz)
Cooling Tower running no.
Cooling tower freq (Hz)
Jam 21:30
Chiller No.
Vane opening (%)
2nd vane opening (%)
High EXV opening (%)
Low EXV opening (%)
HGBP valve opening (%)
Voltage (V)
Motor current (A)
Power Input (kW)
Oil tank temperature (℃)
Oil pressure (MPa)
Oil level (%)
Oil cooling temp (℃)
Evaporator pressure (MPa)
Evaporator Saturated temp (℃)
CHW Entering temp (℃)
CHW Leaving temp (℃)
CHW Differential temp (℃)
CHW inlet pressure (kgf/cm2)
CHW outlet pressure (kgf/cm2)
CHW Differential pressure (kPa)
CHW flow rate (m³/h)
Cooling capacity (kW)
Condenser pressure (MPa)
Condenser Saturated temp (℃)
CW Entering temp (℃)
CW Leaving temp (℃)
CW Differential temp (℃)
CW inlet pressure (kgf/cm2)
CW outlet pressure (kgf/cm2)
CW Differential pressure (kPa)
CW flow rate (m³/h)
Heat capacity (kW)
Economizer pressure (MPa)
Econ Saturate temperature (℃)
COP
Heat balance
Inverter Fin Temp (℃)
CHWP running no.
CHWP freq (Hz)
CWP running no.
CWP freq (Hz)
Cooling Tower running no.
Cooling tower freq (Hz)
Source: MX Regent Canggu (Community Member)