U2A-Peak load variation management

{"document_type":"cluster","scis_id":"ruggedised-ume-_ict_u2a-peak-load-variation-management","cluster_type":"ict","ict_general":{"ict_name":"Peak Load: By using the buildings as thermal energy storage it is possible to even out peak load variations of the buildings, whose structure itself functions as an accumulator of heat energy. Depending on the composition of the structure of buildings, more or less heat can be stored and  used for load shaving.  Within this solution, additional monitoring (sensors) and energy management units will be installed in the buildings and programmed according to the building physics, wheather conditions, tenant activities and other parameters. The energy management units are also configured to communicate with other buildings in an open network cluster where web-based informatin platform will be developed and results shared for benchhmaring purposes. The information platform will involve parts of the campus area, the hospital and the students\u2019 apartments. In terms of impact, this measure can guarantee a reduction in energy consumption for heating of about 2-8%, depending on building physics and the type of activities of tenants (living, health services, trade, academia, etc.).  ","ict_foa_type":"Energy System(s) Integration","ict_foa_type_esi":"Neighbourhood Energy Management System","ict_foa_year_completion":"2018.12.21"},"ict_kpis":{"ict_reliability":[{"key":"ict_reliability","kpi_name":"Reliability in terms of power interruptions","unit":"number\/a","baseline":0,"intervention":0},{"key":"ict_power_quality_supply","kpi_name":"Power Quality and Quality of Supply (DSO+TSO): Time needed for awareness of grid faults","unit":"minutes","baseline":0,"intervention":0}],"ict_infrastructure":[{"key":"lampposts","kpi_name":"Amount of smart lampposts","unit":"number","baseline":0,"intervention":0}],"ict_system_integration":[{"key":"ict_increased_flexibility","kpi_name":"Flexibility from energy players by increase of load capacity participating in demand side management","unit":"MW","baseline":0,"intervention":0.114},{"key":"ict_energy_reduction_cost","kpi_name":"Energy price (averaged over a year)","unit":"\u20ac\/kWh","baseline":0.0334,"intervention":0.0334,"savings":0},{"key":"ict_peak_load_reduction","kpi_name":"Peak load level","unit":"MW","baseline":0.911,"intervention":0.813,"savings":10.757409440175639},{"key":"ict_increased_hosting_capacity","kpi_name":"RES and DER hosting capacity","unit":"MW","baseline":0,"intervention":0},{"key":"ict_hosting_capacity_electrical_vehicles","kpi_name":"Hosting capacity for electric vehicles and other new loads","unit":"MW","baseline":0,"intervention":0}],"ict_consumers_engagement":[{"key":"ict_number_final_users","kpi_name":"Number of end users involved","unit":"#","baseline":0,"intervention":0},{"key":"ict_people_with_increased_capacity","kpi_name":"Number of people with increased ability to manage their energy consumption","unit":"#","baseline":0,"intervention":0}],"ict_environmental":[{"key":"total_co2_emissions","kpi_name":"Total CO2 Emissions","unit":"kgCO2eq\/a","baseline":77201,"intervention":76223,"savings":1.2668229686143961},{"key":"final_total_primary_energy_demand","kpi_name":"Total Primary Energy Demand (due to the ICT measure implemented)","unit":"kWh\/a","baseline":931503,"intervention":916670,"savings":1.5923727567168329}],"ict_economic":[{"key":"total_investment","kpi_name":"Total Investments (excl. VAT)","unit":"\u20ac","intervention":31545},{"key":"grants","kpi_name":"Grants","unit":"\u20ac","intervention":38685},{"key":"net_energy_savings","kpi_name":"Annual value of improvements","unit":"\u20ac\/a","intervention":0},{"key":"total_operating_costs","kpi_name":"Total Operating costs","unit":"\u20ac\/a","intervention":11860},{"key":"dynamic_payback_period","kpi_name":"Dynamic Payback Period","unit":"a"},{"key":"return_investment","kpi_name":"Return on Investment","unit":"%","intervention":8}],"social":{"social_citizens_involved":0,"social_jobs_created":0.3}},"_id":"cluster:ruggedised-ume-_ict_u2a-peak-load-variation-management","revisions":[{"user":"Tobias.Gunneberg","date":"2022-01-26T19:47:04+01:00","reason":"update"},{"user":"Tobias.Gunneberg","date":"2022-01-26T19:48:41+01:00","reason":"update"},{"user":"Tobias.Gunneberg","date":"2022-03-08T08:16:12+01:00","reason":"Renamed from 'cluster:ruggedised-ume-_ict_u2a--peak-load-variation-management' to 'cluster:ruggedised-ume-_ict_u2-peak-load-variation-management'"},{"user":"Tobias.Gunneberg","date":"2022-03-08T08:22:41+01:00","reason":"update"},{"user":"Tobias.Gunneberg","date":"2022-03-08T09:42:21+01:00","reason":"update"},{"user":"Tobias.Gunneberg","date":"2022-03-08T09:42:49+01:00","reason":"Renamed from 'cluster:ruggedised-ume-_ict_u2-peak-load-variation-management' to 'cluster:ruggedised-ume-_ict_u2a-peak-load-variation-management'"},{"user":"Tobias.Gunneberg","date":"2022-03-08T09:43:58+01:00","reason":"update"},{"user":"Tobias.Gunneberg","date":"2022-03-08T09:51:50+01:00","reason":"update"},{"user":"Tobias.Gunneberg","date":"2022-03-08T09:52:16+01:00","reason":"update"},{"user":"Tobias.Gunneberg","date":"2022-03-08T14:14:52+01:00","reason":"update"},{"user":"Tobias.Gunneberg","date":"2022-03-08T17:07:46+01:00","reason":"update"},{"user":"Tobias.Gunneberg","date":"2022-06-14T11:28:27+02:00","reason":"update"},{"user":"Tobias.Gunneberg","date":"2022-06-20T14:22:45+02:00","reason":"update"},{"user":"Tobias.Gunneberg","date":"2022-06-21T06:40:32+02:00","reason":"update"},{"user":"Daniel Horak","date":"2022-11-02T15:39:31+01:00","reason":"update"}],"mon":{"year_2021":{"ict_general":{"ict_name":"Peak Load: By using the buildings as thermal energy storage it is possible to even out peak load variations of the buildings, whose structure itself functions as an accumulator of heat energy. Depending on the composition of the structure of buildings, more or less heat can be stored and  used for load shaving.  Within this solution, additional monitoring (sensors) and energy management units will be installed in the buildings and programmed according to the building physics, wheather conditions, tenant activities and other parameters. The energy management units are also configured to communicate with other buildings in an open network cluster where web-based informatin platform will be developed and results shared for benchhmaring purposes. The information platform will involve parts of the campus area, the hospital and the students\u2019 apartments. In terms of impact, this measure can guarantee a reduction in energy consumption for heating of about 2-8%, depending on building physics and the type of activities of tenants (living, health services, trade, academia, etc.).  ","ict_foa_type":"Energy System(s) Integration","ict_foa_type_esi":"Neighbourhood Energy Management System","ict_foa_year_completion":"2018.12.21"},"ict_kpis":{"ict_reliability":[{"key":"ict_reliability","kpi_name":"Reliability in terms of power interruptions","unit":"number\/a","baseline":0,"intervention":0},{"key":"ict_power_quality_supply","kpi_name":"Power Quality and Quality of Supply (DSO+TSO): Time needed for awareness of grid faults","unit":"minutes","baseline":0,"intervention":0}],"ict_infrastructure":[{"key":"lampposts","kpi_name":"Amount of smart lampposts","unit":"number","baseline":0,"intervention":0}],"ict_system_integration":[{"key":"ict_increased_flexibility","kpi_name":"Flexibility from energy players by increase of load capacity participating in demand side management","unit":"MW","baseline":0},{"key":"ict_energy_reduction_cost","kpi_name":"Energy price (averaged over a year)","unit":"\u20ac\/kWh","baseline":0.0334,"intervention":0.0334,"savings":0},{"key":"ict_peak_load_reduction","kpi_name":"Peak load level","unit":"MW","baseline":0.811,"intervention":0.622,"savings":23.3046},{"key":"ict_increased_hosting_capacity","kpi_name":"RES and DER hosting capacity","unit":"MW","baseline":0,"intervention":0},{"key":"ict_hosting_capacity_electrical_vehicles","kpi_name":"Hosting capacity for electric vehicles and other new loads","unit":"MW","baseline":0,"intervention":0}],"ict_consumers_engagement":[{"key":"ict_number_final_users","kpi_name":"Number of end users involved","unit":"#","baseline":0,"intervention":0},{"key":"ict_people_with_increased_capacity","kpi_name":"Number of people with increased ability to manage their energy consumption","unit":"#","baseline":0,"intervention":0}],"ict_environmental":[{"key":"total_co2_emissions","kpi_name":"Total CO2 Emissions","unit":"kgCO2eq\/a","baseline":85740,"intervention":63682,"savings":25.7266},{"key":"final_total_primary_energy_demand","kpi_name":"Total Primary Energy Demand (due to the ICT measure implemented)","unit":"kWh\/a","baseline":781476,"intervention":636253,"savings":18.5832}],"ict_economic":[{"key":"total_investment","kpi_name":"Total Investments (excl. VAT)","unit":"\u20ac","intervention":31545},{"key":"grants","kpi_name":"Grants","unit":"\u20ac","intervention":38685},{"key":"net_energy_savings","kpi_name":"Annual value of improvements","unit":"\u20ac\/a","intervention":0},{"key":"total_operating_costs","kpi_name":"Total Operating costs","unit":"\u20ac\/a","intervention":11860},{"key":"dynamic_payback_period","kpi_name":"Dynamic Payback Period","unit":"a"},{"key":"return_investment","kpi_name":"Return on Investment","unit":"%","intervention":8}],"social":{"social_citizens_involved":0,"social_jobs_created":0.3}}}}}