{{building.bldg_name}}

Building Type {{building.bldg_type}}
Building Location {{building.bldg_address}}
Gross Floor Area (m2) {{building.bldg_area}}
Closest Weather Station {{weather_instance.closest_weather_station_ID}}:{{weather_instance.closest_weather_station_name}}

{% if building.recent_annual_electricity_kWh %} {% else %} {% endif %} {% if building.recent_annual_fossil_fuel_kWh %} {% else %} {% endif %} {% if building.recent_annual_electricity_cost %} {% else %} {% endif %} {% if building.recent_annual_fossil_fuel_cost %} {% else %} {% endif %} {% if building.recent_annual_electricity_EUI %} {% else %} {% endif %} {% if building.recent_annual_fossil_fuel_EUI %} {% else %} {% endif %} {% if building.total_energy_savings_last_year_e %} {% else %} {% endif %} {% if building.total_energy_savings_last_year_f %} {% else %} {% endif %} {% if building.total_energy_savings_pct_last_year_e %} {% else %} {% endif %} {% if building.total_energy_savings_pct_last_year_f %} {% else %} {% endif %}
Electricity Fossil Fuel
Annual Consumption (kWh){{building.recent_annual_electricity_kWh}}No electricity data{{building.recent_annual_fossil_fuel_kWh}}No fossil fuel data
Annual Cost ({{currency_str}}){{building.recent_annual_electricity_cost}}No electricity data{{building.recent_annual_fossil_fuel_cost}}No fossil fuel data
Annual Site EUI (kWh/m2){{building.recent_annual_electricity_EUI}}No electricity data{{building.recent_annual_fossil_fuel_EUI}}No fossil fuel data
Annual Energy Savings (kWh){{ building.total_energy_savings_last_year_e|round }}No electricity data{{ building.total_energy_savings_last_year_f|round }}No fossil fuel data
Annual Energy Saving Percentage (%){{building.total_energy_savings_pct_last_year_e}}No electricity data{{building.total_energy_savings_pct_last_year_f}}No fossil fuel data

   Note: The annual savings were calculated based on the latest 12 months data found in the database.


Saving Potentials

Target Selection: {{building.saving_target_str}}

Potential Cost Savings:

{{currency_str}} {{building.total_cost_savings}}

Potential Percent Savings:

{{building.total_energy_savings_pct}}%

Energy Efficiency Recommendations
    {% for FIM in building.FIM_list %}
  • {{FIM}}
    • {% endfor %}
Details
{{ saving_bar_chart|safe }}
{{ saving_pie_chart|safe }}
{% if building.energy_savings_fig_e %} {{building.energy_savings_fig_e}} {% else %}

No electricity data

{% endif %}
{% if building.energy_savings_fig_f %} {{building.energy_savings_fig_f}} {% else %}

No fossil fuel data

{% endif %}

Weather Sensitivity and Benchmarks

Daily electricity and fossil fuel use per floor area is plotted below against monthly average outdoor air temperature. When energy use goes up at low temperatures on the left side of the graph, it represents heating energy. When energy use goes up at high temperatures on the right side of the graph, it represents cooling energy. The flat part of the graph shows the building's base load.
{% if building.im_electricity and building.im_electricity.model_description_html %} {{building.im_electricity.model_description_html}} {% endif %}
{% if building.im_electricity and building.im_electricity.model_description_html %}

Electricity Change-point Model (R2={{ '%0.2f' | format(building.im_electricity.r2|float) }})


{{building.im_electricity.model_chart_html}} {% else %}

Electricity Model: No reasonable change-point model could be found for this building's electricity consumption. Possible reasons are:

  • Insufficient utility data: BERSET requires at least 12 consecutive months of utility data.
  • The energy consumption is not weather sensitive.
  • There are abrupt changes in the energy use intensity trend.
What should I do if BERSET cannot fit a change-point model for my building?
If a model can't be fit on the first try for a building, consider doing one of the following and re-running the analytics:
  • Review the Building Information Tab: Utility Consumption Trends chart. Ensure 12 consecutive months of electricity and/or fossil energy consumption data is entered for the building.
  • Review the Building Information Tab: Utility Consumption Trends chart. Remove the consecutive months of data that have abnormal patterns (e.g., extremely low or high energy use intensity (EUI), sudden changes).
  • Reduce the number of years of data used to fit a model (generally one to two years is sufficient).

{% endif %}

Electricity Consumption Benchmarking

{{building.benchmarking_bar_base_e_html}} {{building.benchmarking_bar_hsl_e_html}} {{building.benchmarking_bar_hcp_e_html}} {{building.benchmarking_bar_csl_e_html}} {{building.benchmarking_bar_ccp_e_html}}

Note: % indicate the percentage of buildings your building is superior to.

Details
{% if building.im_fossil_fuel and building.im_fossil_fuel.model_description_html %} {{building.im_fossil_fuel.model_description_html}} {% endif %}
{% if building.im_fossil_fuel and building.im_fossil_fuel.model_description_html %}

Fossil Fuel Change-point Model (R2={{ '%0.2f' | format(building.im_fossil_fuel.r2|float) }})


{{building.im_fossil_fuel.model_chart_html}} {% else %}

No fossil fuel consumption data is provided or no significant change-point model for fossil fuel was found.

{% endif %}

Fossil Fuel Consumption Benchmarking

{{building.benchmarking_bar_base_f_html}} {{building.benchmarking_bar_hsl_f_html}} {{building.benchmarking_bar_hcp_f_html}} {{building.benchmarking_bar_csl_f_html}} {{building.benchmarking_bar_ccp_f_html}}

Note: % indicate the percentage of buildings your building is superior to.

Details

Energy Efficiency Measure Recommendations

More details on each energy efficiency opportunity identified

{% for FIM in building.FIM_list %}

{{FIM}}

{{FIM_dict[FIM]}}

{% if FIM == "Reduce Lighting Load" %} Equans Relighting Expertise {% elif FIM == "Reduce Equipment Schedules" %} Equans Building Management System Expertise {% else %} Equans Building Energy Management Expertise {% endif %} {% endfor %} {% if not building.FIM_list %}

No recommendation is available.

{% endif %}

Understand the Model

Baseload

Energy consumption of all non-weather-related equipment like computers and lighting. The lower the baseload, the less the energy consumed in plugs and permanently plugged equipment.

Cooling Sensitivity

Cooling system energy consumption for each degree increase in outdoor temperature. Low cooling sensitivity results in less energy-consuming cooling system.

Cooling change-point

The temperature at which cooling system starts. Below the cooling change point, the cooling system is not operational.

Heating Sensitivity

Heating system consumption of energy for each degree decrease in outdoor temperature. Low heating sensitivity results in less energy-consuming heating system.

Heating change-point

The temperature at which heating system starts. Above the heating change point, the cooling system is not operational.

Disclaimer

The data in this report is subject to error and may not be accurate enough for your application. You agree not to hold the developers, contributors, hosts of the BERSET web application, EQUANS, and BOUYGUES liable for any inaccuracies in the data, or consequences thereof, or for any claims brought by any third party regarding their data contributions.