Baxi Potterton Flushing the pipework, Filling the pipework, Filling pump Filter Solar fluid

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Fig. 1

Fig. 2

Fig. 3

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3

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1

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7

Filling pump

Filter

 

Solar fluid

Solar fluid

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3

2

1.0Commissioning of system

1.2Flushing the pipework

Before the system is commissioned the pipework must be flushed to remove any contaminants. It is recommended that this is done using the solar heat transfer fluid as it will be impossible to fully drain all parts of the system.

Connect the flushing pipes to the fill & drain valve on the safety group (Fig. 1 Item 1) and to the fill & drain valve on the flow meter (Fig. 1 Item 2).

Open the fill & drain valves.

Turn the slot of the adjusting screw (Fig. 1 Item 3) in the return so the slot is vertical to open the non-return valve.

Turn the left hand isolating valve with integral thermometer in the flow (Fig. 1 Item 4) in the direction indicated by the arrow (to a 45° position) to open the non-return valve.

Ensure that the right hand isolating valve with integral thermometer in the return (Fig. 1 Item 5) is open indicated by the dot on the thermometer bezel being at the top.

Turn the slot of the adjusting screw of the flow meter (Fig. 1 Item 6) in the return vertically to open the flow limiter (Fig. 1 Item 7).

Flush the solar primary pump by pumping the fluid into the system via the fill and drain valve on the safety group. Close right hand isolating valve (dot on thermometer bezel at 9 o’clock position). Flush solar primary pipework and panels via the fill and drain valve on the safety group.

If reusingflushed fluid ensurethis is filteredbeforere- introducingintothe system(see Fig.2).

1.3Filling the pipework

Close the fill and drain valve (Fig. 3 Item 2) on the flow meter. Open the righthand isolating valve (Fig. 3. Item 1) with integral thermometer by turning so that the dot on the bezel is at the top. Fill the solar primary system by pumping in fluid until the system pressure reads 1.5 to 2.0 bar. Close the fill and drain valve (Fig. 3. Item 3) on the safety group.

4 Potterton Solar - Solar Thermal Domestic Hot Water System

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Contents Commissioning, Maintenance & Servicing Guide Index IndexPotterton Solar Solar Thermal Domestic Hot Water System Commissioning of system Commissioning GeneralFilling the pipework Flushing the pipeworkFilling pump Filter Solar fluid Setting the system pressure Check pressure in the solar primaryPipework Ensure the solar primary system is freeChecking and adjusting the flow rate Installation of the thermal insulationCommissioning of hydraulic station ApproxCommissioning of solar controller Overview of display and operating elements see FigNumber Description MaxSolar circulation pump StatusindicationInput value can be either 65C ButtonInstaller or service engineer OperatingmenuInfo Program Manualoperation Basic setting OverviewConstructionof menu structureReset in the following way Choose the value with buttons ResetpossibleMenuInfo States are shownDescription Valuerange Defaults MenuProgrammingMenuManual operation Hours and the automatic regulation is activated againIndication Description = offMenuBasic adjustment Indication Description Value FactorySet-up Parameter/ valueContr ller functions General controlerfunctionsCylinder heatingby solar primarysystem Systems withtwostoragecylinders14Thermostat heating Rotational speedregulation15Thermostat cooling 17Tubecollector 16TemperaturedifferencecontrolSensor monitoring Collector protection / Re-cooling Flow monitoringSystemprotection function Frost protection Pump is 5 minutesEnergyproductivity measurement OperatinghoursmeterSolarDifferentialTemperatureController General CommissioningHydraulic Station Solar Collector PanelsServicing and maintenance record DateCheck condition of all pipework Bar Check solar primary system flow rateMaintenance CylinderRefer to manufacturers documentation Solar fluid concentrationsFault finding Solar differential temperature controller and will beWhen the system runs if visible Suggested measures to rectifyResistance table PT1000 YESPump symbol on controller rotates But pump does not operate Spares Spare parts Description CodeNoWarranty Standard Warranty Terms & ConditionsWhat you need to do if youexperiencea problemwith When callingheateamyoumusthavethe followingWarranty Potterton We are closed Christmas Day and New Years Day

Solar specifications

Baxi Potterton Solar systems are designed to harness solar energy, transforming how we approach domestic heating and hot water. As one of the leading brands in renewable energy solutions, Baxi Potterton has integrated innovative technologies to offer efficient, eco-friendly products that meet modern energy needs.

One of the standout features of the Baxi Potterton Solar system is its ability to generate hot water using solar energy. The system employs solar thermal panels, which are ideally mounted on roofs, to capture sunlight and convert it into heat. This heat is then transferred to a water storage tank, providing households with an abundant supply of hot water for everyday use, significantly reducing reliance on traditional energy sources.

The technologies used in the Baxi Potterton Solar systems include advanced solar collectors, which are designed for maximum efficiency and performance. These collectors incorporate high-performance glazing and advanced insulation techniques, ensuring optimum temperature retention and minimal energy loss. The use of copper piping enhances thermal conductivity, allowing for rapid heat exchange, which is crucial for effective hot water production.

In addition to solar thermal systems, Baxi Potterton also emphasizes compatibility with existing heating solutions, such as combi-boilers and system boilers. This versatility means that homeowners can easily integrate solar technology into their current setups, enabling them to take full advantage of renewable energy without the need for substantial system overhauls.

Another significant characteristic of Baxi Potterton Solar solutions is their ease of installation and maintenance. The systems are designed with user-friendliness in mind, allowing for quick setup by qualified professionals. Moreover, regular maintenance is straightforward, ensuring the longevity of the system and reliability in performance.

Baxi Potterton is also committed to sustainability. By utilizing solar energy, the systems contribute to reducing carbon footprints and lower energy bills for consumers. The use of renewable energy aligns with global efforts to tackle climate change and promote energy efficiency.

In conclusion, Baxi Potterton Solar systems represent a shift towards greener energy solutions that cater to modern households' needs. With their innovative technology, compatibility with existing systems, and commitment to sustainability, these solar solutions offer an effective means to harness solar power for domestic heating and hot water, paving the way for a more sustainable future.
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