How do you calculate your energy footprint?

How To Calculate Your Carbon Footprint

  1. Multiply your monthly electric bill by 105.
  2. Multiply your monthly gas bill by 105.
  3. Multiply your monthly oil bill by 113.
  4. Multiply your total yearly mileage on your car by .79.
  5. Multiply the number of flights you’ve taken in the past year (4 hours or less) by 1,100.

What is the embodied energy of a material?

embodied energy is the energy consumed by all of the processes associated with the production of a building, from the mining and processing of natural resources to manufacturing, transport and product delivery. embodied energy does not include the operation and disposal of the building material.

What is the embodied energy of a building?

The embodied energy of a building is a calculation of all the energy used to produce the materials that make up the building. It includes the energy used in mining, manufacturing and transporting the materials, as well as the services in the economy that support these processes.

Is embodied energy similar to LCA?

Embodied carbon assessment is a subset of a broader discipline called Life Cycle Assessment (LCA) which covers a range of different environmental impacts. As such, many of the principles are equally applicable to both assessment methods.

What is the difference between CO2 and CO2e?

This way, the main difference between CO2 and CO2e is that CO2 onlyaccounts for carbon dioxide, while CO2e accounts for carbon dioxide and all the other gases as well: methane, nitrous oxide, and others.

How do I calculate CO2 emissions from kWh?

I.C. Estimation method used in the tool The emission factor-based methodology estimates GHG emissions by multiplying a level of activity data (e.g., kWh of electricity consumed by a facility) by an emission factor (e.g., grams of CO2 per kWh).

How many Earth would we need if everyone lived like you?

Here’s how we calculate that, using the United States as an example: The Ecological Footprint for the United States is 8.1 gha per person (in 2018) and global biocapacity is 1.6 gha per person (in 2018). Therefore, we would need (8.1/ 1.6) = 5.1 Earths if everyone lived like Americans.

What is total embodied energy?

Embodied energy is the energy that is consumed in order to build a given usable object. This includes the energy from material extraction, refining, processing, transporting, and fabricating.

Which material has the highest embodied energy?

Embodied energy of common materials Generally, the more highly processed a material, the higher its embodied energy. Buildings typically use a large amount of materials with relatively low embodied energy (for example, bricks and timber) and smaller amounts of materials with high embodied energy (for example, steel).

How much embodied energy is in concrete?

Embodied energy of common materials

Material Embodied energy MJ/kg
Ceramic tile 18.9
Clay brick 3.5
Concrete roof tile 4.3
Concrete 25MPa 1.1