Baxi Potterton Solar manual Commissioning of system, Commissioning General

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1.0Commissioning of system

1.1Commissioning - General

The Potterton Solar system uses a sealed system indirect solar primary circuit which must be filled with the solar heat transfer fluid provided. This is pre-diluted to the appropriate strength (40% glycol/60%water) and should not be diluted further. Use only the fluid supplied. Additional canisters of solar fluid are available in 10 litre (5119550) and 20 litre (5119549) bottles.

DO NOTmix the fluid with other types.

The system should be filled when there is no direct radiation from the sun. If direct radiation occurs the collector panels should be shaded by covering them during filling and flushing.

Although the solar heat transfer fluid is non corrosive and biodegradable appropriate precautions should be taken when handling.

-Wear protective gloves and goggles.

-Wash with soap and water if the fluid comes into contact with skin.

-If fluid gets into eyes, immediately rinse with large quantities of clear running water.

-A full safety and specification sheet can be obtained by request.

The solar heat transfer fluid must be pumped into the system.The pump can be electric or manual but must be capable of producing a pressure of at least 2 bar.

The system should be thoroughly flushed to remove any contaminants in the solar primary circuit prior to filling with the heat transfer fluid

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 General Commissioning of systemFlushing the pipework Filling the pipeworkFilling pump Filter Solar fluid Ensure the solar primary system is free Setting the system pressureCheck pressure in the solar primary PipeworkApprox Checking and adjusting the flow rateInstallation of the thermal insulation Commissioning of hydraulic stationMax Commissioning of solar controllerOverview of display and operating elements see Fig Number DescriptionStatusindication Solar circulation pumpInput value can be either Button 65COperatingmenu Installer or service engineerOverviewConstructionof menu structure Info Program Manualoperation Basic settingStates are shown Reset in the following way Choose the value with buttonsResetpossible MenuInfoMenuProgramming Description Valuerange Defaults= off MenuManual operationHours and the automatic regulation is activated again Indication DescriptionParameter/ value MenuBasic adjustmentIndication Description Value Factory Set-upSystems withtwostoragecylinders Contr ller functionsGeneral controlerfunctions Cylinder heatingby solar primarysystemRotational speedregulation 14Thermostat heating15Thermostat cooling 16Temperaturedifferencecontrol 17TubecollectorSensor monitoring Flow monitoring Collector protection / Re-coolingSystemprotection function Operatinghoursmeter Frost protectionPump is 5 minutes Energyproductivity measurementSolar Collector Panels SolarDifferentialTemperatureControllerGeneral Commissioning Hydraulic StationDate Servicing and maintenance recordBar Check solar primary system flow rate Check condition of all pipeworkSolar fluid concentrations MaintenanceCylinder Refer to manufacturers documentationSuggested measures to rectify Fault findingSolar differential temperature controller and will be When the system runs if visibleYES Resistance table PT1000Pump symbol on controller rotates But pump does not operate Spares Description CodeNo Spare partsWhen callingheateamyoumusthavethe following WarrantyStandard Warranty Terms & Conditions What you need to do if youexperiencea problemwithWarranty We are closed Christmas Day and New Years Day Potterton

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.