Difference between revisions of "Putney Plaza"

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==Wiring==
==Wiring==


<gallery widths="400" heights="400">
<gallery widths="400" heights="260">
File:Pp4.jpg|Roof top heat pumps
File:Ppsetup3.PNG|The boiler controller initially has four NTC sensors attached.  We use the Wiring Editor to create the wiring diagram to match the installation.
File:Pp5.jpg|Roof top heat pumps
File:Ppsetup4.png|In the wiring editor we give each sensor a Device (boilers) and a Key (tF, tR, tIn & tOut).  The NTC charts are already loaded into the symbol used in the wiring diagram.
File:Pp6.jpg|Unwired circulating pump to heat pump
File:Ppsetup6.PNG|The wiring diagram is processed and the JSON output is copied to the clipboard.
File:Pp7.jpg|Heat pump control panel
File:Ppsetup1.PNG|The JSON configuration is pasted into the controller's Node-RED and the flow is deployed.
File:Ppsetup5.PNG|Moments later, data can be seen coming through to the clients online server. 
</gallery>
</gallery>



Revision as of 14:00, 26 September 2022

To Do:

  • Investigate current state of heat pumps and CHP
  • Install heat meters and controls
  • Confirm current operation
  • Recommission
  • Remote dashboards

Existing Documentation

Measuring Boiler Outputs

A Micronics Clamp-On Heat Meter has been temporarily installed onto boilers in order to confirm the peak outputs of each boiler.

U1000MKII_WM_Issue_1.1


Air Source Heat Pumps

An initial survey of the roof top heat pump systems has highlighted some significant problems.

  • No way to understand current operation, without any feed into a monitoring (SCADA) system.
  • No alarming
  • No performance monitoring
  • At least one of the main circulating pumps to the heat pumps has never been wired up, making operation of the heat pump impossible since installation.

Next Steps

  1. Obtain all relevant manufacturers instructions on heat pumps and fitted controls
  2. Upgrade controls with open control system and remote monitoring so that the heat pumps can be setup and controlled as required
  3. Recommission heat pumps using new system
  4. Monitor performance and setup alarm routes


September - October 2022 Plan

  • Get internet to panel
  • Confirm readings from 4 new boiler sensors
  • Add sensors to CHP (flow / return)
  • Install new MQTT services into cloud server using Docker (data send directly to server)
  • Update cloud server dashboard and wiki with new data
  • Regain control over boiler valves from new panel.
  • Update controller in tank room for buffer/boiler control, and replace buffer sensors. This will provide renewed monitoring and control over the boiler circuits.
  • Update sensors in each buffer tank Rewire boiler demand switch
  • Fit a control panel on one of the roof tops, a well as a board inside the existing control panel. The new panel will be used to collect data and establish permanent requirements that will then be implemented via existing panel. We need to better understand what the existing panels wire to, then rewire sensors and outputs to the new controller to reinstate operation.
  • Once one heat pump is working and visible, the others can be addressed.
  • Reinstate heat meter when boilers ready for a workout
  • Fully commission boilers and valves  
  • Update boiler pump to a Magna3D for variable speed control.

Wiring


heatweb_putney_zcc1.json Boiler Controller


[{"portId":"TH4","block":"TH4","channel":"4","name":"TH1 Signal","figure":"Input","portColor":"#00ff00","wiredTo":"ntcr4","wiredToPort":"temperature","signalType":"NTC10K","topicDevice":"boilers","topicKey":"tF","mapUnits":"kΩ to °C","map":"[[97.006,-20],[72.911,-15],[72.911,-10],[42.317,-5],[32.651,0],[25.395,5],[19.903,10],[15.714,15],[12.493,20],[10,25],[8.056,30],[6.53,35],[5.325,40],[4.367,45],[3.601,50],[2.985,55],[2.467,60],[2.082,65],[1.752,70],[1.256,80],[0.916,90],[0.678,100],[0.51,110],[0.388,120]]"},{"portId":"TH3","block":"TH3","channel":"3","name":"TH3 Signal","figure":"Input","portColor":"#00ff00","wiredTo":"ntcr3","wiredToPort":"temperature","signalType":"NTC10K","topicDevice":"boilers","topicKey":"tR","mapUnits":"kΩ to °C","map":"[[97.006,-20],[72.911,-15],[72.911,-10],[42.317,-5],[32.651,0],[25.395,5],[19.903,10],[15.714,15],[12.493,20],[10,25],[8.056,30],[6.53,35],[5.325,40],[4.367,45],[3.601,50],[2.985,55],[2.467,60],[2.082,65],[1.752,70],[1.256,80],[0.916,90],[0.678,100],[0.51,110],[0.388,120]]"},{"portId":"TH2","block":"TH2","channel":"2","name":"TH2 Signal","figure":"Input","portColor":"#00ff00","wiredTo":"ntcr2","wiredToPort":"temperature","signalType":"NTC10K","topicDevice":"boilers","topicKey":"tOut","mapUnits":"kΩ to °C","map":"[[97.006,-20],[72.911,-15],[72.911,-10],[42.317,-5],[32.651,0],[25.395,5],[19.903,10],[15.714,15],[12.493,20],[10,25],[8.056,30],[6.53,35],[5.325,40],[4.367,45],[3.601,50],[2.985,55],[2.467,60],[2.082,65],[1.752,70],[1.256,80],[0.916,90],[0.678,100],[0.51,110],[0.388,120]]"},{"portId":"TH1","block":"TH1","channel":"1","name":"TH1 Signal","figure":"Input","portColor":"#00ff00","wiredTo":"ntcr","wiredToPort":"temperature","signalType":"NTC10K","topicDevice":"boilers","topicKey":"tIn","mapUnits":"kΩ to °C","map":"[[97.006,-20],[72.911,-15],[72.911,-10],[42.317,-5],[32.651,0],[25.395,5],[19.903,10],[15.714,15],[12.493,20],[10,25],[8.056,30],[6.53,35],[5.325,40],[4.367,45],[3.601,50],[2.985,55],[2.467,60],[2.082,65],[1.752,70],[1.256,80],[0.916,90],[0.678,100],[0.51,110],[0.388,120]]"}]