Pressure Cells – Pressure Tanks – Accumulators
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BIA-BPT-8-811170
8L Capacity / Pressure Tank / Accumulator In domestic water systems that use an accumulator tank, the air pressure setting inside the tank should typically be set to approximately 66% (or two-thirds) of the system’s working water pressure — usually based on the pump’s maximum pressure capability. For example, if the pump can deliver 45m of head (about 450kPa), the accumulator should be precharged to around 30m (or 300kPa) when the system is depressurized. This ensures the tank stores an optimal volume of water and helps maintain steady pressure while minimizing pump cycling. |
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BIA-BPT-18-811171
18L Capacity / Pressure Tank / Accumulator In domestic water systems that use an accumulator tank, the air pressure setting inside the tank should typically be set to approximately 66% (or two-thirds) of the system’s working water pressure — usually based on the pump’s maximum pressure capability. For example, if the pump can deliver 45m of head (about 450kPa), the accumulator should be precharged to around 30m (or 300kPa) when the system is depressurized. This ensures the tank stores an optimal volume of water and helps maintain steady pressure while minimizing pump cycling. |
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BIA-BPT-24-811172
24L Capacity / Pressure Tank / Accumulator In domestic water systems that use an accumulator tank, the air pressure setting inside the tank should typically be set to approximately 66% (or two-thirds) of the system’s working water pressure — usually based on the pump’s maximum pressure capability. For example, if the pump can deliver 45m of head (about 450kPa), the accumulator should be precharged to around 30m (or 300kPa) when the system is depressurized. This ensures the tank stores an optimal volume of water and helps maintain steady pressure while minimizing pump cycling. |
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BIA-BPT-24H-811180
24L Capacity / Pressure Tank / Accumulator In domestic water systems that use an accumulator tank, the air pressure setting inside the tank should typically be set to approximately 66% (or two-thirds) of the system’s working water pressure — usually based on the pump’s maximum pressure capability. For example, if the pump can deliver 45m of head (about 450kPa), the accumulator should be precharged to around 30m (or 300kPa) when the system is depressurized. This ensures the tank stores an optimal volume of water and helps maintain steady pressure while minimizing pump cycling. |
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BIA-BPT-60L-25BAR-813093
60L Capacity / Pressure Tank / Accumulator In domestic water systems that use an accumulator tank, the air pressure setting inside the tank should typically be set to approximately 66% (or two-thirds) of the system’s working water pressure — usually based on the pump’s maximum pressure capability. For example, if the pump can deliver 45m of head (about 450kPa), the accumulator should be precharged to around 30m (or 300kPa) when the system is depressurized. This ensures the tank stores an optimal volume of water and helps maintain steady pressure while minimizing pump cycling. |
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BIA-BIA BPT-60H-811181
60L Capacity / Pressure Tank / Accumulator In domestic water systems that use an accumulator tank, the air pressure setting inside the tank should typically be set to approximately 66% (or two-thirds) of the system’s working water pressure — usually based on the pump’s maximum pressure capability. For example, if the pump can deliver 45m of head (about 450kPa), the accumulator should be precharged to around 30m (or 300kPa) when the system is depressurized. This ensures the tank stores an optimal volume of water and helps maintain steady pressure while minimizing pump cycling. |
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BIA-BPT-100-811175
100L Capacity / Pressure Tank / Accumulator In domestic water systems that use an accumulator tank, the air pressure setting inside the tank should typically be set to approximately 66% (or two-thirds) of the system’s working water pressure — usually based on the pump’s maximum pressure capability. For example, if the pump can deliver 45m of head (about 450kPa), the accumulator should be precharged to around 30m (or 300kPa) when the system is depressurized. This ensures the tank stores an optimal volume of water and helps maintain steady pressure while minimizing pump cycling. |