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What Is Green Power? Green power is electricity derived from sources that are naturally replenished and do not release pollutants. Many households have access to utility-branded green products. There are third-party certified choices by state. Solar panels can be erected on the roofs of superstores, warehouses and factories to generate their own clean energy. Businesses with fleets of vehicles can convert to electric vehicles. Renewable Energy Sources Solar energy, wind energy and water are all renewable sources of energy. They replenish themselves in a natural manner over time, unlike fossil fuels such as coal and oil which are finite resources that eventually end up being depleted. Renewables are a cleaner option to generate electricity since they don't release harmful greenhouse gases. Hydropower plants are the most popular source of green energy. Water covers 71 percent of the Earth's surface. As it moves through a cycle of evaporation and rain, it generates natural energy. This process can be harnessed by redirecting water through turbines which then generate electricity. Geothermal, solar and wind are also types of renewable energy. Green energy can also be produced through solar energy to warm the water in boilers and other appliances. It can also be generated by producing ethanol or biodiesel from plant and crop waste. Many communities are now relying on renewables to supply more of their energy, from huge offshore wind farms to solar panels on homes that can sell excess energy back to grid. There are a myriad of renewable energy sources that can be utilized to produce green power, not all are created in the same way. To be considered green, a source has to be zero-emissions, low-emissions, or not emit greenhouse gases during its entire lifecycle (i.e. manufacturing installation, installation, or land use). Choose renewable electricity that has been certified by a third party. This type of electricity is generated by solar, wind geothermal, biogas, some forms of biomass and low-impact small hydroelectric sources. It's readily available in all markets and provides consumers with a simple and efficient method of making a positive environmental impact. This type of electricity can be used to replace traditional forms of energy and reduce carbon emissions which is an important step towards an environmentally sustainable future. Energy Efficiency Energy efficiency refers specifically to technologies and practices that use less energy to produce the same amount of products and services. This includes reducing waste from production processes, and improving the design of vehicles, buildings, and appliances. Energy-efficient methods also reduce greenhouse gas emissions, dependency on fossil fuels, pollution of water and air. They also can help to break the link between the growth of GDP and energy consumption. DNREC offers a number of energy efficiency programs for businesses and schools as well as local governments. The Energy Efficiency Industrial (E2I) and the Energy Efficiency Fund (EEIF), are two of the programs that DNREC offers. These programs offer grant money and low-interest loans to encourage non-residential energy efficiency upgrades. In addition, DNREC also offers rebates and tax credits for improvements to energy efficiency in homes. Energy efficiency is a crucial aspect to achieving ambitious climate goals when it is combined with renewable energy. According to IEA scenarios, if cost-effective methods of energy efficiency were adopted in all sectors that they could make a significant impact in the global GHG emission would peak before 2030 and then by 2040. This would be more than 40% the total GHG reduction needed to keep temperature rises to less than 1.5 degrees Celsius. In the future, nations are expected to double their rate of improvement in energy efficiency. This will be the only way to meet the climate mitigation targets laid out in the Paris Agreement and the Sustainable Development Goals. This will require integrating the energy efficiency into all plans, policies and major investment decisions, and making it a top priority for consumers, businesses and investors. Energy efficiency is a crucial aspect of green energy, which blends renewable energy with energy efficiency to produce a green, carbon-free option for traditional electricity. Renewables include solar and wind power, geothermal energy biomass that is eligible and small hydroelectric systems with a low impact. Renewable energy should be combined with energy efficiency, whether as a product or service. On the internet, you can locate green power companies. The process of switching is fast and easy. Some suppliers offer a cooling-off time of two weeks to give customers the chance to consider whether they want to switch suppliers. Greenhouse Gas Emissions When fossil fuels are burned greenhouse gases are released which include carbon dioxide. These gases absorb heat and cause climate changes. Human activities account for a significant portion of all greenhouse gas emissions. Numerous studies have proven that climate change can pose environmental and economic dangers. The reduction of fossil fuel energy consumption is one method to reduce greenhouse emissions. You can also generate electricity using renewable energy sources. Electricity generation is the most significant source of greenhouse gases. In the United States more than half of energy is generated by coal-fired power stations. My Mobility Scooters produced from renewable sources like geothermal, wind, solar and small hydro with low impact generates substantially less greenhouse gas emissions. Other sources of greenhouse gas emissions include commercial and residential buildings and transportation. Residential and commercial buildings consume huge amounts of electricity for heating, ventilation, and air conditioning. Lighting; appliances, plug load; and other functions. Retrofits and “green” building methods can make these buildings use much less energy. This will result in less greenhouse gases. Transport activities emit greenhouse gasses from the burning fossil fuels used to power cars, trucks and trains as well as ships and planes. Reduced emissions can be achieved by replacing gasoline-powered vehicles with hybrid, electric, electric or hydrogen fuel cell automobiles. The improvement in fuel efficiency can reduce emissions from transportation. Using renewable sources of energy to power transportation (such as biofuels, electric or low-carbon natural gas) can further reduce emissions. Waste disposal and agricultural activities generate methane, which is a potent greenhouse gas. Methane is produced by livestock and other practices of animal farming including land use, as well as the decomposition of organic waste in municipal solid waste landfills. Reducing these sources of methane emissions can help reduce greenhouse gas emissions. Utility Green Power Products Many utilities offer green options for their customers. These products vary from 50 to 100 percent renewable energy, and are offered in addition to the standard energy supply options. Customers can learn more by calling their utility. Purchasing these products is a great way to support the advancement of cleaner, more sustainable energy sources. Renewable Energy Costs The price of alternative energy continues to fall as the world works towards a goal of 100 renewable power by 2050. Wind and solar power are among the most affordable sources of electricity available. Additionally, the levelized cost of energy, also known as LCOE, is expected to decrease as the technology matures and more projects are created. The initial costs of renewable energy sources could be higher than fossil fuels, however the long-term savings will offset the initial cost. Renewables can produce inexpensive, clean energy with significantly less environmental impact than traditional fossil fuels. They also can help reduce the health risks associated with respiratory diseases caused by coal. They can also create jobs that stimulate the economy. In addition, they offer affordable energy prices to consumers. The initial costs for renewable energy plants are usually more expensive than fossil fuel plants, but they can be operated at a very low cost (since their “fuel” comes free). Studies have shown that the average home's electricity costs will decrease once they make the switch to renewable energy. Most renewable energy technologies are less expensive and require less infrastructure to deploy than conventional power plants. Additionally, the ongoing capital costs for renewable energy could be reduced by government incentives and rebates. Additionally the high interest rates have dramatically increased the cost of renewable energy projects that require capital, however, Morningstar estimates that future interest rates will be much lower, which will help reduce these costs. It is not yet feasible to conduct a complete analysis of the costs versus advantages of a 100% renewable electricity system, but preliminary research suggests that it may have some significant advantages. Jesse Jenkins, of the Massachusetts Institute of Technology, conducted a study that showed that limiting renewable energy sources to nondispatchable sources, such as onshore and solar energy results in higher policy cost than an easy low-carbon electricity goal. In New York, where the majority of households purchase their electricity via competitive electric markets green power options are readily available to customers who want to help support green energy solutions. A typical green power plan uses renewable energy sources such as biomass, wind, solar, and hydroelectricity. While these alternatives are not currently used to supply all of the State's electricity however, they could provide a significant amount. By choosing green power sources, New York can create a more resilient and sustainable energy mix.