Details zur Publikation

Kategorie Textpublikation
Referenztyp Buchkapitel
DOI 10.1007/978-3-319-16193-8_6
Titel (primär) Flexible heat provision from biomass
Titel (sekundär) Smart bioenergy : technologies and concepts for a more flexible bioenergy provision in future energy systems
Autor Lenz, V.; Thrän, D.
Herausgeber Thrän, D.
Erscheinungsjahr 2015
Seite von 83
Seite bis 105
Sprache englisch
Keywords Flexible heat provision; Flexible biomass heat; Improving flexibility of biomass heat provision; Flexible heat concepts; Flexible biomass heating
UFZ Querschnittsthemen RU6;
Abstract Heat demand in households always depends on the building, the behavior of the inhabitants, the weather conditions as well many other factors. Therefore, there is always a fluctuating and often not very predictable need for heat. As heating systems have solved this problem for some time now, all heat generators are basically demand-based. Depending on the technology, heat buffering systems are sometimes required. Generally speaking, improved efficiency and low emissions were often achieved in the past by reducing start and stop procedures and applying some kind of base load heat generation. These kind of systems are very commonplace, providing the majority of renewable heat – not only in Germany but also in many other countries. In the future, heat from biomass will have to compare with other renewable heating options and will assume the role of securing heat provision at those times when temperatures fall considerably, when there is limited electricity available in the grid from renewables or when solar thermal systems are not working. This means that the biomass heat generators have to become more flexible in load changes over the total load range without increasing emissions and without significant efficiency losses. Basically, an appropriate design of the conversion system and its conceptual integration will enable a flexible heat supply through solid biomass. The available technologies and concepts for heat supply from solid biomass can be optimized by improved control units, automatic feeding, as well as additional heat storage systems. Consequently, there are a number of options to support the transition to a more renewable-based energy supply, also taking into account better insulation and a fall in the demand for heat in the housing sector. Nevertheless, this transition is more of a vision for decades to come and is still only just emerging in Germany.
dauerhafte UFZ-Verlinkung
Lenz, V., Thrän, D. (2015):
Flexible heat provision from biomass
In: Thrän, D. (ed.)
Smart bioenergy : technologies and concepts for a more flexible bioenergy provision in future energy systems
Springer, Cham, p. 83 - 105 10.1007/978-3-319-16193-8_6