Waste To Energy

The Waste To Energy technology represents a waste incineration plant. It co-generates electricity and useful heat that can be used directly in the district heating network.

Attribute

Description

Standard value

Unit

Data type

deployment

If set to ‘true’, the technology will be

considered in the energy system model

(this does not necessarily mean it will

be used). Only relevant for

optimisation.

False

bool

kW_el_max

Maximum electrical power output.

inf

kW_el

str/float

force_cap_max

Force implementation of maximum capacity

specified in kW_el_max. Only relevant

for optimisation.

False

kW

bool

cap_min_use

0

kW

float

annual_msw_supply

inf

kg/year

str

hv_msw_MJpkg

Lower heating value of municipal solid

waste (MSW).

12

MJ/kg

float

eta_el

Electrical conversion efficiency.

0.35

float

htp_ratio

Heat-to-power (htp) ratio (kW_th/kW_el)

1.5

kW_th/kW_el

float

msw_price_CHFpkg

Price of municipal solid waste. Will

usually be negative (i.e. revenue).

-0.3

CHF/kg

float

co2_intensity

Carbon-dioxide intensity of technology

output (annual average value).

0.645

kg CO2/kWh

float

lifetime

Expected lifetime of technology before

replacement is required.

25

years

int

capital_cost

CAPEX cost of technology per unit of

capacity.

2000

CHF/kWp

float

maintenance_cost

OPEX cost of technology per unit of

capacity.

119

CHF/kWp/year

float

interest_rate

Interest rate for computing levelised

costs (if required).

0.025

float

The relationship between the in- and outflows is given by

\[\mathtt{v\_e\_wte} = \mathtt{eta\_el} \cdot \mathtt{u\_msw\_wte}\]
\[\mathtt{v\_h\_wte} = \mathtt{htp\_ratio} \cdot \mathtt{eta\_el} \cdot \mathtt{u\_msw\_wte}\]

The symbols and names of the flows are

u_msw_wte

Inflow Municipal solid waste

v_h_wte

Outflow Heat

v_e_wte

Outflow Electricity