40

ZEB

annual report 2014

Onsite electricity generation at the building

level is expected to increase systematically

and progressively in Europe and in Norway,

especially due to the requirement for all

new buildings to be nearly zero-energy by

the end of 2020. A large market uptake of

prosumers – buildings that both produce and

consume electricity – might have an impact

on the design and upgrade of distribution

grids. A distribution grid is traditionally

planned according to the expected peak load

, considering the grid as a one-way distributor

of power to the customers; while the advent

of a large number of prosumers will change

this paradigm. Buildings will, at times, be

net producers of electricity and will therefore

export it to the grid, potentially challenging the

grid’s capacity limits. In this study a bottom-up

approach is used to test if or when ZEB may

challenge the grid’s capacity.

The Norwegian case study (analyzed in

parallel to a Spanish case study) is based

on a neighbourhood of 200 single family

houses equipped with PV (solar cells) on

the roof. The building envelope satisfies the

requirements for the national definition of a

passive house, while space heating and hot

water are supplied by an air-source heat pump

as base system, with an electric resistance as

top-up heater to cover peak loads. Therefore,

the houses are all-electric, since also cooking

is electric. Hot water withdrawals and internal

gains, such as occupancy, lighting and plug

loads, are simulated with a stochastic user

behaviour model so that also the resulting

space heating need is different from house

to house, despite the identical envelope. The

average load for the entire neighbourhood is

approximately 5,200 kWh/y per household, or

33 kWh/(m2y). Each house has an installed

PV capacity of 6.0 kWp, with various tilts and

orientations. The average yearly yield from PV

is ca. 5,300 kWh/y per household, so that the

neighbourhood as a whole is a plus energy

neighbourhood.

At a single household level the peak load

might easily be as high as 10 or 15 kW, but at

aggregated level, e.g. for 200 households, the

average peak load per household is about 4

kW due to the time variability of loads in the

households.

The generation multiple (GM) relates the peak

of the generation system to the peak load. The

value of GM in a purely consumer building

– with no onsite generation – would be zero.

In ZEB or prosumer buildings a GM value

greater than one means that the generation

peak is higher than the load peak, and

therefore indicates that there might be stress

on the grid or that the distribution grid should

CAN ZEB CHALLENGE THE GRID CAPACITY?

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KAN ZEB UTFORDRE KAPASITETEN I NETTET?

Perhaps building designers and

electric grid designers will have to sit

at the same table and work together

Igor Sartori (SINTEF)