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The connection between monitoring energy use and care about the environment launched our company -- and could benefit you as well!

One of Emporia Energy‘s central pillars commits the company to making the world a better place.  And in truth, we founded the company based upon enthusiasm for the imminent shift towards sustainability and decarbonization.  In brief, thanks to tech advances, renewable energy now stands on equal or better footing than fossil fuels for electricity generation.  Therefore, Emporia’s care about our environment stems naturally from its bid to “make the world better.”

For us at Emporia, it is natural to connect energy awareness at home to care for our planet.  However we realize that this “natural” connection between energy use and care about the environment may not appear so obvious to everyone.  Therefore, we have prepared this post to make that connection more explicit, especially with respect to carbon emissions.  

Photo of interior of Emporia Energy offices in Littleton, CO where a wall lists the company's central pillars, one of which is to "make the world better"
Emporia Energy’s central pillars stenciled on the wall of their offices in Littleton, CO

The Emporia App as Centerpiece

Because of the genesis described above, Emporia Energy’s app provides  ready access to describing this connection.  Therefore, we will use it to illustrate the link between energy and care of our environment.  If you haven’t already done so, please download the Emporia app on either the App Store or Google Play.  Any user can sample a demo version and doing so will enhance your understanding of this post.  

Home Page and Data Source

The app’s Home Page provides graphical views for current power and historical energy usage.  For user convenience and preference, users may select various unit settings (i.e., Watts, Carbon, Dollars, etc.) and views of time increments (i.e., Now, Minute, 15-minute, etc.).  

All raw data for graphs derives from measurements made by Vue hardware installed in a home.  If you have yet to gain a Vue, you may click here to purchase.  Our game-changing pricing makes it a no-brainer for payback!

Vue Hardware Measurement

Vue hardware measures current (aka ‘amperage’) flowing through breaker-box electrical lines.  Voltage is assumed at 120V, whether it draws from an outlet plug or hardwire in the panel.  

The Base Unit of Power: Watts

The Vue uses amperage data and assumed voltage to calculate power (in watts, W).  For reference, a single watt represents a small unit of power.  Therefore, it is more common homeowners and renters to speak in terms of kilowatts (kW – or 1,000 watts).  

1 kW = 1,000 W

Power vs. Energy


As indicated above, W and kW are common units of power, which is distinct from energy.  To aid understanding, think about power like water flowing from a faucet.  If you open the faucet valve only a little, a small flow results.  Open the valve all the way to produce maximum flow.  Imagine power as the force your thumb would experience if you tried stopping the flow by hand.  Of course, you can feel free to try this experiment at home.  Just be prepared to clean up if you use your kitchen sink rather than an outdoor spigot!


In contrast, think about energy in terms of the volume (or weight) of water captured in a container under that faucet.  Clearly, that volume is determined by the flow rate and the amount of time the faucet is left on.  Obviously, a small flow left on for a long time can produce as much volume (or weight) as maximum flow for a short time.  Identical with energy, where small power uses over a long time can use as much energy as short bursts at high power.  The most common unit of electrical energy is the kilowatt-hour (kWh), making clear the component of time. 

1 kWh =1,000 watts of power used for one hour100 watts of power used for 10 hours10 watts of power used for 100 hours

Power, Energy, and Dollars Viewed in Real Time and in Aggregate

With explaining the basic units of power and energy behind us, we can now look at another setting, Dollars, before proceeding to carbon emissions.  

Starting with the Watt setting, the Now view shows real-time power in W or kW, depending on your current rate of use.  Data updates at a rate of once per second with the Vue.  Moving to the Minute and 15-Minute views shows average power experienced over those increments.  In contrast, once the view pans out to Hour, Day, Week, Month, or Year, it is more convenient to think in terms of energy (kWh).  Of interest, this is the unit for which utilities charge for usage.  The average charge rate in the US sits at about $0.129 per kWh, but varies by state and utility.  Using the appropriate rate for your utility, calculations for the Dollars setting are pretty straightforward.  

kWh  x  price per kWh = cost of energy


The next setting option is Carbon, which for app purposes is shorthand for carbon dioxide, CO2.  However, prior to explaining options for expressing the units of CO2 emissions, let’s first examine why carbon is important.  

Carbon Dioxide Gas

CO2 is the greenhouse gas most responsible for climate change.  It is a natural byproduct of burning plant matter and fossil fuels.  The amount of CO2 produced relates directly to the mass and chemical structure of what is burnt.  Therefore, we calculate the amount of CO2 sent into the atmosphere using simple conversion factors — just like the charge rate for utility billing.  The current conversion factor for grid electricity across the US sits at about 0.4565 kilograms CO2 per kWh (or right at 1.0 pounds CO2 per kWh).

1 kWh =0.4565 kg CO2 per kWh1.004 lbs CO2 per kWh

Fuel to Produce Grid Electricity

We note that the conversion factor sited above is a weighted average across the US.  However, we will see that this value can vary greatly depending on how electricity is produced in a given location at a given time.  

Grid electricity may be produced from various carbon sources, including coal, natural gas, oil, and woody plant matter.  Alternatively, it may derive from non-carbon sources including nuclear, hydro, wind, solar, and geothermal.  By region or state, the mix of fuel sources producing electricity causes the average CO2 emission rate to vary widely.  It can also change greatly when extra power is required to match demand spikes.  For example, the conversion factor may be as low as 0.1345 kg CO2 per kWh for the Upstate NY grid with lots of hydro and nuclear.  In contrast, it may be as high as 0.7633 kg CO2 per kWh for parts of the Upper Midwest relying mainly on coal and natural gas.  

Carbon Emissions for Our Homes

We now appreciate mass units for CO2 emissions from the grid and can set about explaining their relevance to operating our homes.  

To Produce Electricity

At about 1,850 square feet, the average American home uses 11,764 kWh of electricity per year.   Consequently, the average home emits about 5,370 kg CO2 per year.  However, this number increases in proportion to square footage.  In other words, at 2,500 square feet, the average new home is about 35% larger than the average of all homes in the US.  Therefore, it emits 7,250 kg CO2 per year.

For the average US home:

But for the average new US home:

To Produce Heat

In addition to using electrical power, many homes require heating.  Most typically, heat derives from burning natural gas, propane, or oil.  Nevertheless, electrical heating is also common.  

Those of us using natural gas or propane tend to produce just over 4.1 metric tonnes of CO2 per year.  In a similar manner, those relying on heating oil release just over 5.0 metric tonnes of CO2 per year.  Given that new homes tend to be larger than existing houses, we choose to use the larger value for the purposes of the rest of this article.  As a result, the average US home produces on the order of 5.0 metric tonnes of CO2 per year for heating.  Clearly, not every home will require this level of heating (see: A Note on Numbers below).  

Other Ways of Explaining Units and CO2 Emissions

Gallons of Gasoline and Miles Driven

No surprise at this point, but it is also possible to use conversion factors to put energy use in other terms.  Just as we succeeded in explaining CO2 emissions units for electricity and heating, so too can we develop other units.  For example: gallons of gasoline or miles driven in a car.  Again, the math is straightforward using the following conversion factors:

  • 8.887 kg CO2 per gallon of gasoline
  • 0.404 kg CO2 per mile driven (by an “average” car at 22.0 miles/gallon)


So far, we have addressed only the amount of carbon released to the atmosphere through burning.  However, it is also possible to store carbon.  After all, that is how carbon finds itself in plant matter and fossil fuels in the first place!  In short, plants use CO2 as a building block for growth.  And ultimately by eating plants, animals do as well.  As a result, CO2 is pulled from the atmosphere to become part of any living thing.  This statement applies to everything from bacteria in the soil to plants growing in that soil.  Of these plants, trees are the most visible – and perhaps the most effective – living things for long-term storage of carbon.  

For this reason, Emporia’s app also provides a Trees setting to view usage in terms of an “average” 10-year-old urban tree.  That is to say, this setting corresponds to the amount of CO2 contained in a 10-year-old tree.  Of note, this is not a “real” tree, but rather a mathematical composite of common leafy and evergreen varieties.  

Again, with appropriate conversion factors, the math is relatively simple: 

  • 1 average urban tree = 60.6 kg CO2
  • 1 average urban tree = 133 pounds CO2

Impact of the Average US Home

As we have seen, the average US home (at 1,850 square feet) releases about 10.4 metric tonnes CO2 per year.  Of this, about 5.4 metric tonnes derives from electricity and another 5.0 metric tonnes from heating.  Using the conversion factors above, we calculate that this equates to 172 average urban trees per year.  We can further calculate that for every 133 kWh we consume in electricity, we on average release the equivalent of one tree’s worth of carbon to the atmosphere.  By this math, the average US home releases carbon equivalent to 7.4 trees per month in electricity — and another 7 through heating. 

In addition to the trees of carbon we emit for electricity and heat, we also release CO2 through other activities.  We have already seen the relationship for driving our cars.  But what about our airplane travel?  The food we eat?  Or the products we purchase?  Each of these behaviors comes with its own impact with respect to climate change.  Often, these activities will double our annual CO2 output — to 20 metric tonnes CO2 per year or more!  

Making the Connection Between Energy and Care About Our Environment

At this point, the connection between energy and care about our environment should be clear.  Electricity generation typically emits carbon by burning at least some fossil fuel.  Although solar and wind generation helps decrease the amount of direct combustion required for energy, we are a long ways from full decarbonization.  And the more carbon we burn, the more greenhouse gas we emit into the atmosphere, thereby impacting our environment.  

Why It Matters

Americans increasingly accept the role that their energy habits play in climate change.  This dramatic shift in global weather patterns threatens infrastructure and supply chains that benefit our economy.  Therefore, we all have a large stake in demonstrating care about our environment.  And we need to do so in concrete, meaningful, and immediate ways.  

Care By Monitoring Energy Use in Your Home

Purchasing and installing a home energy monitor provides the most immediate method by which we can all care about our environment.  Studies suggest that such awareness can lead to decreases in energy consumption on the order of 10% or more.  Per our discussion above, this decrease corresponds directly to a similar reduction in carbon emissions.  This is why Emporia developed its own platform for measuring usage data directly and delivering that data back to consumers in real time on their mobile devices.  

In developing our own platform, we at Emporia clearly determined to examine the options available on the market.  We feel that our solution combines the best of the offerings available — and does so at highly favorable pricing.  We summarize our findings and provide a convenient comparison table here.  

Care By Offsetting Impact with Carbon Credits

Recall the two-way conversion of plant matter to CO2 and CO2 to plant matter.  Given that relationship, we can easily use the Emporia app to put our own energy consumption in terms of trees burnt.  This provides a strong image for the impact of our energy decisions at home.  Most of us who care about the environment will find that image alarming.  

However, Emporia offers a method to reduce or even to offset completely this impact!  By purchasing certified carbon credits, you can help reduce your net carbon footprint.  At a minimum, you may wish to use your Vue to track the credits needed to offset your electricity footprint.  Next, you may choose to offset your heating impact.  Then you could chip away at other elements: car miles, flight miles, food, or an average basket of consumer products.  Finally, the most motivated among us may even consider not just this and future years of impact, but those years that came before.  Or perhaps decades — or even a lifetime!

Regardless, Emporia makes purchasing certified carbon credits easy and convenient.  Further, you may be surprised to learn how affordable it is to reduce your impact and show your care about the environment.  Click here to proceed directly to offsetting your own carbon emissions. 

A Note on Numbers

Individuals Can Get Lost

Admittedly, this post presents a fair amount of math as well as example calculations.  Many of these examples use more than a few decimal places for conversion factors, power, or energy.  This level of detail may imply more precision than is valid.  So be aware.  

As cited throughout this post, these values come from reliable third-party studies.  However, we should also acknowledge that the studies look at large and complex data sets.  Therefore, a phrase comes to mind regarding statistics, the field used to examine large data sets.  Specifically, “it is great for populations, but really poor for individuals.”  In other words, the results of large studies can net really good information: for a large group and at a high level.  

However, using those numbers to apply to each individual in the group will likely lead to large errors.  Few of us are average — and most of us will only approximate average behavior.  Think about the “average” tree described above.  No real tree is part deciduous and part coniferous!  Nevertheless, it is helpful to imagine — and to calculate — what that tree could look like when thinking of a large population of trees.  The same goes for humans.  

So Find Your Place in the Crowd in Three Easy Steps

Consequently, the numbers derived from large-scale studies can yield plenty of good information to guide our behavior.  Further, tools such as Emporia’s Vue platform can provide the insight to translate large study results into terms in scale with individual impact.  For this reason, Emporia puts great stock into customizing its app experience for unique users and households.  Take advantage of Emporia’s ability to deliver bespoke data in three easy steps.  

Step 1: Try Emporia’s Software

Download Emporia’s app on either the App Store or Google Play.  Any user can sample a demo version of this app and provide feedback.  But the app becomes so much more powerful when installed with Vue hardware!  So be sure to complete the second step below, either before or after downloading the Emporia app.  

Step 2: Purchase Emporia Vue Hardware

Installed behind your home’s main breaker panel, the Vue works in just about any market.  Though homeowners can often complete this installation in 15-20 minutes, Emporia nonetheless recommends hiring a qualified electrician.  However, as a reward for installation, the Vue provides highly granular data and the ability to monitor individual circuits.  Better yet, the Vue’s breakthrough pricing makes it available to ALL consumers!  

Click here to choose your Vue!

Step 3: Show Your Care About Our Environment

With real-time data, you will now be in control of your impact — and your ability to care about our environment.  As indicated, you are likely to save on the order of 10% emissions through actions that lead you to decrease unnecessary energy waste.  The good news is that so doing will also save you money and more than pay back your purchase of the Vue.  This money in turn could be applied towards carbon offsets to mitigate the impact for energy you cannot avoid using!


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