Category Archives: Electricity

Exploring Generators For Sale: 5 Key Features To Consider

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Generators are an essential tool for many businesses and households. Their impact on productivity is immeasurable as a multi-functional and dependable power supply. They can offer critical energy and assistance to various applications such as manufacturing facilities or medical centers. They provide power in emergencies, during power outages, or natural disasters and can be used to power various appliances and tools.

Additionally, with so many generators for sale Connecticut or in your location, choosing the right one for your needs can be overwhelming. Here are a few key features to consider when looking for generators for sale.

how to choose the right generator

1. Wattage Capacity

When selecting a generator, understanding the wattage capacity is crucial as it directly impacts its power. Choosing too low of a wattage capacity for your power needs can result in underpowered equipment while selecting too high can lead to wasted resources and increased expenses.

To determine the appropriate wattage capacity for your needs:

  • List the appliances and equipment to power during an outage or emergency.
  • Include any essential equipment, such as medical devices or refrigerators.
  • Once you have a list, determine their wattage requirements and add them to get an estimated wattage capacity needed.

It will ensure that your selected generator can provide enough power to meet your needs during an emergency or outage. Just like a power inverter, wattage capacity is necessary.

2. Fuel Type

When choosing a generator, it’s essential to consider the type of fuel that will power it and will determine the generator’s efficiency, runtime, and maintenance requirements. Below are the types:

  • Gasoline-Powered Generators: They are typically the most affordable option, making them attractive for those on a budget. However, they have a shorter runtime and require more maintenance than other fuel types.
  • Propane-Powered Generators: They are more efficient and have a longer runtime but are generally more expensive.
  • Diesel-Powered Generators: These diesel-powered generators are the most costly option but have the most extended runtime and require minor maintenance.

To make an informed decision, consider the available fuel types in your area, and select a generator that fits your budget and requirements.

3. Portability

Portable generators are an excellent choice for those who require a power source for outdoor activities or camping trips. They are lightweight and easy to move, allowing for convenient transport. They come in different sizes and can be powered by gasoline, propane, or solar, offering flexibility in selecting the ideal power source.

On the other hand, standby generators are intended for permanent installation in a specific location, making them ideal for homeowners who require a reliable backup power source during an outage. They are more substantial and decisive than portable generators, offering unlimited power for extended periods. However, due to their size and strength, standby generators are not portable and require professional installation to ensure safe operation.

4. Run Time

A generator’s runtime is crucial when purchasing one. The length of time it can operate continuously on a single fuel tank is essential, especially during power outages or emergencies. A generator with a longer runtime can provide more power for an extended period, ensuring an uninterrupted power supply. Depending on the power needs and expected usage time, some generators can operate for 8-10 hours, while others can run for up to 24 hours or more. Therefore, choosing the ones with a suitable runtime that meets your power needs is essential.

Apart from the runtime, the size of the fuel tank also determines how long a generator can operate continuously. A larger fuel tank can support longer runtime, allowing you to use your generator for an extended period without frequent refueling. Consider the size of the tank and the consumption rate to estimate the runtime accurately.

5. Safety Features

Safety should be a top priority when purchasing a generator as they produce carbon monoxide, a dangerous gas that can cause illness or death if inhaled in high concentrations. Choose a generator with automatic shut-off, which detects low oil levels or overheating and turns it off to prevent accidents. Additionally, those with spark arrestors are ideal as they prevent sparks from causing fires. By selecting a generator with good safety features, you can reduce the risk of accidents and injuries and enjoy the benefits of a reliable power source with peace of mind.

Conclusion

Choosing the right generator for sale can be daunting, but considering the key features discussed above, you can make an informed decision. Whether you need a generator for emergency backup power, construction sites, outdoor events, or camping trips, it is crucial to consider factors such as wattage capacity, fuel type, portability, efficiency, safety features, and runtime. Select something that meets your power needs, budget, and safety requirements to enjoy a reliable and cost-effective power source for years. Remember to maintain your generator regularly to ensure it operates efficiently and lasts longer.

Everything You Should Know About MSW-to-Energy

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You know the saying: One person’s trash is another’s treasure. When it comes to recovering energy from municipal solid waste — commonly called garbage or trash— that treasure can be especially useful. Instead of taking up space in a landfill, we can process our trash to produce energy to power our homes, businesses and public buildings.

In 2015, the United States got about 14 billion kilowatt-hours of electricity from burning municipal solid waste, or MSW. Seventy-one waste-to-energy plants and four additional power plants burned around 29 million tons of MSW in the U.S. that year. However, just 13 percent of the country’s waste becomes energy. Around 35 percent is recycled or composted, and the rest ends up in landfills.

MSW-to-Energy

Recovering Energy Through Incineration

The predominant technology for MSW-to-energy plants is incineration, which involves burning the trash at high temperatures. Similarly to how some facilities use coal or natural gas as fuel sources, power plants can also burn MSW as fuel to heat water, which creates steam, turns a turbine and produces electricity.

Several methods and technologies can play a role in burning trash to create electricity. The most common type of incineration plant is what’s called a mass-burn facility. These units burn the trash in one large chamber. The facility might sort the MSW before sending it to the combustion chamber to remove non-combustible materials and recyclables.

These mass-burn incineration systems use excess air to facilitate mixing, and ensure air gets to all the waste. Many of these units also burn the fuel on a sloped, moving grate to mix the waste even further. These steps are vital because solid waste is inconsistent, and its content varies. Some facilities also shred the MSW before moving it to the combustion chamber.

Gasification Plants

Another method for converting trash into electricity is gasification. This type of waste-to-energy plant doesn’t burn MSW directly, but instead uses it as feedstock for reactions that produce a fuel gas known as synthesis gas, or syngas. This gas typically contains carbon monoxide, carbon dioxide, methane, hydrogen and water vapor.

Approaches to gasification vary, but typically include high temperatures, high-pressure environments, very little oxygen and shredding MSW before the process begins. Common MSW gasification methods include:

  • Pyrolysis, which involves little to no oxygen, partial pressure and temperatures between approximately 600 and 800 degrees Celsius.
  • Air-fed systems, which use air instead of pure oxygen and temperatures between 800 and 1,800 degrees Celsius.
  • Plasma or plasma arc gasification, which uses plasma torches to increase temperatures to 2,000 to 2,800 degrees Celsius.

Syngas can be burned to create electricity, but it can also be a component in the production of transportation fuels, fertilizers and chemicals. Proponents of gasification report that it is a more efficient waste-to-energy method than incineration, and can produce around 1,000 kilowatt-hours of electricity from one ton of MSW. Incineration, on average, produces 550 kilowatt-hours.

Also Read: The Role of an Electrician in a Waste-to-Energy Plant

Challenges of MSW-to-Energy

Turning trash into energy seems like an ideal solution. We have a lot of trash to deal with, and we need to produce energy. MSW-to-energy plants solve both of those problems. However, a relatively small amount of waste becomes energy, especially in the U.S.

Typical layout of MSW-to-Energy Plant

This lack may be due largely to the upfront costs of building a waste-to-energy plant. It is much cheaper in the short term to send trash straight to a landfill. Some people believe these energy production processes are just too complicated and expensive. Gasification, especially, has a reputation for being too complex.

Environmental concerns also play a role, since burning waste can release greenhouse gases. Although modern technologies can make burning waste a cleaner process, its proponents still complain it is too dirty.

Despite these challenges, as trash piles up and we continue to look for new sources of energy, waste-to-energy plants may begin to play a more integral role in our energy production and waste management processes. If we handle it responsibly and efficiently, it could become a very viable solution to several of the issues our society faces.

What is a Power Inverter and Why do I Need One?

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Are you the owner of an RV, SUV, car, boat or other vehicle with enough free space like Honda BR-V, and want to be able to watch TV, cook, or power a laptop onboard? If yes, you’ll be needing a power inverter. But what are they, and what do they do? Read on to find out why you’ll need one to power your gadgets on the road. As a fun fact, power inverters are now also becoming more commonly used in air conditioning units for homes with ess battery but these will require an HVAC technician to install. Use of the technology is expanding. On a side note, if you’re property or business owner and would like to protect your assets, please refer to this guide here.

power-inverter-car

What is a Power Inverter?

Basically, they are devices that turn your vehicle battery’s direct current (DC) into alternating current (AC) – the kind of electricity you have in outlets in your house, that are connected to the energy grid. Power inverters are not to be confused with catalytic converters, which control exhaust emissions.

Having a power converter means you can plug in your appliances and devices, and power them like you would through an electricity outlet in a house.

In your car, you can get USB adaptors for your cigarette lighter so that you can charge your phone or plug in your satnav. But for larger gadgets and electronics with proper plugs, you’ll need an inverter.

Working of a Power Inverter

Like we said, they convert currents to a type safe for use in vehicles. Your vehicle’s battery voltage provides a current that powers its internal workings – you’ll need to know which voltage your vehicle’s battery uses to choose the correct inverter.

The current supplied by a battery sticks on one circuit, in one direction – where the name ‘direct current’ comes from.

However, to power your gadgets, you’ll need alternating current, as those electronics need more power to function than the DC can provide. They’re made to function with the high-voltage AC current supplied in homes. If you are wondering ‘how to do my homework‘ to write a high-quality essay on electricity, consider EssayDoc.

Power inverters increase the DC voltage, change it to AC, then use it to power your devices. They amp up your battery’s voltage so you can play video games and use a kettle in your RV. Cool, huh?

Size Selection

These babies come in a variety of sizes – most commonly 1000, 3000 or 5000 watts.

It’s recommended that a 3000 watt inverter is the happy medium between inverter sizes and best choice to get. They’re not too small like the 1000, or too powerful and overcharged like the 5000. If you need a little extra boost, there are 3500 watt capacities available.

We spoke to a representative from Crusader Vans, who has a lot of knowledge on the topic at hand and they said, “The size you choose depends on the watts or amps of what you want to run (find the power consumption by referring to the specification plate on the appliance or tool). We recommend you buy a larger model than you think you’ll need (at least 20% more than your largest load).

Determine Continuous Load and Starting (Peak) Load: You need to determine how much power your tool or appliance (or combination of them that you would use at the same time) requires to start up (starting load), and also the continued running requirements (continuous load).” Follow this link to know more about them: https://www.crusader-vans.co.uk/

Modified or Pure Sine Wave Inverter?

Besides the sizing, there are two main types of inverter – the modified sine wave, and the pure sine wave.

So, what’s the difference, and which one will you need?

  • Modified Sine Wave: These tend to be cheaper, and less powerful. However, they’re good for most everyday electronics you will want to use, just not very large ones.
  • Pure Sine Wave: These are compatible with pretty much all electronics, gadgets, and appliances, and produce a powerful current most like the one supplied by the electric grid. These are the most common choice, because they’re more likely to be compatible with anything you need to plug in.

Power inverters are useful for charging on the road without having to cart around adaptors and large plugs

Other Features and Tips

  • Power inverters are especially useful if you are setting up a solar power system – they convert energy from the sun into electricity you can use to power your gadgets within your vehicle. This is renewable energy that isn’t a drain on your best car battery.
  • Power inverters aren’t just for vehicles – if you have a small cottage or outhouse, they’re very useful for setting up a small power source there.
  • Many (but not all) power inverters come with USB outlets, useful for charging on the road without having to cart around adaptors and large plugs. For ease of use, get one compatible with USB.
  • The best inverters have digital screens which show you how much energy has been consumed and information about battery voltage. It’s useful to know these things at a glance, so consider getting one that has a screen.
  • Modern inverters, such as a solar inverter, have been made to be extra-quiet, so you won’t be woken up by a noisy machine while trying to simultaneously get some sleep and charge your phone in your RV.

Recommended Reading: Factors affecting the price of a home inverter

Bagasse-Based Cogeneration in Pakistan: Challenges and Opportunities

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Considering the fact that Pakistan is among the world’s top-10 sugarcane producers, the potential of generating electricity from bagasse is huge.  Almost all the sugar mills in Pakistan have in-house plants for cogeneration but they are inefficient in the consumption of bagasse. If instead, high pressure boilers are installed then the production capacity can be significantly improved with more efficient utilization of bagasse.

bagasse-pakistan

However, due to several reasons; mostly due to financing issues, the sugar mill owners were not able to set up these plants. Only recently, after financial incentives have been offered and a tariff rate agreed upon between the government and mill owners, are these projects moving ahead.

The sugar mill owners are more than willing to supply excess electricity generated form the in-house power plants to the national grid but were not able to before, because they couldn’t reach an agreement with the government over tariff. The demand for higher tariff was justified because of large investments in setting up new boilers. It would also have saved precious foreign exchange which is spent on imported oil.

By estimating the CDM potential of cogeneration (or CHP) projects based on biofuels, getting financing for these projects would be easier. Renewable energy projects can be developed through Carbon Development Mechanism or any other carbon credit scheme for additional revenue.

Since bagasse is a clean fuel which emits very little carbon emissions it can be financed through Carbon Development Mechanism. One of the reasons high cogeneration power plants are difficult to implement is because of the high amount of costs associated. The payback period for the power plants is unknown which makes the investors reluctant to invest in the high cogeneration project. CDM financing can help improve the rate of return of the project.

Bagasse power plants generate Carbon Emission Reductions in 2 ways; one by replacing electricity produced from fossil fuels.  Secondly if not used as a fuel, it would be otherwise disposed off in an unsafe manner and the methane emissions present in biomass would pollute the environment far more than CO2 does.

Currently there are around 83 sugar mills in Pakistan producing about 3.5 million metric tons of sugar per annum with total crushing capacity 597900 TCD, which can produce approximately 3000 MW during crop season Although it may seem far-fetched at the moment, if the government starts to give more attention to  sugar industry biomass rather than coal, Pakistan can fulfill its energy needs without negative repercussions or damage to the environment.

However some sugar mills are opting to use coal as a secondary fuel since the crushing period of sugarcane lasts only 4 months in Pakistan. The plants would be using coal as the main fuel during the non-crushing season. The CDM effect is reduced with the use of coal. If a high cogeneration plant is using even 80% bagasse and 20% of coal then the CERs are almost nullified. If more than 20% coal is used then the CDM potential is completely lost because the emissions are increased. However some sugar mills are not moving ahead with coal as a secondary fuel because separate tariff rates have to be obtained for electricity generation if coal is being used in the mix which is not easily obtained.

Pakistan has huge untapped potential for bagasse-based power generation

One of the incentives being offered by the State Bank of Pakistan is that if a project qualifies as a renewable project it is eligible to get loan at 6% instead of 12%. However ones drawback is that, in order to qualify as a renewable project, CDM registration of a project is not taken into account.

Although Pakistan is on the right track by setting up high cogeneration power plants, the use of coal as a secondary fuel remains debatable.  The issue that remains to be addressed is that with such huge amounts of investment on these plants, how to use these plants efficiently during non-crushing period when bagasse is not available. It seems almost counter-productive to use coal on plants which are supposed to be based on biofuels.

Conclusion

With the demand for energy in Pakistan growing, the country is finally exploring alternatives to expand its power production. Pakistan has to rely largely on fossils for their energy needs since electricity generation from biomass energy sources is considered to be an expensive option despite abundance of natural resources. However by focusing on growing its alternate energy options such as bagasse-based cogeneration, the country will not only mitigate climate change but also tap the unharnessed energy potential of sugar industry biomass.

A Blackout, Big Oil, and Wind Energy

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The annual wind turbine capacity additions in the United States totaled 14.2 gigawatts, surpassing the previous record of 13.2 GW added in 2012. The whole world is seeing similar growth.  The wind industry isn’t without controversy. Critics blame it for the scope of a blackout in Australia. On the other hand, international oil companies have begun to build off-shore wind farms.

Critics’ case against wind energy

According to its critics, wind power is unreliable. The wind doesn’t blow all the time. It doesn’t blow on any predictable pattern. Wind turbines require some minimum wind speed for them to work at all. And if the wind is too strong, they can’t operate safely and must shut down.

wind-farm-Lake-Turkana-Kenya

Wind can cross one or the other of these thresholds multiple times a day. They operate at full capacity for only a few hours a year. So the theoretical capacity of a wind farm greatly exceeds its actual output.

The times turbines can generate electricity do not coincide with rising and falling demand for electricity. This variability creates problems for stabilizing the grid. Critics further claim that the wind industry can’t operate without massive government subsidies.

Wind power and South Australia blackout of 2016?

South Australia depends on wind energy for about 40% of its electricity. It suffered seven tornadoes on September 28, 2016. Two of them, with winds almost as fast as Hurricane Katrina, destroyed twenty towers that held three different transmission lines. Nine wind farms shut down.  Within minutes, the entire state suffered a massive blackout.

What contributed the most to the blackout? South Australia’s high dependence on wind power? The weather? Or something else?

Renewable energy skeptics quickly claimed the blackout justified their position. The wind farms simply failed to provide enough electricity in the emergency. Wind and solar energy, they say, are inherently unreliable. South Australia’s heavy reliance demonstrates an irresponsible policy based on ideology more than technological reality.

Certainly, the weather would have caused a disturbance in electrical service no matter what source of electricity. People near the downed transmission lines could not have avoided loss of power. But prompt action by grid operators makes it possible to bypass problem areas and limit the extent of the outage.

On closer examination, however, the correct answer to the multiple-choice question above is C: something else.

Wind turbines have “low voltage ride through” settings to keep operating for brief periods when voltage dips below the threshold at which they can operate correctly. If low-voltage conditions occur too frequently, the wind turbines have a protection mechanism that turns them off.

  • Ten wind farms experienced between three and six low-voltage events within two minutes. But the turbines were operating on factory settings. No one performed any testing to determine good settings under local conditions.
  • The agency that regulates the Australian electricity market knew nothing about the protection feature. It blamed the wind farms, but surely someone on staff should have been familiar with the default operation of the turbines. After all, the agency approved purchase and installation of the turbines. It had all the documentation.
  • Two gas generating plants that should have supplied backup power failed to come online.

The weather caused a problem that became a crisis not because of technical limitations of renewable energy, but because of too many different organizations’ incompetence.

If the wind is too strong, wind turbines can’t operate safely and must shut down.

One homeowner in South Australia didn’t suffer from the outage. He didn’t even know about the blackout till he saw it on the news. He had to test the accuracy of the news reports by opening his oven and noting that the light didn’t come on.

It turns out he had installed solar panels just a few weeks earlier. And since power outages in his part of South Australia occur almost every month, he decided to install a Tesla Powerwall as well.

He can’t use it to power his entire house, but it takes care of the lights and the television. It stores enough electricity for 10 hours of off-grid power.

Big oil and wind power

International oil companies have not joined the chorus of wind-industry skeptics. Several of them, including Royal Dutch Shell, have begun to invest heavily in off-shore wind farms. Especially in the North Sea. Oil production there has steadily declined for about 15 years.

Exploring for new oil fields has become too risky and expensive. These oil companies have decided that investing in wind energy helps their cash flow and makes it more predictable.

Oil companies have more expertise in working on offshore platforms than do companies that specialize in wind energy. Instead of building a foundation for turbines on the ocean floor, at least one oil company has begun to explore how to mount them on floating platforms.

Traditional wind energy firms have been operating turbines in the North Sea for years, but the oil companies have begun to outbid them. Their off-shore expertise has helped them drive down their costs.

So far, American oil companies have shown less interest in wind farms. If they decide they’re in the oil business, they will eventually lose market share to renewable energy companies. If they decide they’re in the energy business, they’ll have to start investing in renewable energy. And if any decide to invest heavily in solar power besides or instead of wind, they will still be following the lead of Total, a French oil company.

For that matter, the coal business is dying. Perhaps some of them will have enough sense to invest in renewables to improve their cash flow.

On-Grid Vs Off Grid: Choose the Best Power for Your Home

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While fuel and electricity costs rise, many households are moving to solar power systems. The easiest solution that one can find is to opt for solar panel systems.

Curious about what solar panel systems are?

Sunshine is available to using abundance, and solar systems use efficient technology to harvest and turn this energy into electricity with pre-defined methods. Solar power panels serve the purpose of collecting solar energy and converting it through the photovoltaic (PV) effect into electric power. Many homes have a roof or backyard, which can be used for installing solar systems to generate electricity.

A home solar system must provide ample electrical energy to meet all home power needs. It provides AC power, as typically all households use AC power to operate lighting systems, electronics, appliances and machinery such as machines, refrigerators, mixers, fans, air conditioners, TVs and music systems.vThe price of the home solar power plant varies on its size and type.

On-grid and off-grid solar systems come in two types of solar power plants. Let’s look at the difference between the two:

1. Off-Grid Solar System

An off-grid solar system is well designed to generate enough power throughout the year to meet the needs of a household, even in the depths of winter, when there is less sunshine. However, since there is no electricity grid connection to an off-grid solar system, battery storage is necessary.

The high cost of batteries and inverters implies that the off-grid solar system is costly than the alternatives, so they are usually needed only in more remote areas far from the grid. Nevertheless, battery costs are reducing at a high rate, so the demand for an off-grid solar system is now increasing, even in cities and towns.

Advantages of An Off-Grid Solar System

  • Such an off-grid solar system can function independently and not rely on the grid.
  • They generate enough electricity that can be collected and used at night.
  • These are suitable for remote areas that do not have grid power access.
  • Shutdowns and infrastructure faults won’t affect the power supply.

2. On-Grid Solar System

On-grid solar systems are the most widely solar product used by homeowners. Such systems do not need batteries and are connected to the public electricity grid and use solar inverters. Any surplus solar power you produce is sold to the electricity grid, and the energy you sell is usually paid a feed-in tariff (FiT) or credits.

Solar inverters are an essential part of a residential solar energy system, convert the electricity your solar panels create into a form that can be used by the appliances, lighting, and other electronics. Learn more about solar inverters here.

Unlike an off-grid solar system, because of safety reasons, these are unable to work or generate electricity during a blackout. Because blackouts usually occur when the electricity grid is disabled, if the solar inverter had fed energy into a broken grid, it would endanger the safety of the people fixing the network’s faults. Most on-grid solar systems with battery storage can separate itself from the grid (known as islanding) and continue to supply some power during a blackout.

Advantages of An On-Grid Solar System

  • On-grid solar systems are incredibly cost-effective and easy to install.
  • By balancing electricity bills in just 3-8 years, you can recoup the cost of your expenditures.
  • Residential users can earn a passive income for the surplus energy generated by the system.

Choose Between On-Grid Vs Off-Grid Solar Systems to Fit Your Needs

Solar power systems are a form of clean, renewable energy, and they have many benefits depending on the type of system you chose. Knowing the advantages of both an on-grid and off-grid solar system, you can select the one according to your needs. With the right solar system and proper installation, you can have clean and cost-effective energy, without being worried about maintenance problems.

Top 7 Tips To Make Your Home Energy Efficient During Summer

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Your home is a full-fledged system. And you’re the person who decides how to run its operations. This goes for the appliances you choose, and the equipment you install. So naturally, when you implement cost-effective measures, you’re able to save money, energy, and improve performance. As a homeowner, there are two particular seasons in which you wish your home to be the most energy efficient. Those are summer and winter. So how do you keep cool in the hot weather without overworking your AC? Here are our top 7 tips to make your home energy efficient in summer.

Importance of energy efficient appliances and equipment

Energy efficient appliances and equipment use the least amount of energy to perform their required tasks by default. So if you get energy efficient appliances such as refrigerators, air conditioners, dishwashers, and laundry machines, you’ll be conserving energy. This automatically translates into reduced utility bills. You will be saving money and protecting the environment.

Energy efficiency in home appliances is extremely important. Especially when you consider how the energy and money you saved could be used for something else. So, you get a discounted bill with minimum exploitation of natural resources.

how to make your home energy efficient

How to Make Your Home Energy-Efficient in Summer

1. Check your home insulation

A good insulation system will keep your home well protected against the elements. One of the main places that people tend to ignore is the attic. When your attic is poorly insulated you’ll notice that during the cold months, snow on your roof will melt faster. This means that a substantial amount of warm air is leaking from your home. Similarly, during summer, poor insulation will allow cool air out. This will automatically make your heating and cooling system work harder to compensate for the air leaking.

home-insulation

According to the Environmental Protection Agency’s research, proper insulation will help you save 15% on heating and cooling costs. So, if you want to make your home more energy-efficient, you need to seal any crack and openings. Inspect your floors for any possible crawl spaces and your doors and windows for caulking that could have degraded.

2. Optimize your thermostat settings

If you’re looking to save up on energy bills during summer, you need to tackle the source of the issue. That is your cooling system. It might feel really nice to blast your AC when it’s unbearably hot outside. However, you don’t want the temperature inside your home to be so cold that you need to use a blanket. In fact, you can be comfortable enough with your thermostat set at 78 degrees.

eco-friendly-business-practices

For every degree below 78, your energy increases by 6 to 8%. Accordingly, your energy bill increases as well. For instance, if you raise your thermostat from 74 to 78, you save 24% in energy usage. Keep the thermostat as high as possible before you leave the house, or turn it off altogether. The bigger the difference between the temperature outside and inside, the higher your energy bill will be.

3. Replace your air filters

When your air filters are dirty and deteriorating, your HVAC is going to overwork itself to keep your house cool. This will result in poor energy efficiency and higher utility costs. Cleaning your air filters might not be enough since you’re supposed to replace them every three months. The same goes for your air vents.

You need to clean those as well on a regular basis. And if you have pets, you will need to clean them more frequently. Not to mention the allergens and dust that circulate through your ventilation system. If you don’t have much experience in home maintenance, you need to call a professional to check them for you.

4. Use fans strategically

You might be reluctant to exclusively rely on fans to cool your home in summer, especially during heatwaves. After all, fans don’t do much except move the existing air in a particular space around over and over again. However, you can place fans throughout your home in a strategic manner so that they work more efficiently.

One great way to increase energy efficiency is to work both your cooling system and fans at the same time. The thing is that you only need to put your AC on at a higher degree than you normally would. Then, plug a fan and direct it towards the AC so that it propagates cool air throughout the whole room.\

You may think that in a place like your garage an air conditioner might be the right choice, but unless it’s insulated, it’ll only run up your energy bill. It’s wise to install a garage ceiling fan instead to avoid this issue.

5. Install double glazed windows

Upgrading your windows is the best thing you can do to enhance your home’s energy efficiency, both during summer and winter. The gap between the two glass panes in double glazed windows acts as an additional layer of insulation. Like so, this layer creates thermal resistance that obstructs the outdoors air from coming in and indoor air from escaping. This means that in winter, warm air won’t leak outside of your home. The double glazing will also prevent the harsh cold from infiltrating your living space.

On the other hand, when the weather is really hot, your double glazed windows have the reverse effect. They hinder warm air from creeping in, and they block the cool air inside your home from seeping outside. Double glazed windows also have the added benefit of minimizing the outside noise, limiting UV damage, and increasing security.

6. Upgrade your light bulbs

If you’re still using incandescent lighting then it’s time to make the switch to LED light bulbs. Incandescent bulbs actually generate way more heat than their LED counterpart. This gives your HVAC system one more thing it has to contend with. Not just that, incandescent lights only last for 1,000 hours. They convert a mere 5% of the energy they receive to light, while the rest 95% gets lost as heat.

energy efficient home

On the other hand, LED bulbs last 25 times longer, they consume 75% less energy, and they run cooler. If buying LED light bulbs seems a bit out of your budget, you could consider compact fluorescent lamps (CFLs). Their lifespan is 10 times longer than that of incandescent bulbs. And you’ll still be saving about 67% in electricity usage.

7. Unplug energy-sucking appliances

Consider this a rule of thumb to energy efficiency in summer: if you’re not using it, then unplug it! Think of it this way: any appliances that use electricity will also generate heat. If you want to keep your home cool and comfortable enough during the hot weather, unplug electronics you’re not using. That goes for anything from your coffee machine and toaster, to your phone chargers and computers.

3 Major Benefits of Using Solar Inverter as a Primary Source of Residential Energy

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In recent years, the solar inverter market has witnessed a surge in demand. That’s because  people have started realizing the benefits of switching to solar energy for residential as well as commercial use. Even the central and state governments are stressing on the need to switch to solar energy. They are even offering various subsidies for installing solar power systems on both residential and commercial properties. So why do you think the government is encouraging the shift from local grids to solar energy. Well, in this post, we discuss just that. Listed below are three important reasons/benefits of using a solar inverter as a primary source source of residential energy. Let’s read on:

benefits of solar inverter

1. It is a clean source of energy

While one of the reasons for shifting from fossil fuels to solar is that fossil fuels are exhaustible and are not going to last forever, an even more significant reason for this shift is that unlike fossil fuels that cause a lot of pollution, solar energy is a clean and green source of energy. It helps reduce the carbon footprint which is the need of the hour. And this reflects in the way governments across the globe have been encouraging renewable sources of energy.

India, too, is not an exception, and that is evident from the fact that the Indian government is providing subsidies for installing solar inverter systems. And the good thing is that many people across the country have already started installing solar inverter systems on their residential and commercial properties. So, if you too want to do your bit towards making the Earth a better place to live, go solar!

2. It helps save a lot of money

Well, if you have been worried about the initial investment cost of installing a solar inverter system, we already told you that the Government of India provides subsidies for installing solar inverter systems. And if this reason is not enough let us also tell you that one of the major benefits of installing a solar inverter system is that you are able to generate electricity for free. That’s because the solar energy from the Sun is a free source of energy.

Also, the yearly savings that most households make after installing solar inverter systems are such that they are able to recover their initial cost of investment within 6-7 years. And since the average lifespan of a solar inverter system is anywhere between 15 to 20 years, it means that one is able to make substantial returns on their investment once they have recovered their initial investment cost.

Now isn’t that an awesome reason for you to take the plunge?

3. It provides relief from long and frequent power cuts

Here’s another major benefit of installing a solar inverter system. If you live in an area where there are long and frequent power cuts and even the normal UPS inverter is not of much help, then installing a solar inverter system will help you reduce your dependence on your local grid. In fact, solar inverter systems have gained a lot of popularity in areas where there’s no local grid.

For example, you may be aware of the latest trend of people buying vacation homes at faraway locations. Most of these locations lack a local grid, and therefore, people rely on solar inverter systems for their energy needs.

Ready to make a move?

If you haven’t shifted to solar already, it’s high time you make a move. We suggest you to get in touch with the solar experts’ team at a reputable brand such as Luminous India and they would walk you through the process of choosing the right solar inverter system for your residential property.

What are the Factors Affecting Inverter for Home Price?

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Inverters have become an increasingly essential aspect of modern life today. After all, our world runs on electricity, and we can often come to a screeching halt in its absence. Almost every household today is, consequently, equipped with an inverter and a power backup system. Whether you’re looking at investing in an inverter for the first time or are looking to upgrade from your existing system, one of the essential factors is the inverter for home price point.

What determines the inverter for home prices? What are the essential components of a home inverter system?

factors that govern inverter for home prices

Keep reading: we’ll answer all your questions about inverter for home prices — and how you can find the best deal for your home.

The Importance of Inverter for Home Prices

While many suggest that inverter for home prices aren’t nearly as important as their quality, there is no denying that budget is a vital consideration for people when they are looking to purchase it. However, it’s also worth noting that inverters are, ultimately, long-term investments. Therefore, it is important to look at at least a little past inverter for home prices alone.

Let us now look at the factors that inform the inverter for home prices.

1. Load on your Inverter

Since inverters are designed to start working in the event of a power cut, the inverter for home price is directly influenced by how much power you will require it to handle when you lose power. For instance, the inverter for home price will be lower if your power requirements are low, such as if you only want to power a few fans and lights. However, if you want to power heavy-duty appliances such as refrigerators, air conditioners, and TVs, the inverter for home price will go up.

To determine a precise inverter for home price, you can use an online load calculator or even perform the math yourself to determine your load requirements.

2. VA or Volt Ampere Rating

The Volt Ampere or VA rating of an inverter tells you how much power it can supply to your appliances in the event of a power cut. Like the power load on your inverter, the capacity of your inverter will also be a factor influencing the inverter for home price. The higher an inverter’s VA rating, the higher the inverter for home price, and vice versa.

High-quality and trustworthy manufacturers offers a wide variety of inverter for home prices based on your needs and budgets while delivering excellent engineering in their inverters.

3. The Battery of your Inverter

Any inverter backup system is ultimately powered by its battery. This is where power is stored for use in the event of an electricity cut. The quality, type, and capacity of your inverter battery — measured in Ampere Hours, Ah — will also determine the inverter for home prices.

benefits of solar inverter

Inverter batteries also come in many types, from flat and tubular inverter batteries to newer technologies such as lithium-ion battery-powered inverters. Inverter for home prices is directly impacted by the type of inverter battery you invest in, in addition to its capacity.

Conclusion

A number of factors and components impact inverter for home prices. The best thing you can do for your home is to invest in high quality — such as inverter systems manufactured by a trustworthy brand. This is, ultimately, the best way to get a great inverter for your home in the long run.

Recommended Reading: What is Solar Inverter?

12 Ways Small Businesses Can Save Energy

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Saving money is important for businesses and saving energy is important for all of us – so here is the perfect mix of both and some great tips for small businesses to save on energy. Remember, these are not the only ways you can save on your energy costs. You have to ensure that you are on the best electricity rate plan that is right for your business. Energy comparison sites like Electricityrates.com can help you find the best rates around your area to suit your business needs. All you need to do is enter your ZIP code, and you’ll get a list of electric providers in your area to choose from based on your preferences.

1. Get A Free Energy Audit

A full energy audit helps identify issues that might be causing energy wastage – these include insulation issues and air leaks. Most electricity utility companies offer these audits free of charge. The inspection not only helps you determine how energy is used but also ways to address energy wastage.  The audit report will also recommend ways to keep your energy usage on the low, such as investing in energy efficient lighting and equipment.

Inquire with Josco Energy Corporation about a free audit.

2. Invest in Energy-Efficient Office Equipment

Energy efficient (energy-star rated) appliances use up less energy as compared to older non-rated ones. That said, it would be advisable for you to lease/buy energy star rated office electronics.  This should help see your energy bills drop significantly, hence substantial cost savings in the long run.

3. Avoid Peak Demand

Peak demand can be defined as the time of the day when there’s a high demand for energy. These are the hours when energy usage is the highest. The typical peak hours start from 9 a.m. to 5 p.m.  Reducing your demand for electricity during these times and only running the factory and heavy equipment early in the morning, and later in the evening can help reduce energy consumption. Reducing your demand for energy during peak hours also means your small business spends less on energy usage at the end of the day. Check here to learn how to start a small business.

4. Use Programmable Thermostats

Smart thermostats make it easy to monitor and control temperatures in the workplace when everyone is in the office (9 – 5), and away. The thermostat can be programmed to turn OFF the heating and cooling appliances during the night, and back ON a few minutes to ‘work hours’. This in return sees you save lots of energy that would have otherwise been wasted had the HVAC systems remained on through the night.

eco-friendly-business-practices

5. Switch Off Lights in Unused Areas

Most offices have an always-on lights setup. This means the lights in all rooms including bathrooms, conference rooms, breakrooms, and even unused corridors. This leads to energy wastage which can be preserved if lights were only turned on when needed. Installing sensors to turn the lights on or off when required could help too.

6. Switch to Energy-Efficient Light Bulbs

Incandescent bulbs use up more energy for the same amount of light when compared to CFLs and LEDs that use just a fraction of it. Switching from incandescent bulbs to CFL or LEDs should help the company use less energy in lighting. This is the simplest and easiest ways to save energy in the workplace.

LED-lighting-workplace

7. Make Use of Natural Light

Always take advantage of the natural sunlight whenever you can. You can do so by drawing the blinds, curtains, and opening the windows to allow the sunlight in. Be sure to switch off lights in well-lit areas well. Letting the sunlight in also means you get passive heating from the sun, hence no need to have the heaters on. While it may seem like nothing, taking advantage of the natural sunlight should help save the business a few kilowatt hours a day.

8. Run Fans

Have fans installed in showrooms, warehouses, kitchens, and offices alike. The fans will help keep the air moving, hence facilitate optimal air circulation. This means the HVAC system will run more efficiently and smoothly translating to lower energy consumption.

9. Power Down Computers and Other Office Equipment When Not in Use

Having everyone power down their computers at the end of the day should help save lots of energy. You might also want to set the laptops to go to sleep or hibernate if not used for a certain number of minutes or hours. Be sure to turn off and unplug other electronic devices from the mains sockets.

Although modern toasters, coffee makers, printers, and other office appliances have a ‘sleep’ mode when not in use, these continue to draw some current if left plugged. Unplugging these will save some more kilowatts. 

10. Avoid ‘Phantom’ Energy

As mentioned earlier, some equipment will continue to draw electricity when plugged in.  That said, making it a habit of unplugging such devices or using a power strip on them, can help save some energy. With a power strip, a simple flip of the switch will cut electricity supply to the connected devices. 

11. Make Adjustments to the Surrounding Landscape

If you have control over the landscape around, you can then use it to your advantage. Energy-efficient landscaping, such as planting trees strategically to block winds and provide shelter, will go a long way in reducing heating and cooling costs.

Planting more trees and vegetation will go a long way in reducing heat in urban settings.

 

12. Involve the Employees

Encouraging the employees to take on energy-efficiency practices can help reduce electricity costs and energy wastage too. Train the employees to turn off their computers after work, switch off lights, as well as use energy efficient appliances in the workplace.

Inspiring them to save more energy should work well for the company. You can see more tips and tricks on how to improve employee energy-saving practices here.