In this paper, we describe the development, implementation and application of a novel mathematical procedure devoted to formulating the daily load profiles of off-grid consumers in rural areas. The procedure aims at providing such profiles as input data for the design process of off-grid systems for rural electrification. Indeed, daily load profiles represent an essential input for off-grid systems capacity planning methods based on steady-state energy simulation and lifetime techno-economic analyses, and for the analysis of the logics to control the energy fluxes among the different system components. Nevertheless, no particular attention has been devoted so far in the scientific literature as regards specific approaches for daily load pro...
Hybrid microgrids represent a cost-effective and viable option to ensure access to energy in rural a...
In the context of estimating the electricity demand of rural areas a set of archetypes of end users ...
In this paper, a model is presented that generates electricity load profiles for individual German h...
In this paper, we describe the development, implementation and application of a novel mathematical p...
The design of reliable and sustainable rural electrification systems relies on accurate prediction o...
Reaching universal access to electricity by 2030 requires a massive deployment of mini-grids in rura...
The lack of access to electricity is a major problem especially for rural areas populations of devel...
Abstract—In this paper a top-down approach to generating load profiles of end-consumers is described...
Rural electricity plans are usually designed by relying on top-down rough and aggregated estimations...
This article is based on a Master Thesis in Energy Economics and Planning1 at Lund Institute of Tech...
Microgrids are suitable electrical solutions for providing energy in rural zones. However, it is cha...
Renewable energy sources become more and more popular among residential electricity customers in Ger...
Off-grid power systems represent one of the key solutions for rural electrification. Most of the ana...
Approximately 27% of the European energy consumption is caused by the domestic sector, where 19% oft...
Hybrid microgrids represent a cost-effective and viable option to ensure access to energy in rural a...
In the context of estimating the electricity demand of rural areas a set of archetypes of end users ...
In this paper, a model is presented that generates electricity load profiles for individual German h...
In this paper, we describe the development, implementation and application of a novel mathematical p...
The design of reliable and sustainable rural electrification systems relies on accurate prediction o...
Reaching universal access to electricity by 2030 requires a massive deployment of mini-grids in rura...
The lack of access to electricity is a major problem especially for rural areas populations of devel...
Abstract—In this paper a top-down approach to generating load profiles of end-consumers is described...
Rural electricity plans are usually designed by relying on top-down rough and aggregated estimations...
This article is based on a Master Thesis in Energy Economics and Planning1 at Lund Institute of Tech...
Microgrids are suitable electrical solutions for providing energy in rural zones. However, it is cha...
Renewable energy sources become more and more popular among residential electricity customers in Ger...
Off-grid power systems represent one of the key solutions for rural electrification. Most of the ana...
Approximately 27% of the European energy consumption is caused by the domestic sector, where 19% oft...
Hybrid microgrids represent a cost-effective and viable option to ensure access to energy in rural a...
In the context of estimating the electricity demand of rural areas a set of archetypes of end users ...
In this paper, a model is presented that generates electricity load profiles for individual German h...