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BH79B928H01_print_outline.pdf 2013/09/30 14:10:38
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◇BH79A020H01_F pr nt outline pdf 2013/11/2'『 34:37
BH79A029H01
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MXZ‐2D42VA
MSZモF2Ⅳ E
R410A CWP 1975・ 1
A十■
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3,0(‐ 7° C)
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MSZモF35VE
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Indoor unit l
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Indoor unit 4
Indoor unit S
Indoor unit 6
dB(A,
dB(A)
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clasa de eicienゃ energedぬ
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「oДИШHa КoncyMaЩ ИЯ Ha
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Consum anual de electttcitale Ⅲ2
Maksvlnaine obciattenie
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ptt bivalentnei teplote
bivalens h6me「 sektelen
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a temperatura bivalente
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Capacidad de calefacci6n aux‖ ia「
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|◇BH79A029H01 B printゃ ut‖ ne pdf 2013/11/27 8:35引 G
BH79A029H01
詢 Remgo「 ant eako9e∞ nlttbutes to chmale change Refttge「 ant前 th owo「 giOba waming poten“ 91(GWP,woUid Cont市 bute oss to gloし。l warning than a reれ ig。「ant Mlh highe「 GWR Tloakedto tho atnosphere Th〔 app“ an∞ ∽ ntDinS a「 efttgerant nuid with a cWP equallo 1975 Thヽmeans thal T l kg ofthis rem9orant nuid wOuld bo leaked to the aし nosphore,lhoimpacionglobalwamingwoudbo1975umeshigherdianl kgoFC02,over a po市 od of100 yea「 s Neverけ tO intettoro with the refngo「 ant樹「cuК yoursor。「disassemb o Uie product yOurser and atways aska profession』
‐2 Energy consump“ On based on sし ndard test resり
'lS Actual energy∞nsumpぼ on前‖depend on how the apphan∞ is used and w内 o「e nisI(cated
侶背瑠統」側配粗紀窒Y鴻』跳評歯キ与°溺理脂!冊∴龍♀腱隈計l阜よ焔温:R絶肥詔‖腿 冊諮::ヨ:引熟騰in器
うmung bЫ 』sdnKし肘前田mК hёhoにm GWP bd ttsjt h de Almospha確 _ЫesOs Ge「 at e耐 htt dne KDttmttmusS9kel血 dnem eWPiem ZeLaum v(ln loO」 ahren um das 197争 fache h6her"℃ u ats dervon einem K]ogramm C02 Ve「 suchen Sie niemats,seibst mtt de「 Kむhlmiい
tenDssigko止 unzugohon oder das Produkt e genmachttg auseinande「 zunehmeni wenden Sie sich immer an entsPrechondes Fachpe「 sonatEnergieve「 b「auch aur der GnJndtage von Standard Tostergebttssen Dertatsach‖ che Energieverbrauch h3ngt davon ab,wie das Goratvewondet win〕 und wo es aufgeste‖ 1にt ・
Les fuites de爬 荒190「 ant coninbuent au changement c“ mattquo Un r6frigs「 ant a pOlen面 ol de fechau「omentdu globe(PR6)plus bas∞ ntribueratt moins au r∝ hauFement de ta planete qu un rem96rant a PRC PIus 61eve en cas de fuite danS raし nosphore Cet appa「 el∞njent un ttquidereれigO「 antdonttt PRG estde 1975 CoS SgttSe que S l kg de∞ ‖qWde do fO「む0「antゞ 6chapp』 t dans ratmOsphも re,hmpactsu「 皓「むchau「 omeni du globatt seral 1975 foに 副uS impottnt quo cetul♂ l kgde C02,sur une弾 ●ode de 100 ans N'essayozjam』 s dlnle「 ve雨「vous‐ mamesur e d「 cun de ro「igerant ou de dOmonterte produК vouttmemo Fa止os t(ulou「 s appe1 3 un proFesslonneLConsommaSon dむ ner9io basё e surtos resumats de lest slandatt La∞nsomma“ on d.6nergio「 るo‖ e dёpendra de a maniёre dont rappare“ est uII薔 O etde son empta∝ ment
Lekkend koe middel dfaagt bげ tot k“ maatverandenng Koe middel met een age「 aardopwa「mingsvemo9en(GWP)draagt minde「 bj tot opwarming van do aatte dan koelmidde met eon hoge「 aardopwam ngsvemogen(GWP)aIS het koclmiddetin de atmosFeerterecht komt Dtt appa「 aatbevat koelmiddei met oon aardopwamingsvermogen(GWP)van 1 975 Dttbetekent datats l k9 koe middefin de amosfeerlerechtzou komen,deimpaa van de aa「 dopwa「 nin9 9edurende een peヽ ode van 100ja3「 1_975 keer hoge「 zou zけ n dan d e van l k9 kooldiOX de Man pulee「 hetkoeimiddetcircut nooH zer en demOntee「 het p「 Odua n〔 lo1 2o「 SChakel aitld de hutp in van oon doskundigeEnergieverb「 u k op basis van standaa「 dtest「 esultaton Het workettke energieven,「 uik hangt af van hot gob「uFk on do l∝ane van het apparaat
Las fu93S de re「 もo「anle contttbuyen tt cambo dimう0∞ En caso do pЮ dudrse una fuga,un fef「 gerante con un polendtt de calentamおnto」 ob創 (PCG)hfen。「lendtt menores efectos sob「 e d caに ntamlento」 obal que Otro∞ n un PC6 supe市 o「 Esle apa「ato∞ njene un nu旧。「efttg_
尉冦‖電軒l桟亀臨 覧イこζ落鷹 電寸段早離掃』ち l昆亀配 電3にキ』ζ8q認 古え]:寵毛11記能でを箔 rnttaBamosfeに,Ы 而pado∞bЮ d∽にnlamに耐o gob』 se“a19お veces supe市o「 』de l k9 de C02 du「 antt un pe両 odo de 100 anos No m俺 nle on nm9も n caSO mattpuar ust飩
Consumo de eDe「 gia se9un Os resuhados de p「 uebas esbndaL EI∽ nsumo do ene「 gia「o3depende「おde a ubicaci6n yta fo「 ma en que se unhce e19pa「ato
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La perdha di rerigeranle contttbuis∝ ai camb amend clmaSci in∽ so did spers one neW atmosfe「 D.un「e「ige「ante con un minof pOtenziale di ns∞ damenlo globate(CWP)indde mono sultts∞ Idamento giobale市 spettoつ d un refΠ gerante∞n CWPpu。 levato Questo apparecchioOono un‖ quido refngo「 anle daI GWP patt a 1975 CiO signinca che se l kg di quost(“ qu do romgerante dovesse dispofdo「 si no‖ 'atmosfo「 a,「 impato sulttscaldamonto globale sarobbo 1975 v(llte piむ 。levato ttspeto a quolo dil kg di C02,su un po画 odo di 100 anni Non inte「 veni「 omodo su ci「 cuilo refnge「 antei n6 smontare da sO刊 prodo吼 o「 市v019e「si sempre ad un tocni∞ espertoConsumo di ener9ia n base ai声 suhau de‖ っprova campione‖ consumo「eale di ene「 giaこ れ〕nzione de a maniera tn cuirappa「 e∝ hiO viene u11嘘 ato e de‖ a pos口one in cui O∞ ‖ocato_
Hδ 〔lppOn ΨUK刊 KOし σuwβむλttЫ oTnV Kれ口師 Kn α八八αvn Evα ΨuKイ IК O wε xαwnλ6TEρ0 5uvcwKO Tttgv呵 ¬KnC Cも 電呵onc¬ G OEpwOKpcoFcc(GWP)σ u口β
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λЫ σE wKp6TEpO βcow6(テ Iηv TCVKOσwiC Oと pwcvσ η (テE σxとση WEと VC ΨUKriK6 πouと xtt υΨ呵メ6TEpO GhP σE TEplttω ση ttoU 5(】 ppEじ σ田 0コ VOT口 OσOC pσ H σUVKEKp p`vη σuσxcun■ Cρ ttxo Ψ∪КTIKO UYpO wc GWP Tou[σ oし,cl wE 1975 Au10 σηpσ ttЫ O刊 σv 51cρρEしσЫ OTη v clw6σ 9ctp。 こVα l kg αTう 。υT6 ro ΨuKコКO UYpO,1こπ
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ωση O■ηV TOYKOσwig etpwcvσ η o口 ЫV0 1975 9oρ Cc WEYα ttU了こpη σc cxこση WETη 51cppon l kg c02,σ [
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a atmosfera,o「 em9。「antede Fuga de l k9 doste ttu do
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zadO O do ocat onde se encontra
o aquedmento g ObatdO que um ref「 ige「ante∞ m um GWP supettoL Esle apa「 ehoa1975 mais do que l kg C02,ao longo de um pe市 odo do 100 anos Nunca tente intefen「 em nem desmontaro
し市ky cmad"a pnspEv可しkzmene mimr C‖ ad帝 O S nESim potenO』 om pttsttevanb ku」 ob』 nemu otep「 〔van山 (GWP)by p市 し市ku dO atmosfむ「y pttspdO ku gbb』 nomu olep「 ovantt v nttSel mお「o ako chttdvo s vySSim GWR Tolo zattBdene Obsahtte chttdlacu kvapallnu s GWP rovnaludm sa 1975 Znamenう to tto ak by do atmosttry u前 kJ l k9 1elto chLdacel kvaptthy tt v∬ yV na gbbttne otep「 ova耐 o by b011975 k「 at vyも Ы ako vwyvl kg C02,a lo poぬ s obdoЫ a 100 rokov NIkdy sa nepokbS革 o Zasahovつ ぜdo chttdttceho okruhu ttebo demontovar Ⅲr,bOk a ttdy saob「うtto na odbo「 れfka
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PRODUCT INFORMATION (*)
PRODUCT INFORMATION (*)PRODUCT INFORMATION (*)
PRODUCT INFORMATION (*)
ROOM AIR CONDITIONER
INDOOR MODEL 1/2/3 MSZ-EF18VE / MSZ-EF25VE / -
INDOOR MODEL 4/5/6
- / - / -
OUTDOOR MODEL MXZ-2D42VA
Function (indicate if present)
If function includes heating: Indicate the heating season the
information relates to, Indicated values should relate to one heating
season at a time, Include at least the heating season 'Average',
Average (mandatory)
Y
cooling Y
Warmer (if designated)
N
heating Y
Colder (if designated)
N
Item
ItemItem
Item symbol
symbolsymbol
symbol value
valuevalue
value unit
unitunit
unit Item
ItemItem
Item symbol
symbolsymbol
symbol value
valuevalue
value unit
unitunit
unit
Design load Seasonal efficiency
cooling Pdesignc 4.2 kW cooling SEER 6.8 -
heating/Average Pdesignh 3.2 kW heating/Average SCOP/A 4.2 -
heating/Warmer Pdesignh x kW heating/Warmer SCOP/W x -
heating/Colder Pdesignh x kW heating/Colder SCOP/C x -
Declared capacity for cooling, at indoor temperature 27(19)℃
and outdoor temperature Tj
Declared energy efficiency ratio, at indoor temperature 27(19)
℃ and outdoor temperature Tj
Tj=35℃ Pdc 4.2 kW Tj=35℃ EERd 4.2 -
Tj=30℃ Pdc 3.1 kW Tj=30℃ EERd 6.5 -
Tj=25℃ Pdc 2.0 kW Tj=25℃ EERd 8.7 -
Tj=20℃ Pdc 2.0 kW Tj=20℃ EERd 12.7 -
Declared capacity for heating/Average season, at indoor
temperature 20℃ and outdoor temperature Tj
Declared coefficient of performance/Average season, at
indoor temperature 20℃ and outdoor temperature Tj
Tj=-7℃ Pdh 3.0 kW Tj=-7℃ COPd 3.4 -
Tj=2℃ Pdh 2.7 kW Tj=2℃ COPd 4.5 -
Tj=7℃ Pdh 2.9 kW Tj=7℃ COPd 5.8 -
Tj=12℃ Pdh 3.5 kW Tj=12℃ COPd 6.8 -
Tj=bivalent temperature Pdh 3.0 kW Tj=bivalent temperature COPd 3.4 -
Tj=operating limit Pdh 2.3 kW Tj=operating limit COPd 2.4 -
Declared capacity for heating/Warmer season, at indoor
temperature 20℃and outdoor temperature Tj
Declared coefficient of performance/Warmer season, at indoor
temperature 20℃ and outdoor temperature Tj
Tj=2℃ Pdh x kW Tj=2℃ COPd x -
Tj=7℃ Pdh x kW Tj=7℃ COPd x -Tj=7℃ Pdh x kW Tj=7℃ COPd x -
Tj=12℃ Pdh x kW Tj=12℃ COPd x -
Tj=bivalent temperature Pdh x kW Tj=bivalent temperature COPd x -
Tj=operating limit Pdh x kW Tj=operating limit COPd x -
Declared capacity for heating/Colder season, at indoor
temperature 20℃and outdoor temperature Tj
Declared coefficient of performance/Colder season, at indoor
temperature 20℃ and outdoor temperature Tj
Tj=-7℃ Pdh x kW Tj=-7℃ COPd x -
Tj=2℃ Pdh x kW Tj=2℃ COPd x -
Tj=7℃ Pdh x kW Tj=7℃ COPd x -
Tj=12℃ Pdh x kW Tj=12℃ COPd x -
Tj=bivalent temperature Pdh x kW Tj=bivalent temperature COPd x -
Tj=operating limit Pdh x kW Tj=operating limit COPd x -
Tj=-15℃ Pdh x kW Tj=-15℃ COPd x -
Bivalent temperature Operating limit temperature
heating/Average Tbiv -7 ℃ heating/Average Tol -15 ℃
heating/Warmer Tbiv x ℃ heating/Warmer Tol x ℃
heating/Colder Tbiv x ℃ heating/Colder Tol x ℃
Cycling interval capacity Cycling interval efficiency
for cooling Pcycc x kW for cooling EERcyc x -
for heating Pcych x kW for heating COPcyc x -
Degradation co-efficient
cooling
Cdc 0,25 -
Degradion co-efficient
Cdh 0,25 -
Electric power input in power modes other than 'active mode' Annual electricity consumption
off mode POFF 11 W cooling QCE 216 kWh/a
standby mode PSB 11 W heating/Average QHE 1065 kWh/a
thermostat - off mode PTO 32 W heating/Warmer QHE x kWh/a
crankcase heater mode PCK 0 W heating/Colder QHE x kWh/a
Capacity control (indicate one of three options) Other items
fixed N
Sound power level
(indoor1,2/outdoor)
LWA 60,60/60 dB(A)
staged N Global warming potential GWP 1975
kgCO2eq,
variable Y
Rated air flow
(indoor1,2/outdoor)
-
630,630/1662
m
3
/h
Contact details for obtaining
more information
MITSUBISHI ELECTRIC CORPORATION SHIZUOKA WORKS
3-18-1, Oshika, Suruga-ku, Shizuoka 422-8528, Japan
E-mail: melshierp@nb.MitsubishiElectric.co.jp
(*) This information is based on the "product information requirement" in COMMISSION REGULATION (EU) No206/2012,
E-mail: melshierp@nb.MitsubishiElectric.co.jp
MSZ-EF25VE 299H885W195D (mm)
- -
- -
- -
- -
Function
Capacity control
Item
ItemItem
Item
Seasonal efficiency (
2
)
Energy efficiency class
Other items
TECHNICAL DOCUMENTATION (
TECHNICAL DOCUMENTATION (TECHNICAL DOCUMENTATION (
TECHNICAL DOCUMENTATION (
1
11
1
)
))
)
ROOM AIR CONDITIONER
INDOOR MODEL 1 MSZ-EF18VE 299H885W195D (mm)
INDOOR MODEL 2
INDOOR MODEL 3
INDOOR MODEL 4
INDOOR MODEL 5
INDOOR MODEL 6
OUTDOOR MODEL MXZ-2D42VA 550H800W285D (mm)
cooling Y
heating Y
The heating season
Average (mandatory)
Y
Warmer (if designated)
N
Colder (if designated)
N
fixed N
staged N
variable Y
symbol
symbolsymbol
symbol value
valuevalue
value unit
unitunit
unit
cooling SEER 6.8 -
heating/Average SCOP/A 4.2 -
heating/Warmer SCOP/W x -
heating/Colder SCOP/C x -
cooling SEER A++ -
heating/Average SCOP/A A+ -
heating/Warmer SCOP/W x -
heating/Colder SCOP/C x -
Other items
(1) This information is based on COMMISSION DELEGATED REGULATION (EU)No626/2011,
(2) SEER/SCOP values are measured based on FprEN 14825:2011: Testing and rating at part load conditions and calculation of seasonal performance,
Sound power level (indoor1,2/outdoor) LWA 60,60/60 dB(A)
Refrigerant - R410A -
Global warming potential GWP 1975 kgCO2eq,
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