technical information danx xd & danx hp swimming … · vdi 2089). ir is going ab e swimming is...
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TECHNICAL INFORMATIONDanX XD & DanX HP
SWIMMING POOL AIR MANAGEMENT
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DaComswim Gene Proje Gene Com Cont Dime
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2
3
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5
6
anXmpact unmming p
eral desc
ect plann
eral tech
mponents
trol syst
ensions
X XDits for ool air m
cription
ning and
hnical da
s
em
and weig
D anmanagem
d unit sel
ata
ghts
nd Hment
lection
HP
Ver. 3.0 0117
1.1
1.0 G
A contr
in swim
reduce
With D
units yo
recover
Danthe
pools a
ConceIt is im
using a
humidit
water te
XD an
Availab
controls
effectiv
EnergyMaintai
pool pro
of the c
sense.
with an
ultimate
reliable
in the lo
ServiceAcross
profess
problem
sure th
support
GENERAL
rolled and com
mming pool h
the well-bein
antherm’s cor
ou are guaran
ry but also t
erm’s DanX XD
and wellness a
pt mpossible to a
a carefully des
ty can be con
emperature, a
nd HP units
ble with a on
s package, it
ve control of sw
y efficient ining a comfo
oject, but wha
chosen soluti
Highly efficie
n optimized co
ely significan
e operation an
ong run and c
e and supporthe world,
sional trained
ms with our un
hat you have a
t.
DESCRIP
mfortable indo
alls where hi
ng of the occ
rrosion-proof
nteed a superi
he possibility
D and HP solu
areas.
void water ev
signed ventila
ntrolled to a c
air temperature
can be des
ne or two sta
is the ideal
wimming pool
ortable indoor
at is equally im
on. The DanX
ent heat recov
ontrol strategy
t energy sav
d long life. Ult
ontributes to a
rt we have a
staff of tec
nits. By sharin
access to the
TION
or climate is a
gh relative hu
upants and c
DanX XD and
or solution, of
of high-qual
utions are idea
vaporation in s
ation / dehumi
omfortable lev
e, humidity an
igned to acc
age heat reco
device for pr
hall environm
environment
mportant to con
X caters for li
very and low
y, contribute t
vings, while
timately, all of
a low cost of o
broad net of
hnicians who
ng our know-h
unique Danth
an important f
umidity and c
cause damage
d DanX HP (D
ffering not onl
lity demand a
al for private o
swimming po
idification solu
vel. On the b
nd swimming a
commodate a
overy system
roviding energ
ments – anywh
is a priority
nsider is the to
ife cycle costs
specific fan p
to cost-efficie
durable com
f this results in
ownership.
f authorized
o are availab
how and expe
herm Air Han
1factor, particul
condensation
e to the build
DanX 1, 2 and
ly significant h
air managem
or hotel swimm
ol halls, howe
ution, the rela
asis of pool s
activity, the Da
any requirem
and a besp
gy efficient, c
here in the wor
in any swimm
otal life cycle c
s in the broad
power, combi
ent operation
mponents ens
n economic ga
partners with
ble to solve
erience, we m
dling service
1larly
can
ing.
d 3)
heat
ent.
ming
ever
ative
size,
anX
ent.
poke
cost-
rld.
ming
cost
dest
ned
and
sure
ains
h a
any
make
and
2.1
2.0 P
2.1 TheIn a sw
hall. If
an una
comfort
conden
insulate
below
degree
For exa
the outs
at least
Air mov
pool ha
as eas
should
humid
surface
movem
In addit
to avoi
reasons
65% R
content
absolut
water c
The ch
and m
compar
in pract
should
evapora
In priva
at 28°C
ROJECT P
e humidity prwimming pool
the humidity i
acceptable lev
t of the user.
nses onto cold
ed windows w
dew point. T
e of insulation a
ample at 30°C
side temperat
t 1 W/m2K.
vements and
all are of majo
ily as stationa
therefore be
air is extracte
e, the air shou
ment will affect
tion, the press
id water vapo
s, the relative
H, depending
t of 14.3 g/kg
te humidity of
content of 14.3
oice of operat
minimise runni
rison with the
tice it is not p
the relative
ation to increa
ate or hotel sw
C/60% - 30°C/
PLANNING
roblem hall large qua
is not kept art
vel, both for t
The building
d surfaces, c
will steam up w
The maximum
and the minim
C/54% RH, the
ture is -10°C t
especially the
or significance
ary air, which
blown along w
ed at the oppo
uld preferably
evaporation.
sure in the ha
our being forc
e humidity in th
on the tempe
, (according to
f the outside a
3 g/kg inside th
ting conditions
ing costs. Th
water tempe
possible to ma
humidity be
ase.
wimming pool
54% RH, and
G AND UN
antities of wate
tificially low, th
he constructio
will gradually
ausing corros
when the inter
m acceptable
mum outside te
e internal air h
he building str
e distribution
, as warm dry
has had time
walls and wind
osite end of t
be more or le
all should be k
ced into the b
he swimming
erature, but e
o VDI 2089).
air is going ab
he swimming
s is very impo
he higher the
rature, the low
aintain a differ
lower than n
halls, the inte
the water tem
NIT SELEC
er evaporate
he relative hu
on of the bui
be destroyed
sion and mou
rnal air cools
humidity will
emperature.
has a dew poi
ructure must h
of supply air
y supply air do
e to cool dow
dows at high
the hall. Direc
ess stationary
kept slightly lo
building struct
pool hall shou
equivalent to a
Only in summ
bove 9 g/kg a
pool hall is ac
ortant in order
e internal air
wer the evapo
rence of more
necessary, as
ernal air is nor
mperature at 2
2CTION
into the air of
umidity will rise
lding and for
as water vap
uld attack. Po
to a temperat
depend on
nt of 20°C, an
have a U-valu
in the swimm
oes not conde
n. The supply
velocity while
ctly over the p
, as too much
ower than outs
ture. For com
uld be kept un
an absolute wa
mertime when
a higher abso
cceptable.
to avoid humi
r temperature
oration. Howe
e than 2-3°C.
s this will ca
rmally maintai
6-28°C.
2
the
e to
the
pour
oorly
ture
the
nd if
e of
ming
ense
y air
the
pool
h air
side
mfort
nder
ater
the
olute
idity
e in
ver,
Nor
ause
ned
2.2
2.2 SelDanthe
both ar
The pr
tradition
swimm
outside
Traditio
a refrig
exchan
the Dan
exchan
One of
the criti
very dr
under t
temper
Anothe
which is
and hot
lecting the rigerm’s DanX 1
re well-suited f
rinciple of the
nal swimming
ing pool hall is
e air for an inc
onal units are
geration syste
nging the wet
nX systems a
nger (HP) or o
f the main ben
ical winter per
ry outside air
the calculated
ratures.
er important ad
s often neces
tel pools.
ght type of un, 2 and 3 ran
for the task.
DanX - HP
DanX - XD
e DanX – HP
g pool dehumi
s dehumidified
reased comfo
dehumidifying
em, whereas
return air with
re equipped w
nly a double c
nefits of the D
riod is far high
. This means
d value if this
dvantage is th
sary because
nit ge offers two
P or XD syste
difier in the w
d and the poss
rt level.
g the return air
the DanX HP
h dry outside a
with a heat pum
cross flow hea
DanX is that it
er than the ca
that the rela
s should be n
e possibility of
of the large g
o different type
em differs ma
way how the re
sibility of supp
r mechanically
P or XD dehu
air. To avoid
mp and doubl
at exchanger (X
ts dehumidific
apacity require
ative humidity
necessary at
of using free co
glazed areas o
2es of units wh
ainly to that o
eturn air from
plying up to 10
y by the mean
umidifies thro
ventilation los
le cross flow h
XD).
cation capacit
ed because of
y can be lowe
very low outs
ooling, someth
of modern priv
2hich
of a
the
00%
ns of
ugh
sses
heat
ty in
f the
ered
side
hing
vate
Daytime win
Daytime su
Night time d
Daytime su
nter
ummer
dehumidification
ummer free coo
n
oling
2.3
2.2.1 DThe Da
dehum
double
and ind
savings
low out
the exa
supplie
For furt
into the
or the h
Daytim
The Da
hygieni
dehum
pool air
Then a
outside
flow he
supply
this ope
heat pu
outside
Daytim
The Da
will nor
heated
raises m
operatio
Night ti
The Da
needed
If dehu
the do
evapora
heat pu
stopped
DanX HP with anX HP comb
idification sys
cross flow he
door tempera
s of up to 100
tside winter te
act quantity of
ed.
ther energy o
e heat pump.
hot water supp
e operation w
anX HP is run
ic reasons for
idification cap
r is been runn
a part of the ex
e air. These tw
eat exchange
air temperatu
eration mode
ump. If the de
e air will autom
e operation su
anX HP is run
rmally be stop
in the double
more, a by-pa
on mode the d
me operation
anX HP is r
d the pool air i
midification is
ouble cross fl
ator. In this o
ump. Normall
d if a pool cov
2 stage heatines the best
stem. The com
eat exchanger
ature. Significa
0% make this
emperatures. T
f outside air r
optimization, a
This allows th
ply, where the
winter
nning with the
the pool hall.
pacity in the h
ning through t
xhaust air is le
wo airstreams
r and afterwa
ure still is not
the dehumidi
ehumidification
matically be inc
ummer
nning with 100
pped as the t
e cross flow
ass will open
dehumidificati
unning in rec
s directly recir
s needed a pa
low heat exc
operation mod
ly the fans w
ver is used.
recovery advantages o
mbination of h
is designed to
ant running c
system the o
The integrated
equired to sus
a water-cooled
he excess hea
energy is effic
e minimum ou
To keep pres
eat pump, on
the double he
eaving the uni
are then preh
ards in the he
high enough a
fication is don
n capacity is n
creased.
0% outside air
emperature is
heat exchang
to run the un
on is done jus
circulation mo
rculated and h
art of the swim
changer befor
e the dehumi
will run on low
of a heat pum
heat pump an
o perfectly co
cost reduction
obvious choice
d mixing box
stain comforta
d condenser c
at, to be transf
ciently re-use
utside air whic
ssure drops low
nly a part of th
eat exchanger
it with the othe
heated first in
eat pumps co
a reheater wi
ne with the dr
not sufficient t
r. The reheate
s high enough
ger. If the out
nit in free cool
st with the dry
ode. If no de
heated up by t
mming pool ai
re being deh
idification is d
w speed in n
2mp and outside
nd highly effic
ntrol the humi
ns due to ene
e in climates w
ensures that o
able condition
can be integra
ferred to the p
d.
ch is required
w and get a g
he wet swimm
r and evapora
er part joining
the double cr
ondenser. If
ll be activated
ry outside air
he amount of
er and heat pu
h, after been
side temperat
ing mode. In
outside air.
ehumidification
the reheater.
r is pre coole
humidified in
done just with
ight time, or
2e air
cient
idity
ergy
with
only
ns is
ated
pool
d for
ood
ming
ator.
the
ross
the
d. In
and
dry
ump
pre
ture
this
n is
d in
the
the
are
Night time r
Daytime su
Day/night ti
Daytime su
recirculation
mmer
ime winter
ummer, free coo
oling
2.4
2.2.2 DThe Da
cross f
indoor
energy
the exa
costs a
Daytim
The Da
hygieni
amount
through
heated
amount
Daytim
The Da
stopped
double
a by-pa
Night ti
The Da
needed
dehum
outside
swimm
recircul
maybe
DanX XD with anX XD is an
flow heat exc
temperature
saving of up
act quantity o
at a minimum.
e operation w
anX XD is run
ic reasons fo
t of air which
h the double
up by the reh
t of dry outsid
e operation su
anX XD is run
d as the tem
cross flow he
ass will open t
me operation
anX XD is r
d the return ai
idification is
e air like in da
ing pool hall
lation mode. N
even stopped
1 stage heat air dehumidi
hanger. This
while offering
to 90%. The
of outside air
winter
nning with the
or the pool ha
should be ch
heat exchan
heater. If the d
e air will autom
ummer
ning with 100
mperature is h
eat exchanger
o run the unit
unning in rec
r is directly re
needed a sm
aytime operat
again reache
Normally the
d if a pool cove
recovery fication syste
system perfe
g significant ru
integrated mi
needed is su
e minimum ou
all. To keep
hanged with th
nger. The res
dehumidificatio
matically be in
% outside air
high enough,
r. If the outside
in free cooling
circulation mo
ecirculated and
mall part of th
tion winter. W
s the set poin
fans will run o
er is used.
em with a high
ectly controls
unning cost r
ixing section e
upplied – whic
utside air whic
pressure dro
he outside air
st is directly
on capacity is
ncreased.
r. The reheate
after been p
e temperature
g mode.
ode. If no de
d heated up b
he return air
When the hum
nt, the unit is
on low speed
2h efficient dou
the humidity
eductions due
ensures that o
ch keeps runn
ch is required
ps low, only
r is been runn
recirculated
not sufficient
er will normally
re heated in
e goes further
ehumidification
by the reheate
is changed w
midity level in
running agai
d in night time
2uble
and
e to
only
ning
d for
the
ning
and
the
y be
the
up,
n is
er. If
with
the
n in
e, or
2.5
2.3 CalThe ne
surface
temper
evapora
There
require
relation
always
that poo
hall and
this als
As the
make a
scenari
investm
this wil
level.
The Ge
most c
choice
prefere
pool su
lculation of eeed for dehum
e, the wet area
ratures, humid
ation rates.
are many d
ement. Commo
n to what is a
unintentional
ol usage is low
d the water su
so reduces the
formula applie
any extra allo
ios. This wil
ment costs. If
ll generally b
erman VDI 20
commonly us
which one
ences. After c
urface the nece
evaporation midification ar
as and from th
dity and air cur
different form
on to most of
actually neces
ventilation th
wer than antic
urface is some
e need for deh
ed have a rat
owances in t
l merely res
a drastic rise
e short-lived
089 and Bias
sed for calcu
should be
calculation of
essary DanX
rise when eva
he bathers the
rrents are the
mulas for cal
f them is that
ssary. This is
rough doors,
cipated. If ther
ewhat lower th
umidification.
her high safet
the calculation
sult in unnec
in relative hu
until levels s
in & Krumme
lating dehum
used, very
the amount o
unit can be se
aporation occ
emselves. Phy
main factors
culating the
t they genera
s due to the f
windows and
re is good air
han the surrou
ty margin, it is
ns to accoun
cessarily high
umidity occurs
stabilise again
e are two stan
midification re
often depen
of water evap
elected.
2cur from the p
ysical dimensio
that influence
dehumidifica
te high value
fact that there
cracks or ma
distribution in
nding tiled are
s advisable no
nt for worst-c
h operation
at peak perio
n at their nor
ndards which
quirements. T
nds on natio
porating from
2pool
ons,
the
ation
s in
e is
aybe
the
eas,
ot to
case
and
ods,
rmal
are
The
onal
the
2.6
2.4 SelThe vo
calcula
The ab
from a
practice
exceed
no con
Xi can i
The air
higher
DanX h
2/4 – 16
Beside
importa
sufficie
swimm
2.5 SelFor a q
chapter
program
exact te
lecting the unolume of outsi
ated as follows
bsolute moistu
maximum of
e Xu can be
ded for approx
densation pro
if necessary b
r volume for t
air volume h
has to be cho
6/32 swimmin
the calculatio
ant to check
ent. As a rule
ing pool hall w
lection progrquick selectio
r 3 of this cat
m. Here we c
echnical data
nit de air require
s:
V = W (Xi - XW = Water e
Xu = absolute
Xi = absolute
1.175 = air d
ure content of
f 11-12 g/kg i
set at 9,0 g/
x. 20% of the
oblems in sum
be permitted to
he DanX 1, 2
as been calc
osen. For this
ng pool units.
on of the air v
that the air
e of thumbs a
will be sufficien
am on you can a
talogue. Here
can perform a
and drawings
ed to deal with
Xu) x 1.175 vaporation fro
e moisture con
e moisture con
ensity (kg/m3)
the outside a
n the summe
/kg in Europe
year in summ
mmer and the
o go a little hig
2 and 3 is betw
ulated to deh
see our tech
olume needed
change insid
an air flow of
nt.
lways use the
e at Dantherm
an accurate s
of the unit.
h the evapora
om pool (g/h)
ntent, outside
ntent, return ai
)
air (Xu) varies
er to 2-3 g/kg
e, a figure w
mertime. There
water conten
gher.
tween 500 an
humidify the p
hnical docume
d for dehumid
de the swimm
f 3-5 times th
e general tec
m we always u
selection of a
2ation rate can
air (g/kg)
ir (g/kg)
s with the sea
in the winter
hich will only
e are in any c
t of the return
d 3500 m3/h.
pool hall a lar
entation for Da
dification it is a
ming pool ha
he volume of
chnical data f
use our selec
a unit and ob
2n be
ason
r. In
y be
case
n air
If a
rger
anX
also
ll is
the
from
ction
btain
3.1
3.0 G 3.1 Dan Air volu Air voluExt. duFresh a Supply Exhaus OccupiOccupi Heat ou Supply ExhausTotal poSFP 3)
Max fulMax. poElectric HeatingHeat ouCoil off Water fPressuCoil co HeatingHeat ouCoil off Water fPressuCoil co 1) Higher2) Pool h3) Pool h4) 100% 5) Air inle
GENERAL
nX 1 XD tech
ume range hig
ume nominalct pressure 1)
air volume
air filterst air filter
ed, accordinged, partly outs
utput heat exc
air fan 4)
st air fan 4)
ower consum
ll load currentower consumpcal connection
g coil 5)
utput maxf temperature flowre loss watersnnection
g coil 5)
utput maxf temperature flowre loss watersnnection
r external presshall condition at hall condition at air exchange et temperature
TECHNIC
nical data an
gh speed
VDI 2089 2)
side air 3)
changer 3)
ption 3)
ptionn
max
side
max
side
sures possible 30°C/54%r.h 30°C/54%r.h. w
30°C, water tem
AL DATA
d capacities
m3/h
m3/hPa%
kg/hkg/h
kW
KWKWKWkJ/m3
AkWV
RRkW°Cm3/hkPa“
RRkW°Cm3/hkPa“
with 30% outside
mperature 60°/4
500
1000200 0–10
F7 M5
7 3.5
2.4
0.3 0.3 0.6 1.4 4.4 1.0 1 x 2
2 2.7 38.00.117.4 3/8
3 3.9 41.50.1422 3/8
e air @ 5°C/85%
40°C
3
– 1300
0
00
230 + N
0
5 4
%r.h.
3
3.2
3.2 Dan
Air volu
Air voluExt. duFresh a Supply Exhaus UnoccuOccupiOccupi Heat ouHeatingCompre Supply ExhausCompreTotal poSFP 3)
Max fulMax poElectric HeatingHeat ouCoil off Water fPressuCoil co HeatingHeat ouCoil off Water fPressuCoil co
1) Higher2) Pool h3) Pool h4) Differe5) 100% 7) Air inle8) Water
nX 1 HP tech
ume range hig
ume nominalct pressure 1)
air volume
air filterst air filter
upied, accordied, accordinged, partly outs
utput heat pumg capacity 4)
essor COP 3)
air fan 5)
st air fan 5)
essor power cower consum
ll load currentower consumpcal connection
g coil 7)
utput maxf temperature flowre loose watennection
g coil 7)
utput maxf temperature flowre loss watersnnection
r external presshall condition at hall condition at ence between reair exchange et temperature r temperature 30
nical data an
gh speed
ng VDI 2089 2 VDI 2089 2)
side air 3)
mp / exchange
consumption 3ption 3)
ptionn
max
rside
max
side
sures possible 30°C/54%r.h. 30°C/54%r.h. w
eturn / supply ai
30°C, water tem0°C / HP: 40°C
d capacities
m3/h
m3/hPa%
2) kg/hkg/hkg/h
er 3) kWkW
KWKW
) KWKWkJ/m3
AkWV
RRkW°Cm3/hkPa“
RRkW°Cm3/hkPa“
with 30% outsider
mperature 60°/4
500
1000200 0–10
F7 M5
1.7 7 5
5.4 2.4 3.9
0.3 0.3 0.6 1.2 1.767.4 1.7 1 x 2
2 2.7 38.00.117.4 3/8
3 3.9 41.50.1422 3/8
e air @ 5°C/85%
40°C
3– 1300
0
00
6
230 + N
0
5 4
%r.h.
3
3.3
3.3 Dan Air volu Air voluExt. duFresh a Supply Exhaus OccupiOccupi Heat ou Supply ExhausTotal poSFP 3)
Max fulMax. poElectric HeatingHeat ouCoil off Water fPressuCoil co HeatingHeat ouCoil off Water fPressuCoil co 1) Higher2) Pool h3) Pool h4) 100% 5) Air inle
nX 2 XD techn
ume range hig
ume nominalct pressure 1)
air volume
air filterst air filter
ed, accordinged, partly outs
utput heat exc
air fan 4)
st air fan 4)
ower consum
ll load current ower consumpcal connection
g coil 5)
utput maxf temperature flowre loss watersnnection
g coil 5)
utput maxf temperature flowre loss watersnnection
r external presshall condition at hall condition at air exchange et temperature
nical data and
gh speed
VDI 2089 2)
side air 3)
changer 3)
ption 3)
ptionn
max
side
max
side
sures possible 30°C/54%r.h 30°C/54%r.h. w
30°C, water tem
d capacities
m3/h
m3/hPa%
kg/hkg/h
kW
KWKWKWkJ/m3
AkWV
RRkW°Cm3/hkPa“
RRkW°Cm3/hkPa“
with 30% outside
mperature 60°/4
1000
1750200 0–10
F7 M5
11 6
3.7
0.5 0.5 0.8 1.2 7.0 1.6 1 x 2
2 4.9 38.20.224.7 3/8
3 6.9 41.80.2912.53/8
e air @ 5°C/85%
40°C
30 – 2100
0
00
230 + N
2 2
8 9 5
%r.h.
3
3.4
3.4 Dan
Air volu
Air voluExt. duFresh a Supply Exhaus UnoccuOccupiOccupi Heat ouHeatingCompre Supply ExhausCompreTotal poSFP 3)
Max fulMax poElectric HeatingHeat ouCoil off Water fPressuCoil co HeatingHeat ouCoil off Water fPressuCoil co Heat ouWater fPressuTempeCoil co
1) Higher2) Pool h3) Pool h4) Differe5) 100% 7) Air inle8) Water
nX 2 HP tech
ume range hig
ume nominalct pressure 1)
air volume
air filterst air filter
upied, accordied, accordinged, partly outs
utput heat pumg capacity 4)
essor COP 3)
air fan 5)
st air fan 5)
essor power cower consum
ll load currentower consumpcal connection
g coil 7)
utput maxf temperature flowre loose watennection
g coil 7)
utput maxf temperature flowre loss watersnnection
utput water coflow maxre loss waters
erature raise (mnnections
r external presshall condition at hall condition at ence between reair exchange et temperature r temperature 30
nical data an
gh speed
ng VDI 2089 2 VDI 2089 2)
side air 3)
mp / exchange
consumption 3ption 3)
ptionn
max
rside
max
side
ooled condens
sidemax flow)
sures possible 30°C/54%r.h. 30°C/54%r.h. w
eturn / supply ai
30°C, water tem0°C / HP: 40°C
d capacities
m3/h
m3/hPa%
2) kg/hkg/hkg/h
er 3) kWkW
KWKW
) KWKWkJ/m3
AkWV
RRkW°Cm3/hkPa“
RRkW°Cm3/hkPa“
ser 8) kWl/hkPaK“
with 30% outsider
mperature 60°/4
1000
1750200 0–10
F7 M5
5 11 9
11.32.8 4.4
0.5 0.5 1.2 2.1 1.5 7.0 2.9 2 x 4
2 4.9 38.20.224.7 3/8
3 6.9 41.80.2912.53/8
3.2 600 10 12 3/4
e air @ 5°C/85%
40°C
30 – 2100
0
00
3
400 + N
2 2
8 9 5
%r.h.
3
3.5
3.5 Dan
Air volu Air voluExt. duFresh a Supply Exhaus OccupiOccupi Heat ou Supply ExhausTotal poSFP 3)
Max fulMax. poElectric HeatingHeat ouCoil off Water fPressuCoil co HeatingHeat ouCoil off Water fPressuCoil co 1) Higher2) Pool h3) Pool h4) 100% 5) Air inle
nX 3 XD tech
ume range hig
ume nominalct pressure 1)
air volume
air filterst air filter
ed, accordinged, partly outs
utput heat exc
air fan 4)
st air fan 4)
ower consum
ll load current ower consumpcal connection
g coil 5)
utput maxf temperature flowre loss watersnnection
g coil 5)
utput maxf temperature flowre loss watersnnection
r external presshall condition at hall condition at air exchange et temperature
nical data an
gh speed
VDI 2089 2)
side air 3)
changer 3)
ption 3)
ptionn
max
side
max
side
sures possible 30°C/54%r.h 30°C/54%r.h. w
30°C, water tem
d capacities
m3/h
m3/hPa%
kg/hkg/h
kW
KWKWKWkJ/m3
AkWV
RRkW°Cm3/hkPa“
RRkW°Cm3/hkPa“
with 30% outside
mperature 60°/4
1500
2750200 0–10
F7 M5
18 10
5.8
0.8 0.8 1.3 1.3 12.62.9 1 x 2
2 7.7 38.30.325.1 3/8
3 10.741.40.436.0 3/8
e air @ 5°C/85%
40°C
30 – 3500
0
00
6
230 + N
3 2
7 4 3
%r.h.
3
3.6
3.6 Dan
Air volu
Air voluExt. duFresh a Supply Exhaus UnoccuOccupiOccupi Heat ouHeatingCompre Supply ExhausCompreTotal poSFP 3)
Max fulMax poElectric HeatingHeat ouCoil off Water fPressuCoil co HeatingHeat ouCoil off Water fPressuCoil co Heat ouWater fPressuTempeCoil co
1) Higher2) Pool h3) Pool h4) Differe5) 100% 7) Air inle8) Water
nX 3 HP tech
ume range hig
ume nominalct pressure 1)
air volume
air filterst air filter
upied, accordied, accordinged, partly outs
utput heat pumg capacity 4)
essor COP 3)
air fan 5)
st air fan 5)
essor power cower consum
ll load currentower consumpcal connection
g coil 7)
utput maxf temperature flowre loose watennection
g coil 7)
utput maxf temperature flowre loss watersnnection
utput water coflow maxre loss waters
erature raise (mnnections
r external presshall condition at hall condition at ence between reair exchange et temperature r temperature 30
nical data an
gh speed
ng VDI 2089 2 VDI 2089 2)
side air 3)
mp / exchange
consumption 3ption 3)
ptionn
max
rside
max
side
ooled condens
sidemax flow)
sures possible 30°C/54%r.h. 30°C/54%r.h. w
eturn / supply ai
30°C, water tem0°C / HP: 40°C
d capacities
m3/h
m3/hPa%
2) kg/hkg/hkg/h
er 3) kWkW
KWKW
) KWKWkJ/m3
AkWV
RRkW°Cm3/hkPa“
RRkW°Cm3/hkPa“
ser 8) kWl/hkPaK“
with 30% outsider
mperature 60°/4
1500
2750200 0–10
F7 M5
7 18 15
17.94.4 4.4
0.8 0.8 1.9 3.4 1.5 12.64.6 2 x 4
2 7.7 38.30.325.1 3/8
3 10.741.40.436.0 3/8
3.2 600 10 12 3/4
e air @ 5°C/85%
40°C
30 – 3500
0
00
9
6
400 + N
3 2
7 4 3
%r.h.
3
4.1
4.0 CO 4.1 CabThe ca
of a sel
feet.
The ou
from h
Inspect
with ha
galvani
For sp
accordi
powder
powder
The co
surface
transm
units. T
inspect
The ca
classes
Test cMechAir leaFilter ThermTherm
OMPONEN
binet binet is prima
lf-bearing san
uter sandwich
hot dip galvan
tion covers ar
andles. Interna
ised sheet ma
ecial protectio
ing to EN/ISO
r coated, with
r coat finish ha
over panels ar
e, thus to ma
ission, and av
The doors c
tion and servic
asing is design
s:
criteria hanical strengthakage bypass leakage
mal transmittancmal bridging
NTS
rily designed f
dwich panel c
panel’s und
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re in form of
al partition pa
aterial insulate
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O 12944-2 a
h every part
as a thickness
re designed to
ake cleaning
voiding cold s
an be opene
ce.
ned in accord
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for swimming
construction, w
doors are 50
material and
doors with st
nels are 30 m
d with minera
hlorine air an
ll panels and
painted sepa
s of 70 µm.
o achieve goo
easy togethe
spots which is
ed 180°, whi
ance with EN
pool environm
with bottom ra
mm double s
insulated wi
trong hinges a
mm thick and
l wool.
nd to fulfil co
d metal parts
arately before
od air tightnes
er with a low
s essential fo
ich ensures
N 1886 and fu
4
ment and cons
ils and adjusta
skinned and b
th mineral w
and tongue lo
built from hot
rrosion class
s of the unit
e assembly. T
ss and a smo
heat and so
or swimming p
easy access
ulfils the follow
ClassD2 L3 F7 T3
TB3
4
sists
able
built
wool.
ocks
dip
C4
are
The
ooth
und
pool
for
wing
4.2
4.2 DouAn ess
which s
air is us
flow he
suitable
efficien
swimm
Therefo
to 90%
The ex
with a d
drained
4.3 FanThe Da
efficien
a very
EC mo
fan whe
from co
program
4.4 FiltThe Da
compac
tidiness
loss, pl
4.5 DamThere a
The fir
dampe
standar
option t
spring r
close a
uble cross flo
sential part of
significant ene
sed to prehea
eat exchanger
e for the aggr
ncy of the heat
ing pool bec
ore the norma
.
xhaust and ret
drip tray wher
d out of the un
ns anX 1, 2 and 3
nt EC motors,
low SFP valu
otor is speciall
eels on the Da
omposite mat
m.
ters anX 1, 2 and
ct filters. Eac
s. For more
ease use our
mper and actare three dam
rst are the th
r and the third
rd all dampers
the outdoor a
return dampe
automatically.
ow heat exchthe DanX 1,
ergy savings a
at the fresh air
r is fabricated
ressive swimm
t exchanger a
cause water
al efficiency of
urn air side of
re condensate
nit.
3 units are eq
which togethe
ue and a low
ly coated to p
anX 2. The fan
terial. For exa
3 units are e
h filter is hold
exact technic
selection prog
tuators mper arrangem
hree mixing b
d the bypass d
s are equippe
nd exhaust ai
r actuator, so
hanger 2 and 3 is the
are obtained s
before enterin
d with epoxy
ming pool envi
bove 70%, bu
vapour cond
the heat exch
f the cross flo
e from the hea
quipped with tw
er with the oth
noise level. T
protect them a
n wheels on th
act technical d
equipped with
d by two U ra
al data of the
gram.
ments built in i
box dampers,
damper over t
d with modula
ir damper can
in the case o
e double heat
since the ene
ng the room. T
pre painted a
ironment. The
ut will be highe
denses on th
hanger in swim
ow heat excha
at exchanger a
wo direct driv
her componen
The printed cir
against chlorin
he DanX 1 an
data, please u
M5 (return)
ails for easy s
filters, espec
nto the DanX
the second
the double he
ation damper m
n be ordered w
of a power cut
4t exchanger f
rgy in the ext
The double cr
aluminium pla
e dry temperat
er in practice
he exhaust s
mming pools is
anger is equip
and mixing bo
en fans with h
ts in the unit g
rcuit board of
ne air, as are
d 3 are produ
use our selec
and F7 (outdo
service and g
ially the press
X 1, 2 and 3 un
the recircula
eat exchanger
motors, but as
with a modula
t the dampers
4rom
tract
ross
ates,
ture
in a
side.
s up
ped
ox is
high
give
the
the
uced
ction
oor)
ood
sure
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ation
. As
s an
ation
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4.3
4.6 HeaIn the D
air deh
hall the
running
as muc
The he
conden
painted
after as
pool e
necess
compre
1. C
2. Ev
3. C
4. Ex
5. R
6. D
7. Si
8. Sc
9. LP
10. H
11. W C12. So
4.6.1 WAs an o
that an
air, can
availab
Heat oWater PressuTempeCoil co1) Wate
at pump DanX HP unit
humidification.
e cooling circu
g with outside
ch energy from
eat pump co
nser and eva
d aluminium fi
ssembly and t
environment.
sary compone
essor is an ene
ompressor
vaporator
ondenser
xpansion valv
Receiver
ry filter
ight glass
chrader valve
P stat
P stat
Water cooled ondenser olenoid valve
Water cooled option the hea
ny surplus hea
n be transfer
ble for the Dan
output 1) [kw] flow max [m3/h
ure loss [kPa] erature out (maonnections [“] er temperature 30
ts the heat pu
In night time
it works fully a
air, the coolin
m the return ai
onsists of a
porator coil m
ns housed wi
therefore espe
Furthermore
nts like high/l
ergy efficient r
ve
condenser at pump can
at, which cann
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nX 1.
h]
ax flow) [°C]
°C / HP 40°C
ump will be us
, when no out
as a dehumidi
ng circuit is us
r as possible.
cooling circui
manufactured
thin an alumin
ecially suitable
the cooling
ow pressure s
rotary compre
be fitted with
not be used fo
pool or sanita
sed both for h
tside air is ne
ifier, whereas
sed as a heat
it with one c
from copper
nium frame an
e for the aggr
circuit is eq
stats, dry filte
essor filled with
a water-coole
or heating up
ary water. Th
DanX 2 an3.2 0.6 10 42 ¾
4eat recovery
eeded in the p
in day time w
pump to reco
compressor. T
r tubing with
nd epoxy pain
ressive swimm
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r and so on. T
h R407c.
ed condenser
the return/sup
his option is
nd 3 HP
4and
pool
when
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The
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nted
ming
all
The
, so
pply
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4.4
4.7 LPHLPHW
DanX u
fins hou
maximu
120°C.
4.7.1 VaThis tw
modulat
further r
needed
value is
to the 0-
4.7.2 EThe ele
system
minimu
coils ar
class IP
The he
signal
regulate
supply
from th
Air voluCapaciTempeMax. cuMax. cuDuct co
HW heating cheating coils
units. The co
used within an
um working p
For exact tec
alve and actuwo way valve
ting control re
regulating valv
for different f
no longer nee
-10V tempera
Electrical Heaectrical heatin
m. They have
um air speed o
re equipped w
P 43.
eating coil is e
for connectio
ed steeples b
for the heatin
e DanX unit.
ume [m3/h] ity [kw]
erature in/out [°Current 3 x 400Vurrent 3 x 230Vonnection Ø [mm
coil with two diffe
oils are manuf
n aluminium fr
pressure is 16
chnical data, p
uator is designed
egardless of t
ves are requir
lows and wate
eded. The act
ture control si
ting Coils ng coil is des
an alu-zinc
of 1.5 m/s and
with Limit and
quipped with a
on to the Da
by the internal
ng coil has to
DanX10004.5
C] 25.0 / 3V [A] 6.5V [A] 11.3m] 250
rent sizes can
factured from
rame and epox
6 bar at a m
lease use our
to combine
the present fl
red. At the sam
er temperature
tuator for the v
gnal.
signed to be
coated meta
d a maximum
OT safety the
a built in capa
nX unit. The
controller. Ple
be connected
X 1 DanX0 1750
7.5 38.2 25.0 / 3
10.93 18.90 315
n be supplied
copper tubin
xy painted aft
aximum wate
r selection pro
automatic ba
low. This me
me time only
es and a calcu
valve will be d
built externa
al frame and
outlet temper
ermostats and
acity control fo
e capacity of
ease note tha
d separately a
X 2 DanX0 2750 12
37.9 25.0 / 39 17.39 30.15 400
4mounted into
g with alumin
er assembly.
er temperature
ogram.
alancing and
eans that neit
one valve typ
ulation of the
directly connec
ally into the d
designed fo
ature of 40°C
d have protec
or a 0-10V con
the coil is t
at the main po
and will not co
X 3 DanX0 3500
1738.1 25.0 / 33 24.51 42.70 500
4the
nium
The
e of
full
ther
pe is
Kvs
cted
duct
or a
. All
ction
ntrol
then
ower
ome
X 30
39.0 5 7 0
5.1
5.0 C
A comp
control
energy
necess
The co
Danthe
efficien
has a c
as temp
keys al
5.1 FanThe EC
program
air volu
control.
sensor
Depend
the air
from low
In unoc
humidit
5.2 HumWith th
heat pu
MVC c
entering
normal
to dehu
pump i
the mix
outdoo
maintai
CONTROL
plete DanX 1,
system that
efficient way
sary sensors, d
ontrol system i
erm to perform
nt way. The M
clear LCD disp
peratures, mu
low easy and
n control C fan motors
m of the MVC
ume set poin
. Instead of t
or pool co
ding on the sit
volume set p
w air volume t
ccupied mode
ty or temperat
midity controe DanX HP u
ump together
controller, toge
g the pool ha
ly has the first
umidify. Only
s not started
xing box outd
r air will ent
ined, the mixin
SYSTEM
2 and 3 venti
corresponds
as possible. T
damper motor
s based on a
m control str
MVC controller
play with mes
ulti-leaf dampe
logic pre-prog
can be set
C controller, hig
nt will then be
the time prog
over contact
tuation, the hu
point and force
to high air volu
e it is possible
ture requires t
ol nits the humid
with the mix
ether with the
all through th
t priority, whic
if the temper
to avoid over
door air set p
er the swimm
ng box will slo
lation system
to the actual
The unit is su
rs and safety d
Honeywell M
ategies and f
r is mounted i
sages all imp
er settings, op
gramming of a
to three diffe
gh air volume
e automatical
gram, an exte
can be use
umidity and tem
e the fans to
ume.
e to stop vent
hat.
dity in the swim
ing box. The
minimum wa
e mixing box
ch means it wil
rature in the
rheating. If mo
oint will be o
ming pool ha
wly go back in
for swimming
unit configura
pplied ready w
devices install
MVC controller
functions in t
in the front do
portant service
perating proble
all operating si
erent air volum
e, low air volum
lly kept throu
ernal signal l
ed to set th
mperature co
start up from
tilation and on
mming pool is
wanted hum
anted percenta
x in day time.
ll start first if t
pool hall is t
ore dehumidif
overruled and
all. When the
nto the minimu
5g pools include
ation in the m
wired and with
ed.
r, programmed
the most ene
oor of the un
e conditions, s
ems etc. Func
ituations.
mes in the ti
me and stop. T
gh a modula
like a movem
e air volume
ntrol can over
m stop, or cha
nly start up if
controlled by
idity is set in
age of outside
The heat pu
here is a dem
oo high the h
ication is nee
slowly more
e set humidity
um position an
5es a
most
h all
d by
ergy
it. It
such
ction
mer
The
ating
ment
e.
rrule
nge
the
the
the
e air
ump
and
heat
ded
dry
y is
nd
5.2
the hea
pump w
With th
the mix
with th
through
minimu
dry out
maintai
At high
of the h
1% r.h
temper
the max
5.3.1 TThe tem
(HP) to
minimu
The he
demand
heating
free sig
maintai
stop. In
pump w
the hea
With th
only by
For the
sensor.
sensor
level is
at pump will s
will stop, as no
e DanX XD sy
xing box. The
e minimum w
h the mixing b
um mixing box
tside air will e
ined, the mixin
h outside temp
humidity set p
h. for each
rature the hum
ximum humid
Temperature cmperature in
ogether with t
um / maximum
eat pump has
d to heat up.
g coil is contro
gnal for the
ined, the hea
n case of that
will not start, a
ating is only do
he DanX 1/2/3
y the heating c
e control of t
. Only if the u
is needed so
too low.
stop. In case o
one of the deh
ystem the hum
e wanted hum
wanted perce
box in day tim
x outside air s
enter the swim
ng box will slo
peratures (>23
oint will start.
°C higher ou
midity set point
ity set point co
control (heatithe swimmin
the heating co
m supply air tem
the first priori
If this is not en
olled by a 0-1
hot water p
ting coil will s
t the mixing b
as no energy
one by the hea
3 XD the temp
coil.
the temperatu
unit is stopped
o it is possible
of that the mix
humidified air w
midity in the sw
midity is set in
ntage of outs
me. If there is
set point will
mming pool h
wly go back in
3°C) an outdo
The set point
utside tempe
t will not be ch
ompensation w
ing) g pool hall is
oil. The wante
mperature are
ty, which mea
nough the afte
10V signal for
ump. When
slowly stop he
box is closed (
can be recov
ating coil.
perature in th
ure we are r
d in night time
e to start up t
xing box open
will return to th
wimming pool
n the MVC co
side air enter
s a demand t
be overruled
hall. When th
nto the start p
oor temperatu
t will automatic
erature until
hanged any m
will be +5% r.h
s controlled by
ed room tem
e set in the MV
ans it will star
er heating coil
r the valve ac
the set room
eating and th
(normally nigh
vered from the
he swimming
recommending
e a wall mou
the unit when
5ns 100% the h
he pool hall.
is controlled w
ontroller, toget
ing the pool
to dehumidify
and slowly m
e set humidit
osition.
ure compensa
cally be raised
28°C. After
more. This me
h.
y the heat pu
perature and
VC controller.
rt first if there
will start up. T
ctuator and a
m temperature
e heat pump
ht time), the h
e exhaust air
pool is contro
g always a d
nted temperat
n the temperat
5heat
with
ther
hall
the
more
ty is
ation
d by
that
eans
ump
the
is a
The
volt
e is
will
heat
and
olled
duct
ture
ture
5.3
5.3.2 TIf the te
outside
overrule
not eno
outdoo
5.3.3 TIf free
from th
5.3.4 WIf there
heat pu
the hea
water.
supply
the hea
water th
5.3.5 ETo avo
passive
5.4 ExtIf you d
possibi
controll
unit wil
pool ha
“Closed
Temperature c
emperature in
e air below the
ed and up to
ough the by-pa
r air directly in
Temperature ccooling is not
e controller to
Water cooled e is no deman
ump will norma
at pump circu
The MVC co
if heating is n
at pump and g
hrough the wa
Evaporator deoid icing on th
e (compressor
ternal signal do not want to
lity to conne
ler. If there is
l automatically
all, or the poo
d mode” again
control (free cn the swimmin
e actual room
100% of outdo
ass over the c
nto the swimm
control (activt enough ther
o start a DX co
condenser (Dnd for heating
ally be stoppe
uit energy can
ntroller needs
needed. If this
give a volt fre
ater cooled co
e icing he evaporator
r stop) de-icing
o control the
ct a PIR sen
movement in
y go over into
ol cover is clo
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6.1
6
6.0 DIMENSIONS AND WEIGHT
DanX 1 XD/HP
The unit shown in the picture is left hand position.
DanX 1 HP Weight [kg]
Unit 279
2 RR LPHW heating coil 1
3 RR LPHW heating coil 2
External electrical heating coil 13
DanX 1 XD Weight [kg]
Unit 254
2 RR LPHW heating coil 1
3 RR LPHW heating coil 2
External electrical heating coil 13
A. Return air duct
B. Supply air duct
C. Outdoor duct
D. Exhaust air duct
1 LPHW connection 1 1
6.2
6
DanX 2 XD/HP
The unit shown in the picture is left hand position.
DanX 2 HP Weight [kg]
Unit 379
2 RR LPHW heating coil 8
3 RR LPHW heating coil 10
External electrical heating coil 19
Water cooled condenser 10
DanX 2 XD Weight [kg]
Unit 344
2 RR LPHW heating coil 8
3 RR LPHW heating coil 10
External electrical heating coil 19
A. Return air duct
B. Supply air duct
C. Outdoor air duct
D. Exhaust air duct
1 LPHW connection
1 1
6.3
6
DanX 3 XD/HP
The unit shown in the picture is left hand position.
DanX 3 XD
DanX 3
Weight [kg]
Unit 465
2 RR LPHW heating coil 11
3 RR LPHW heating coil 14
External electrical heating coil 19
DanX 3 HP Weight [kg]
Unit 500
2 RR LPHW heating coil 11
3 RR LPHW heating coil 14
External electrical heating coil 19
Water cooled condenser 10
A. Return air duct
B. Supply air duct
C. Outdoor air duct
D. Exhaust air duct
1 LPHW connection 1 1
ABOUT THE DANTHERM GROUP
Control your climate
The Dantherm Group is a leading provider of climate control products and solutions. The group companies have more than 60 years of experience in designing and manufacturing high quality and energy efficient equipment for heating, cooling, drying and ventilation for a wide range of mobile and fixed applications.
Every year Dantherm Group uses significant resources on product development to stay in the forefront and are constantly adapting the products to changing market demands and legislation.
The Dantherm Group has a number of strong brands with well established market positions in the mobile, pool, commercial/industrial and residential markets.
Dantherm Group customers benefit from our comprehensive knowledge base and the experience and expertise that we have gained from more than three million climate control products and solutions sold worldwide.
Global reach
The Dantherm Group is headquartered in Skive, Denmark and has an own market presence in Norway, Sweden, United Kingdom, Germany, Switzerland, Italy, Spain, Poland, Russia, China and United Arab Emirates.
In 2016 the Dantherm Group was acquired by the Swedish equity fund Procuritas Capital Investors V LP – a strong owner with the ambition to continue the development and growth of the company.
Dantherm A/SMarienlystvej 65 | DK-7800 Skive Tel. +45 96 14 37 00 | Fax +45 96 14 38 [email protected] | www.dantherm.com