Abstract
Residential buildings claim a significant share of the total energy use worldwide. In order to have more realistic energy performance predictions, increased attention is paid to the analysis of the building’s energy use through comprehensive, transient detailed numerical simulations. In this article, the self-consumption and self-sufficiency values of three detached residential buildings are assessed through numerical models made in the programming language Modelica and software tool Dymola. The three buildings have the same structure and different space heating energy demands of 15 kWh/m2year, 30 kWh/m2year and 45 kWh/m2year. The energy use of the buildings coincides with the occupancy profile where domestic hot water use dominates over the space heating demand provided by an air to water heat pump. The discrepancy between renewable energy production and energy consumption is mitigated by means of thermal load shifting and electrical energy storage. In this research, the self-consumption and self-sufficiency of the studied buildings have been analysed as a function of the economically favourable energy storage sizing. For the use of an electrical battery with the installed capacity of 2.5 kWh and thermal energy storage of 250 l, the self-sufficiency results to be 40%, 38.5% and 37% for the three buildings respectively at the specific simulated energy demand conditions.
Highlights
The three case buildings were simulated at the same weather conditions, occupancy behaviour, appliances and domestic hot water requirements (DHW) demand and with the mismatching space heating energy demand
The buildings were simulated under the same boundary conditions for the space heating and daily hot water (DHW) energy demand
In order to inspect the impact of thermal load shifting and electrical energy storage on the case buildings, a thermal energy storage of 250 l and electrical energy storage of 2.5 kWh were applied
Summary
The energy use by residential buildings account for 25.71% of the European Union’s (EU) final energy use in the year 2016 making it the largest energy demanding sector after transport [1]. The EU legal forces have introduced new, more challenging targets within “The 2030 climate and energy framework” According to this policy, the member countries of the EU are encouraged and obliged to apply strategies that will lead to at least: 40% cuts in the greenhouse gas emissions from the 1990 levels, 32% share of renewable energy and 32.5% improvement in energy efficiency [4]. Scope and definitions At the present time, renewable energy systems (RES) such as photovoltaic panels (PV), heat pumps (HP) and solar thermal panels (STP) are finding an outstanding breach on the residential building market [7] With their ability to generate the energy on site, a building becomes less dependent on the external grid leading to a certain potential of self-sufficiency value. Special attention is given to the building system equipment sizing, configuration and controlling strategy
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