Dimplex LPP050 Instruções de Operação descarregar pdf (Página 16)

Dimplex Heatbook

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Colour/Finish

White.

Controls

Electronic user interface with LCD

display offering room temperature

setting, 7 day programmer, installer

settings, 3 preset timer proﬁles,

holiday setting and more.

Charge Controller

Fully automatic charge controller

incorporates self learning algorithms

to optimise daily energy storage,

using multiple sensors to automatically

adjust the charge taken based on

recent energy use patterns and

future programmed requirements.

Thermostat

Electronic – capable of maintaining

a room temperature to +/- 0.3ºC.

Safety devices

Electromechanical:

• Limit thermostat (self resetting)

• Cut-out (manual reset)

• Over-temperature thermostat for fan

• Over-temperature limit thermostat

for fan

Fan

Low rev/low noise heat circulation fan

with variable speed and soft start.

Storage core

High density bonded magnetite

energy cells.

Thermal insulation

Front, rear top and ends – microporous

silica. Base – calcium silicate slab.

Battery backup

3.3V coin cell battery to backup real

time clock. Battery life > 5 years.

Supply

230-240V / 50Hz Off peak + 24 hour

supply required.

dimplex.co.uk/qm

QUANTUM ENERGY SYSTEM

Technical information

Model Height Depth Width

Installed

weight

QM070 730mm 185mm 703mm 83kg

QM100 730mm 185mm 865mm 107kg

QM125 730mm 185mm 1069mm 135kg

QM150 730mm 185mm 1069mm 155kg

Model Output rating Input rating

Max. storage

capacity

Boost element

rating

QM070 700W 1560W 10.9kWh 630W

QM100 1000W 2200W 15.4kWh 880W

QM125 1250W 2760W 19.3kWh 1130W

QM150 1500W 3300W 23.1kWh 1300W

Energy Cell Packs – Packaged separately, required in the following quantities:

Model QM070 QM100 QM125 QM150

Energy cell

packs required

6 8 10 12

Quantum room heater

Average weekday proﬁle

Conventional Storage Energy Use = 12.2 kWh + 1.3kWh direct acting heating =

13.6kWh (9 hours heating @ 21ºC)

Quantum Energy Use = 10 kWh + 0.2kWh (fan) = 10.2kWh (9 hours heating @ 21ºC)

00:00

06:00 12:00 18:00 00:00

ROOM TEMPERATURE ºC

DAILY CYCLE HOURS

Quantum Energy Use = 10 kWh + 0.2kWh (fan) = 10.2kWh – 9 hours heating @ 21ºC

Conventional Storage Energy Use = 12.2 kWh + 1.3kWh Direct Acting Supplemetary Heating = 13.6kWh – 9 hours heating @ 21ºC

Average weekday profile

Comfort temperature profile created by Quantum Heater

Comfort temperature profile created by Static Storage Heater

Ideal comfort temperature profile

Conventional Static 24kWh Storage Heater vs Quantum QM125

Morning

rise

Leave

for work

Return

from work

Retire

to bed

Potential energy saving using Quantum

The test

A climate room was built to accurately

replicate a room from typical UK housing

stock. It has two external walls and the

temperatures outside all walls, ceiling

and ﬂoor are accurately controlled.

A daily temperature proﬁle was set

up outside to simulate an average

heating day in a property based in

Shefﬁeld, England.

Minimum outside temperature +4 ºC

Maximum outside temperature +11ºC

The following heaters were tested

under these conditions:

3.4kW (input) static storage heater with

manual charge control supplemented

with a direct acting heater.

2.8kW (input) Quantum heater (QM125).

The results

Quantum QM125 vs conventional static 24kWh storage heater

Quantum

1 2 ... 11 12 13 14 15 16 17 18 19 20 21 ... 103 104

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