Wind and sun oriented are controlling a perfect energy transformation. This is what you need to think about renewables and how you can help have an effect at home.
Solar Energy
Solar Energy
Sun powered, or photovoltaic (PV), cells are produced using silicon or different materials that change daylight straightforwardly into power. Disseminated galaxies create power locally for homes and organizations, either through roof boards or local area projects that power whole areas. Sun based ranches can produce power for a large number of homes, utilizing mirrors to think daylight across sections of land of sunlight based cells. Drifting sun based homesteads or "floatovoltaics" can be a successful utilization of wastewater offices and waterways that aren't naturally touchy. Sunlight based supplies somewhat more than 1% of U.S. power age. However, almost 33% of all new creating limit came from sun powered in 2017, second just to petroleum gas. Sun oriented energy frameworks don't create air toxins or ozone depleting substances, and as long as they are dependably sited, most sunlight based boards have not many natural effects past the assembling interaction.
Wind Energy
Wind Energy
We've made considerable progress from older style wind plants. Today, turbines as tall as high rises with turbines almost as wide in measurement prepare for action all throughout the planet. Wind energy turns a turbine's sharp edges, which takes care of an electric generator and produces power. Wind, which represents somewhat more than 6% of U.S. age, has become the least expensive fuel source in numerous pieces of the country. Top breeze power states incorporate California, Texas, Oklahoma, Kansas, and Iowa, however turbines can be put anyplace with high wind rates like ridges and open fields or even seaward in untamed water.
Hydroelectric Power
Hydroelectric Power
Hydropower is the biggest sustainable power hotspot for power in the United States, however wind energy is before long expected to assume control over the lead. Hydropower depends on water commonly quick water in an enormous waterway or quickly diving water from a high point and converts the power of that water into power by turning a generator's turbine sharp edges. Broadly and globally, huge hydroelectric plants or super dams are frequently viewed as nonrenewable energy. Uber dams redirect and decrease common streams, confining access for creature and human populaces that depend on waterways. Little hydroelectric plants (an introduced limit underneath around 40 megawatts), painstakingly oversaw, don't will in general reason as much natural harm, as they redirect just a negligible portion of stream.
Biomass Energy
Biomass Energy
Biomass is natural material that comes from plants and creatures, and incorporates crops, squander wood, and trees. At the point when biomass is singed, the compound energy is delivered as warmth and can create power with a steam turbine. Biomass is frequently erroneously portrayed as a spotless, inexhaustible fuel and a greener choice to coal and other non-renewable energy sources for creating power. In any case, late science shows that numerous types of biomass particularly from backwoods produce higher fossil fuel byproducts than petroleum derivatives. There are additionally unfortunate results for biodiversity. All things considered, a few types of biomass energy could fill in as a low-carbon alternative under the right conditions. For instance, sawdust and chips from sawmills that would some way or another rapidly deteriorate and discharge carbon can be a low-carbon fuel source.
Geothermal Energy
Geothermal Energy
In the event that you've at any point loose in an underground aquifer, you've utilized geothermal energy. The world's center is probably just about as warm as the sun's surface, because of the sluggish rot of radioactive particles in rocks at the focal point of the planet. Penetrating profound wells carries hot underground water to the surface as an aqueous asset, which is then siphoned through a turbine to make power. Geothermal plants commonly have low emanations on the off chance that they siphon the steam and water they use once more into the supply. There are approaches to make geothermal plants where there are not underground supplies, but rather there are worries that they may build the danger of a seismic tremor in regions previously viewed as topographical problem areas.
Atomic force, the utilization of supported atomic parting to create warmth and power, contributes almost 20% of the power produced in America. The United States has utilized atomic force for over 60 years to create solid, low-carbon energy and to help public protection exercises. The Energy Department's Office of Nuclear Energy's essential mission is to progress atomic force as an asset fit for making significant commitments in gathering our country's energy supply, ecological, and energy security needs. By zeroing in on the improvement of cutting edge atomic advances, NE upholds the Administration's objectives of giving homegrown wellsprings of secure energy, lessening ozone depleting substances, and upgrading public safety. Atomic force stays a significant piece of our country's energy portfolio, as we endeavor to diminish fossil fuel byproducts and address the danger of worldwide environmental change.
Biomass is a natural environmentally friendly power source that incorporates materials like farming and timberland buildups, energy yields, and green growth. Researchers and architects at the Energy Department and National Laboratories are discovering new, more productive approaches to change over biomass into biofuels that can replace ordinary fills like gas, diesel, and fly fuel. Bioenergy can help guarantee a monetarily strong and secure future while decreasing natural effects through: 1.Developing moderate homegrown fills and co-items 2. Propelling clean fuel sources 3.Generating homegrown responsibilities to help the development of the U.S. bioeconomy. Innovative work to change inexhaustible carbon and waste assets into feedstocks for transformation to biofuels, bioproducts, and bio power will reasonably grow biomass asset potential in the United States.
Hydrogen and Fuel Cells
Hydrogen and Fuel Cells
The Hydrogen and Fuel Cell Technologies Office (HFTO) centers around exploration, advancement, and exhibit of hydrogen and power module advances across various areas empowering development, a solid homegrown economy, and a perfect, evenhanded energy future. Hydrogen is the least difficult and most bountiful component known to man. It is found inside water, petroleum derivatives, and all living matter, yet it seldom exists as a gas on Earth—it should be isolated from different components. There are different homegrown assets that can be utilized to deliver hydrogen, including renewables (wind, sun oriented, hydropower, biomass, and geothermal energy), atomic force, and petroleum products (like flammable gas and coal – with carbon catch and sequestration). The U.S. at present creates in excess of 10 million metric huge loads of hydrogen each year, around one-seventh of the worldwide inventory.

What is LEED Certification?

It’s no secret that not all buildings are created equal. That applies to both aesthetics and sustainability. Homes and other buildings that don’t use sustainable design and building methods have higher utility bills, lower air quality, and potentially harmful substances in their paints and finishes. That’s bad for you and your wallet. That’s where LEED […]

The post What is LEED Certification? appeared first on Chariot Energy.

It’s no secret that not all buildings are created equal. That applies to both aesthetics and sustainability. Homes and other buildings that don’t use sustainable design and building methods have higher utility bills, lower air quality, and potentially harmful substances in their paints and finishes. That’s bad for you and your wallet. That’s where LEED […]

The post What is LEED Certification? appeared first on Chariot Energy.

It’s no secret that not all buildings are created equal. That applies to both aesthetics and sustainability. Homes and other buildings that don’t use sustainable design and building methods have higher utility bills, lower air quality, and potentially harmful substances in their paints and finishes. That’s bad for you and your wallet.

That’s where LEED comes into play! As the most widely accepted framework for sustainable and green building design in the world, it ultimately makes our lives, health and planet a better place.

What is LEED?

LEED stands for Leadership in Energy and Environmental Design, and it’s the basis for high-quality sustainable design and construction around the world. Created in 1993 by the United States Green Building Council (USGBC), LEED uses a point-based system to grade a home or building’s sustainability level. 

The number of points a building can receive depends on extensive criteria that fall into the following categories:

  • Location and transportation
  • Sustainable sites
  • Water efficiency
  • Energy and atmosphere
  • Materials and resources
  • Indoor environmental quality
  • Innovation
  • Regional priority

Factors like available bicycle racks, daylight, interior lighting and even access to quality public transit can all affect a building’s LEED point score. However, those factors can vary depending upon which LEED rating system is used. 

The 8 Main Types of LEED Rating Systems

Any building can be eligible for LEED certification, but not all buildings are graded equally. For example, schools aren’t assigned points in the same way that a home is. Each project has its own unique scorecard based on the following eight categories of LEED v4, the newest version of green building standards:

  1. BD+C: Building Design and Construction. Used for new buildings and major renovations, it usually covers buildings, but it can also sometimes cover apartment complexes with nine or more stories.
  2. ID+C: Interior Design and Construction. It’s mainly geared toward the design and construction of commercial building interiors, such as retail stores, hotels, and restaurants.
  3. O+M: Building Operations and Maintenance. This rating system applies to existing buildings undergoing surface-level changes with little or no plans for construction. 
  4. ND: Neighborhood Development. It’s designed for neighborhood and community developments rather than a singular household or street. 
  5. Homes: Builders use this system applies for single-family homes and low- to mid-rise multifamily homes, typically some type of apartment complex. 
  6. Cities and Communities: This system encompasses entire cities and communities based on factors such as emissions, water, waste, transportation, education, prosperity and more.
  7. LEED Recertification: Employed for buildings that have already been certified by LEED, it makes sure they are up-to-par with the most recent LEED guidelines. 
  8. LEED Zero: A newer, more difficult standard, it provides the highest level of accountability for already-certified LEED buildings. These projects have some type of net-zero goal, either carbon neutrality, zero waste, energy-neutral or water-neutral. 

The 4 Levels of LEED Certification

After tallying the points, each building receives a grade, and it must earn a minimum of 40 points to earn the title of LEED-certified green construction. There are four possible scores you can achieve, each increasing in difficulty and rigor:

  1. Standard – 40-49 points
  2. Silver – 50-59 points
  3. Gold – 60-79 points
  4. Platinum – 80+ points

The higher the score, the better of a designation you receive as a mark of your building’s sustainability. 

The Importance of LEED Certification

Not only does a LEED certification carry a lot of clout, but it also provides homes and businesses with some serious financial, environmental and health benefits.

  1. LEED saves money on energy costs. The better designed your home or building is, the less energy it will need to maintain operations and keep the lights on. 
  2. LEED buildings use less water. Clean water is becoming an increasingly scarce source in today’s world. LEED buildings ensure that your building uses water responsibly.
  3. LEED improves indoor air quality. LEED plays a critical role in reducing smog and keeping employees healthy simply by ensuring the air you breathe is clean and free of unwanted particles.
  4. LEED improves the quality of life. With criteria such as quality views, daylight, thermal comfort and interior lighting, LEED promotes a better quality of life by creating healthy spaces. Additionally, employers in LEED-certified spaces report higher recruitment and retention rates and increased employee productivity.1

LEED Moves Humanity Forward

Although slow to become adopted by society, green living and sustainability are here to stay, and that definitely applies to homes and businesses around the world. The U.S. Green Building Council’s LEED certification program is one of the many ways that humanity has created to move us in the right direction. 

Every day, we grow increasingly dependent on everyone to do their part and take care of our planet. At Chariot, we’re helping thousands of Texas residents and business owners do their part by providing 100% solar energy plans with no panels required. 

The only question remains: What are you going to do? 



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