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I faced the same issue, I did my design using two separate chillers, (A) one for ice storage and (B) one for cooling during the day/night.

for the indoor units I did the same, an indoor unit system for cooling during the day using the stored iced and one for cooling during the night using the chiller (B) and it could work during the day if not enough iced stored. These two system are two independent loop/system. I used EMS and schedule object to identify which chiller (loop/system) will be ON/OFF during the day/night.

I faced the same issue, I did my design using two separate chillers, (A) one for ice storage and (B) one for cooling during the day/night.

for the indoor units I did the same, an indoor unit system for cooling during the day using the stored iced and one for cooling during the night using the chiller (B) and it could work during the day if not enough iced stored. These two system are two independent loop/system. ( System is not existing in real design but equipment could be selected and designed properly) I used EMS and schedule object to identify which chiller (loop/system) will be ON/OFF during the day/night.

I faced the same issue, I did my design using two separate chillers, (A) one for ice storage and (B) one for cooling during the day/night.

for the indoor units I did the same, an indoor unit system for cooling during the day using the stored iced and one for cooling during the night using the chiller (B) and could work during the day if not enough iced stored. These two system are two independent loop/system. ( System is not existing in real design but equipment could be selected and designed properly) properly)

I used EMS and schedule object to identify which chiller (loop/system) will be ON/OFF during the day/night.

I faced the same issue, I did my design using two separate chillers, (A) one for ice storage and (B) one for cooling during the day/night.

for the indoor units I did the same, an indoor unit system for cooling during the day using the stored iced and one for cooling during the night using the chiller (B) and could work during the day if not enough iced stored. stored ice. These two system are two independent loop/system. ( System is not existing in real design but equipment could be selected and designed properly)

I used EMS and schedule object to identify which chiller (loop/system) will be ON/OFF during the day/night.

I faced the same issue, I did my design using two separate chillers, (A) one for ice storage and (B) one for cooling during the day/night.

for the indoor units I did the same, an indoor unit system for cooling during the day using the stored iced and one for cooling during the night using the chiller (B) and could work during the day if not enough stored ice. These two system systems are two independent loop/system. ( System is not existing in real design but equipment could be selected and designed properly)

I used EMS and schedule object to identify which chiller (loop/system) will be ON/OFF during the day/night.