6kw solar system in nairobi kenya

Types Of 6Kw Solar System In Nairobi Kenya

A 6Kw solar system in Nairobi, Kenya, can generate between 24 and 30 kWh per day, depending on local weather conditions.

This solar power system is ideal for medium-sized house properties for power savings. It can also be combined with a battery storage system for energy independence. Here are the various types available:

Monocrystalline Solar Panels

The mono solar panels are manufactured from a single crystal of silicon. About 1000 cells are created by cut these silicon wafers into thin pieces. These panels are very efficient during the hot weather and tend to occupy less space compared to the rest. Although the panels sit on the more expensive end of the ground, they pay for themselves with efficiency and space savings sooner than later.

Polycrystalline Solar Panels

In contrast to monocrystalline panels, where the silicon used is a single crystal, polycrystalline panels were formed by melting silicon crystals and pouring them into a mold. Because polycrystalline is less energy-dense than monocrystalline, poly panels use more silicon. They are manufactured in larger batches so that the cost will be less compared to monocrystalline.

Flexible Photovoltaic Panels

Thin-film flexible solar panels are made from various materials, like amorphous silicon or CdTe. The material used in making these panels determines the ideal location and condition for installing them. These lightweight panels can be put on roofs with unusual designs. Thin films provide less energy per square foot than crystalline panels and are thus commonly utilized as additional panels to supplement existing systems.

Bifacial Solar Panels

Thanks to advances in technology, solar panels that can generate electricity from both sides, called bifacial solar panels, are now possible. Conventional solar panels only absorb sunlight from the front. However, bifacial designs have clear back sides, allowing them to capture light reflecting off adjacent surfaces as well. This capability essentially doubles their energy production potential under the right conditions.

Industrial Application Of 6Kw Solar System In Nairobi Kenya

• Powering As Many As 15 Homes

  A 6Kw solar system can power a whole average home and still have energy left over to supply others. The excess energy can be fed back into the grid for money or used at night when energy consumption is highest. A 6kW system can also satisfy businesses and farms with low-intermediate electric energy requirements.

• Reducing Energy Costs For An Average-Sized Agricultural Operation

  Around 24% of the energy consumption in agriculture globally is due to pumping water and irrigation. A 6kW solar system can save these expenses by providing cheap energy to switch electric pumps and other equipment. Any excess energy that is not consumed can also be stored in batteries as energy back-up during cloudy days or at night.

• Feeding Excess Electricity Produced During The Day Into The National Grid To Offset Electricity Bills

  The electricity produced daily by a 6Kw solar system exceeds the required daily averages in Nairobi, which is about 4.5 hours. The excess electricity can be fed into the national grid through net metering. The consumer will earn credits for the extra electricity they produce, which will be deducted from their electricity bills when they consume less.

• Providing Electricity To Small Factories, Warehouses, And Workshops

  In regions where electricity supply is unreliable, solar energy systems can be used to provide constant electric energy. These can be utilized for electric machinery, lighting, and other production processes in places like factories, workshops, and warehouses, among others.

• Charging Electric Vehicles

  As electric vehicles become more common, producing one's own electricity for vehicle charging becomes advantageous. A 6kW solar system can partially offset the costs associated with charging electric vehicles, providing around 30 kilometers of driving range per hour of charging. With batteries, the system can offer overnight charging capabilities.

Product Specifications And Features Of 6Kw Solar System In Nairobi Kenya

Technical Specifications

• Solar panels: 360W - 400W monocrystalline or polycrystalline panels.
• Number of panels: 15 - 20 panels, depending on panel wattage and system design.
• Inverter: A 6Kw inverter, either string or micro/inverter configuration.
• Mounting: Roof or ground mounting structure in aluminum or galvanized steel.
• Cables: Solar DC and AC cables, typically 4mm² to 10mm², depending on distance and requirements.
• Combiner box (optional)
• Safety equipment: DC isolators, circuit breakers, surge protectors, and/or fuses.
• Commissioning and testing.

How To Install

• In-house Survey: The installer performs an in-house survey to determine how many solar panels can fit on the roof without shading and where to place wiring and other equipment. A solar panel system size calculation guarantees adequate power supply.
• Panel Mounting: The installer mounts the solar panels on the roof or another area where they receive direct sunshine. They use mounting frames to securely fasten the panels at an excellent angle for sunlight exposure.
• Wiring: The installer connects the solar panels using weatherproof cabling. This transfers the direct current (DC) power generated by the panels to the inverter.
• Inverter Connection: They connect the inverter to the solar panel array. The inverter's role is to change the DC electricity from the panels into alternating current (AC) power. The newly converted AC power can then be used to supply the home.
• Grid Tie (If Required): For systems linked to the grid, the installer connects the inverter to the home's electrical system and the neighborhood power grid.

How To Use

Once installed, the solar system generates electricity from sunlight. Any excess power not needed for immediate use can be stored in batteries or fed back into the electrical grid, depending on the setup.

Quality And Maintenance Of 6Kw Solar System In Nairobi Kenya

Quality

• Cooling: Monocrystalline solar panels are manufactured in extremely hot conditions, essentially from one silicon crystal. This characteristic makes them quite efficient when the temperature is high.

• Longevity: Most crystalline solar panels commonly used today have around 40 years warranties. These innovations have significantly improved quality and durability over the years.

• Materials: Polycrystalline panels look blue because they are made from many silicon crystals. Each solar cell is manufactured by merging these silicon crystals into a mold.

• Efficiency: Since they require more silicon to create each cell, polycrystalline panels usually have lower efficiency than monocrystalline. This is because there is less energy density per square foot.

• Cost: Polycrystalline panels are usually less expensive than monocrystalline. This is because they are manufactured in larger batches, which helps to lower the overall production costs.

Maintenance

• Routine Inspection: Check for shading from nearby trees, birds, or other structures that may have developed over time.
• Check the Inverter: At least once a month, check the inverter. Look for warning lights or messages indicating potential problems.
• Watch the Energy Output: Regularly monitor the energy production of the solar system.
• Look for Damage: Perform periodic visual checks of the solar panels for any physical damage such as cracks, dents, or worn areas.
• Ensure System Safety: Confirm that all safety equipment, like circuit breakers and surge protectors, is in good condition.

Q & A

Q1: How many watts are in a 6kW solar panel system?

A1: A 6kW solar system is built to produce an average of 6,000 watts per hour. When the sun is at its peak, it will produce around 30 kWh daily and up to 1,800 each month. This makes the energy capacity ideal for average households and small businesses.

Q2: What are the benefits of a solar panel to a household?

A2: Some of the benefits include lower electricity bills, energy independence, increased home value, reliability, and reduced noise. Solar energy can be freely and abundantly available after the initial installation, providing longer-term savings for consumers. Solar panels are also beneficial for the environment because they reduce greenhouse gas emissions and the carbon footprint.

Q3: How many solar panels will be required for a 6kW system?

A3: The average wattage of each solar panel is around 300. Therefore, to figure the number of panels required for a 6kW system, divide 6,000 watts by 300 watts. This means around 20 solar panels will be required to produce enough electricity to equal 6kW.

Q4: Is the investment in a solar panel worth it?

A4: Yes, investing in solar panels is worth it. Homeowners can save around $1,500 to $2,000 each year and $20,000 to $30,000 over the life of the solar power system. This makes finances and environmental benefits worth the investment.