DHN Waste Cogeneration¤

Introduction¤

District heating is a system for distributing heat from a centralized source to consumers via a network of underground insulated pipes carrying hot water. Centralized heat generation avoids the need for individual boilers or electric heaters in every building. Cogeneration refers to the simultaneous generation of two useful products instead of only one. It consists of the use of a power station to generate electricity and heat at the same time, and is, in this case, called combined heat and power (CHP). A DHN Waste Cogeneration is based on a thermal power plant using waste as input fuel of the hot chamber to generate steam in order to produce electricity and heat.

ES Model Parameters¤

All the parameters concerning the DHN Cogen Waste are listed in the table below.

entry_key	value	unit	source_reference
CO2_A (layer)	1.20267	kt/GWh	Moret, Stefano, (2017): "Strategic Energy Planning under Uncertainty"
ELECTRICITY_MV (layer)	0.44	-	Moret, Stefano, (2017): "Strategic Energy Planning under Uncertainty"
HEAT_LOW_T_DHN (layer)	1	-	Moret, Stefano, (2017): "Strategic Energy Planning under Uncertainty"
WASTE (layer)	-2.22	-	Moret, Stefano, (2017): "Strategic Energy Planning under Uncertainty"
c_inv	3126.7	MCHF/GW	Moret, Stefano, (2017): "Strategic Energy Planning under Uncertainty"
c_maint	118.88	MCHF/GW/yr	Moret, Stefano, (2017): "Strategic Energy Planning under Uncertainty"
c_p	0.85	-	Moret, Stefano, (2017): "Strategic Energy Planning under Uncertainty"
gwp_constr	647.8	kgCO2/kWth	Moret, Stefano, (2017): "Strategic Energy Planning under Uncertainty"
lifetime	25	y	Moret, Stefano, (2017): "Strategic Energy Planning under Uncertainty"
ref_size	0.02	GW	Moret, Stefano, (2017): "Strategic Energy Planning under Uncertainty"
trl	9	-	Moret, Stefano, (2017): "Strategic Energy Planning under Uncertainty"

References¤

Data Sources
Moret, Stefano. (2017). "Strategic Energy Planning under Uncertainty"