LMES_COLLECTOPIA_seasonalstorage - title

LMES_COLLECTOPIA_seasonal storage Test System Model

LMES_COLLECTOPIA_seasonalstorage - overview

Test System Model Overview

Author / organization: Stephan Seidelt, Daniel Fehrenbach / EIFER

Component Models:

Test Parameters: Cost parameters, heat and electricity demands as well as CO2 grid factor from France are used

Outputs/Measured Parameters:

  • overall system costs
  • capacities of the technologies

LMES_COLLECTOPIA_seasonalstorage - input


Related System Configuration

Collectopia (EDF) System Configuration

Related Test Case

Seasonal storage

Related Use Case

UC14 – Optimal design of CHP and heat storage

LMES_COLLECTOPIA_seasonalstorage - description

Short Description

A Local multi energy system (LMES) can consist of many different energy production technologies, such as gas-driven boilers and CHPs, HPs, PV panels, DHN, electricity and heat storage facilities as well as imports and exports of electricity from the grid. The electricity and heat demands of the buildings located in a LMES have to be met at all times, either by self-production or by imports from the external grid. The overall costs of the LMES are the discounted net total of all CAPEX, OPEX, fuel costs, electricity imports as well as revenues from exports. In addition, CO2 emissions can be considered with the help of a CO2 price. A least-cost planning approach determines the configuration of the LMES with the lowest overall costs.

The test case is used to calculate the system costs of the Collectopia Reference Energy Systems (RES) to find out if seasonal storage is economically feasible considering CO2 savings.

LMES_COLLECTOPIA_seasonalstorage - details

Test System Model Details