Unidades Rooftop para
Resfriamento Tipo "Packaged"
com Aquecimento Elétrico
Voyager
TM
12 1/2 - 25 Toneladas - 60 Hz
RT-PRC002-PT
Julho de 2003
Voyager™...um realizador
aprovado, construído para oferecer
conforto interno definitivo.
O Voyager continua a oferecer os mais
altos padrões em qualidade e
confiabi-lidade, conforto e facilidade de
manu-tenção, além do desempenho dos
pro-dutos comerciais leves da Trane.
Introdução
Para os empreiteiros, o Voyager
econo-miza tempo e dinheiro, aumentando
sua capacidade de obter serviços.
Ele satisfaz os critérios de projetos de
engenharia e oferece soluções para
abranger várias aplicações especiais.
E, naturalmente, o Voyager mantém
a reputação da Trane quanto à
exce-lência, qualidade e confiabilidade.
Índice
Introdução
2
Características e Vantagens
4
Considerações de Aplicação
8
Procedimento de Seleção
9
Descrição do Número do Modelo
10
Dados Gerais
11
Dados de Desempenho
15
Desempenho do Resfriamento
15
Desempenho do Ventilador
21
Desempenho do Aquecimento
34
Controles
35
Alimentação Elétrica
36
Dimensões e Pesos
54
Especificações Mecânicas
65
Características
e Vantagens
Cobertura e Gabinete à Prova de
Intempéries
•
As unidades Voyager incorporam
uma cobertura de peça única ou o
Trane-Tite-Top (T3). Cada parte da
cobertura (duas ou três peças)
sobre-põe-se de tal forma que a
água não possa se infiltrar na
unidade. Estas bordas sobrepostas
são vedadas e seladas para garantir
a integridade superior à água.
•
Os painéis de Acesso Rápido (12
1/2-25 toneladas) reduzem o número de
possíveis pontos de entrada de água.
•
Para a integridade adicional à água,
o Voyager tem um rebordo elevado
de 1 1/8" em torno da alimentação e
do retorno das unidades downflow
para evitar o insuflamento da água
para dentro da rede de dutos.
Teste de Qualidade e Confiabilidade
•
Os projetos de montagem do
venti-lador e do braço de pressão foram
testados por mais de 300.000 ciclos
cada. Nosso teste de ciclo combinado
está, agora, acima de 7.000.000 de
ciclos.
•
Todos os projetos do Voyager foram
rigorosamente testados contra
chu-va, em fábrica, para garantir a
inte-gridade à água.
•
Testes de transporte reais foram
rea-lizados para determinar os requisitos
de embalagem. As unidades foram
enviadas como teste para todo o
país, a fim de determinar a melhor
embalagem. Testes de trepidação e
de queda em fábrica foram usados
como parte do processo do projeto
da embalagem para ajudar a
garan-tir que a unidade chegue no local de
instalação em excelentes condições.
•
Os testes com encordamento
in-cluem suspender uma unidade no ar
de deixá-la cair um pé, garantindo
que os ressaltos e as guias de
sus-pensão suportem o estresse.
•
Realizamos um teste de 100% de
vazamento da serpentina, em
fábrica. As serpentinas do
evaporador e do condensador são
testadas contra vazamentos a 200
psig e testadas para pressão para
450m psig.
•
Todas as peças são inspecionadas no
ponto de montagem final. As peças
abaixo do padrão são identificadas e
rejeitadas imediatamente.
•
Todas as unidades recebem um teste
de 100% de funcionamento da
unida-de antes unida-de unida-deixar a linha unida-de
produ-ção para garantir que elas
mante-nham os altos padrões dos rigorosos
requisitos Trane.
Testamos os projetos em nossa
fábrica, não em nossos clientes!
Unidades sem Conversão
•
As unidades de projeto dedicado
(downflow ou horizontal) não
reque-rem reque-remoção do painel ou tempo de
alteração para conversão em campo
- uma grande economia de custos
durante a instalação.
•
As unidades horizontais vêm
comple-tas com flanges de dutos, de forma
que o instalador não precisa
fabricá-los em campo. Estes flanges de dutos
economizam tempo e custos.
Fluxo de Ar em Forma de U
O fluxo de ar em forma de U
proporcio-na capacidades estáticas melhoradas.
Características
e Vantagens
ReliaTel™
Há muitos anos, a Trane foi a primeira
a apresentar ReliaTel no Mercado
Comercial Leve. Aquele projeto,
jun-tamente com uma experiência
imen-surável, proporcionou a tecnologia
para os controles com
microproces-sador ReliaTel de segunda geração.
ReliaTel:
•
Proporciona controle da unidade
para aquecimento, resfriamento e
ventilação, utilizando entrada a partir
de sensores que medem as
tempera-turas externa e interna.
•
Aumenta a qualidade e a
confiabili-dade através do uso de controles e
lógica com microprocessador
tes-tados ao longo do tempo.
•
Evita que a unidade realize ciclos
curtos, aumentando
consideravel-mente a vida do compressor.
•
Garante que o compressor
funcio-nará durante uma quantidade
espe-cífica de tempo, que permite que
o óleo retorne para uma melhor
lubrificação, melhorando a
confiabi-lidade do compressor.
•
Reduz a quantidade de componentes
necessários para operar a unidade;
isto significa reduzir as possibilidades
de falha dos componentes.
•
Elimina a necessidade de
componen-tes instalados em campo com seu
temporizador de anti-ciclo curto
incorporado, relé de retardo e
con-troles de tempo de operação mínimo.
Estes controles são testados em
fábrica para garantir uma operação
adequada.
•
Não requer ferramentas especiais
para operar a unidade através das
suas marchas durante o teste.
Posi-cionar, simplesmente, um jumper
entre os terminais Test 1 e Test 2 na
Placa de Terminais de Baixa Tensão e
a unidade passará através de seus
passos operacionais. A unidade
retor-na o controle, automaticamente, para
o sensor de zona, após o
escalona-mento através do modo de teste
uma única vez, mesmo se o jumper
for deixado na unidade.
•
Enquanto a unidade estiver
energi-zada e o LED estiver aceso, o ReliaTel
estará operacional. A luz indica que o
ReliaTel está funcionando
adequa-damente.
•
Apresenta capacidades de
diagnós-tico estendido quando utilizado com
Sistemas de Conforto Integrado da
Trane.
•
Como um benefício de energia,
sua-viza os "picos" pela gradação dos
ventiladores, compressores e
aque-cedores.
•
A função "Intelligent Fallback" ou
"Adaptive Control" é uma vantagem
para o ocupante do prédio. Se um
componente ficar desorientado, a
unidade continuará a operar em
setpoints de temperaturas
predeter-minados.
•
A "Intelligent Anticipation" é uma
característica padrão do ReliaTel.
Funcionando constantemente, o
ReliaTel e os sensores de zona
traba-lham juntos em harmonia, para
pro-porcionar um controle de conforto
rígido.
Características
e Vantagens
Componentes Padronizados
•
Os componentes são posicionados
no mesmo local em todas as
unida-des Voyager. Familiarizando-se com
um Voyager, você estará
familiari-zado com todos os Voyagers.
•
O ReliaTel pode se adaptar a todos
os modelos, Voyager a Gás/Elétrico
Tipo "Packaged", Resfriamento com
Aquecimento Elétrico e com Heat
Pump. Isto oferece padronização de
peças para as empreiteiras. Menos
dinheiro é vinculado em inventário
utilizando-se o ReliaTel.
•
Empreiteiras/proprietários
podem
estocar menos peças devido à
pa-dronização dos componentes para
todas as unidades Voyager.
Serviço por um Único Lado
O serviço por um único lado é padrão
em todos os Voyagers 12 1/2 -25
tone-ladas.
Painéis de Acesso Rápido nos Voyagers
12 1/2-25 toneladas
Remover três parafusos, ou menos,
para acessar os componentes internos
padronizados e a fiação.
Fácil Acesso à Placa de Terminais de
Baixa Tensão
A Placa de Terminais de Baixa Tensão
do Voyager é externa ao gabinete de
controle elétrico. É extremamente fácil
localizá-la e conectar o fio do
termos-tato. Esta é uma outra característica de
instalação que economiza custos e
tempo.
Conexões de Baixa Tensão
A fiação das conexões de baixa tensão
à unidade e aos sensores de zona é tão
simples quanto 1-1, 2-2 e 3-3. Este
sis-tema simplificado torna a fiação mais
fácil para o instalador.
Fiação Colorida e Numerada
Você economiza tempo e dinheiro na
identificação dos fios e no diagnóstico
da unidade.
VariTrac®
Quando o Sistema VAV de mudança da
Trane para aplicação comercial leve for
acoplado ao Voyager, ele oferece os
mais recentes avanços tecnológicos
para sistemas de gerenciamento de
conforto e pode permitir o controle por
termostato em todas as zonas servidas
pelo VariTrac.
Braço de Pressão de Ajuste Rápido
Com o Braço de Pressão de Ajuste
Rápido, a correia e as polias em todos
os Voyagers de 12 1/2-25 toneladas
podem ser rapidamente ajustadas sem
movimentar o motor do ventilador
montado.O resultado é uma maior
economia de tempo e de dinheiro.
Características
e Vantagens
Modulação da Capacidade
•
Os Voyagers de 12 1/2-25 toneladas
têm compressores duplos.
Compressores
•
O Voyager incorpora a melhor
tecno-logia disponível em compressores
para alcançar o maior desempenho
possível. Os modelos de
compresso-res duplos são excepcionais para
controle de umidade, condições de
resfriamento de carga leve e
aplica-ções de backup de sistema.
Resfriamento com Baixa Temperatura
Ambiente
Todos os Voyagers de 12 1/2-25
tonela-das têm capacidades de resfriamento
até 0°F como padrão.
Opção de Exaustão de Ar
Esta opção está disponível nas
unida-des downflow dos Voyagers de 12
1/2-25 toneladas. Ela proporciona exaustão
do ar de retorno, quando se está
utili-zando um economizador downflow,
para manter uma pressurização
ade-quada do prédio. Excelente para aliviar
a maioria dos problemas de
sobrepres-surização de prédios.
Detecção de CO2
O sensor de CO2 deverá ter a
habilida-de habilida-de monitorar os níveis habilida-de ocupação
do espaço dentro do prédio, medindo
as partes por milhão de CO2 (dióxido
de carbono) no ar. À medida em que os
níveis de CO2 aumentam, o damper de
ar externo modula para satisfazer os
requisitos de ventilação do espaço de
CO2. O acessório CO2 estará disponível
conforme instalado em campo.
Acessório de Sobrecomando da
Ventilação
Com o Acessório de Sobrecomando da
Ventilação instalado, a unidade pode
ser configurada para a transição entre
até 3 seqüências pré-programadas
diferentes para Purga de Fumaça,
Pres-surização e Exaustão.
A transição ocorre quando uma
entra-da binária no RTOM está fechaentra-da (em
curto). Ela é ser tipicamente uma saída
de relé com ligações físicas a partir do
detector de fumaça do painel de
con-trole de incêndios. O acessório de
sobrecomando da ventilação estará
disponível conforme instalado em
campo.
Aplicações Flexíveis
•
Somente dois roof curbs para toda a
linha Voyager...simplifica a seleção de
curb.
•
O fluxo de ar é notável. O Voyager
pode substituir uma máquina mais
antiga com uma rede de dutos velha
e, em muitos casos, aumentar o
con-forto através de uma melhor
distri-buição de ar.
•
Uma ampla variedade de Opcionais
Instalados em Fábrica (FIOPs) está
disponível.
Interface de Comunicação Trane (TCI)
Disponível para instalação em fábrica
ou em campo. Este módulo, quando
aplicado com o Micro, faz
interfacea-mento fácil com o Sistema de Conforto
Integrado da Trane.
Alimentação Elétrica de Ponto Único
Uma conexão elétrica única energiza a
unidade.
Bandejas Inclinadas de Drenagem
Padrão em todas as unidades.
Economizadores Downflow e Horizontal
Os economizadores vêm com três
opções de controle - bulbo seco é
padrão; entalpia e entalpia diferencial
são opcionais.
Acessório Acionador de Estática Alta
Disponível em vários modelos, este
acessório acionador de estática alta
estende a capacidade do motor padrão.
Evite motores caros e custos
operacio-nais altos instalando este acessório de
polia otimizado.
Roof Curbs Construídos em Fábrica
Disponível para unidades downflow.
Sensores de Zona
Disponíveis em estilos programável,
automático e manual.
As seguintes opções completam a
linha de acessórios Voyager:
-
Tampa de ar externo manual de
0-25%
-
Ar externo motorizado para 12
1/2-25 toneladas
Um dos nossos melhores ativos
Os Representantes de Vendas da Trane
são um grupo de Suporte que pode lhe
auxiliar com:
- Produto
- Aplicação
- Serviço
- Treinamento
- Aplicações Especiais
- Especificações
- Programas de Computador e muito
mais
O Voyager tem as características e as
vantagens que o fazem ser de primeira
classe no mercado de rooftop
comer-cial leve. Projetado com informações
de empreiteiros e engenheiros de
cam-po, o desempenho de seu fluxo de ar
em forma de U é excepcional.
Se todos os seus clientes
conhe-cessem o Voyager, todos
insisti-riam em tê-lo.
Considerações
de Aplicação
A aplicação deste produto deve estar
dentro das considerações de fluxo de
ar e de resfriamento catalogadas.
Resfriamento com Baixa Temperatura
Ambiente
Esta linha do Voyager apresenta, como
padrão, um resfriamento ambiente
baixo até 0°F. Entrar em contato com
seu Representante Trane para obter
uma maior assistência nas aplicações
de resfriamento com baixa
temperatu-ra ambiente.
Alívio Barométrico
Esta linha de produtos oferece um
damper de alívio barométrico opcional
incluído no acessório economizador
downflow. Este acessório consiste em
dampers de gravidade que se abrem
com o aumento da pressão. Conforme
aumenta a pressão do ar no prédio, a
pressão na seção do ar de retorno da
unidade também aumenta, abrindo os
dampers e aliviando o espaço
condicionado.
NOTA: A EFICÁCIA DO DAMPER DE
ALÍVIO BAROMÉTRICO DURANTE A
OPERAÇÃO DE ECONOMIA ESTÁ
RELACIONADA AO SISTEMA.
A QUEDA DE PRESSÃO DO SISTEMA
DO AR DE RETORNO DEVE SER
CON-SIDERADA PARA CONTROLAR A
PRESSURIZAÇÃO DO PRÉDIO.
Acessório de Exaustão de Ar
O acessório de exaustão de ar está
disponível em todas as unidades
down-flow de 12 1/2-25 toneladas. Este
aces-sório pode ser instalado em campo e
ajudará o damper de alívio
barométri-co a aliviar a pressurização do prédio.
Coletor do Condensados
O evaporador é uma configuração
"draw-thru". Um coletor deve ser
fornecido em campo antes de iniciar
o ciclo de resfriamento.
Requisitos de Afastamentos
Os afastamentos recomendados
iden-tificados com as dimensões das
unida-des deverão ser mantidos para
garan-tir uma adequada facilidade de
conser-to, capacidade máxima e eficiência de
operação em pico. Os afastamentos
reais que pareçam inadequados
deverão ser revisados com o pessoal
de vendas da Trane local.
Inclinação da Unidade
Estas unidades têm bandejas
inclina-das de drenagem do condensado.
As unidades devem ser instaladas em
nível e qualquer inclinação da unidade
deve estar em direção ao lado de
acesso da unidade.
Procedimento
de Seleção
Capacidade de Resfriamento
Passo 1
Calcule as cargas de resfriamento total
e sensível do prédio nas condições de
projeto. Utilize os métodos de cálculo
da Trane ou qualquer outro método
padrão aceito.
Fatores usados na seleção da unidade:
A
Carga de resfriamento total: 180 MBh
B
Carga de resfriamento sensível: 129 MBh
C
Fluxo de ar: 6000 cfm
D
Características elétricas: 460/60/3
E
Condições de Projeto de Verão:
Serpen-tina do Evaporador de Entrada: bulbo
seco 80, bulbo úmido 67 Ambiente
Externo: 95
F
Pressão Estática Externa: 0,49 pol. de
coluna d'água
G
Rooftop - configuração downflow
H
Acessórios
•
Roof
Curb
•
Economizador
•
Aquecimento Elétrico
I
Aquecimento
•
Capacidade: 115 MBh
•
Aquecimento Elétrico 460 V/trifásico
-6000 cfm
Passo 2
Como um ponto de início, deve ser feita
uma determinação grosseira do
tama-nho da unidade. A seleção final será
fei-ta após examinar o desempenho nas
condições dadas. Divida a carga de
res-friamento total pelo BTUh nominal por
tonelada (12 MBh por tonelada); depois
arredonde para cima para o tamanho
de unidade mais próximo.
180 MBh/ 12 MBh = 15,0 Toneladas
Passo 3
A tabela DD - 2 mostra que um
TCD180b4 tem uma capacidade bruta
de resfriamento de 184 MBh e
capaci-dade sensível de 130 MBh a 6000 cfm e
ambiente externo de bulbo seco 95
com ar de entrada no evaporador com
bulbo seco 80, bulbo úmido 67.
Para encontrar a capacidade em
condições intermediárias que não
estão na tabela
Quando as condições de projeto
estive-rem entre dois números que estão na
tabela de capacidades, é necessária
uma interpolação para aproximar a
capacidade. Nota: uma extrapolação
fora das condições da tabela não é
recomendada.
Passo 4
A fim de selecionar a unidade correta
que satisfaça os requisitos do prédio, o
calor do motor do ventilador deve ser
deduzido a partir da capacidade bruta
de resfriamento. A quantidade de calor
que o motor do ventilador gera é
de-pendente do esforço do motor - cfm e
da pressão estática. Para determinar a
pressão estática total da unidade:
Estática Externa (sistema de dutos)
0,49 col. d'água
Filtro Padrão 1 pol. da Tabela DD - 26
0,10 col. d'água
Economizador
0,04 col. d'água
(100% Ar de Retorno) da Tabela DD - 26
Tamanho do Aquecedor Elétrico de
36 kW da Tab. DD-26
0,07 col. d'água
Pressão Estática Total
0,60 col.d'água
Nota: a Tabela DD - 12 - Desempenho
do Ventilador do Evaporador - deduziu a
queda de pressão para um filtro de
1 pol. que já está na unidade (veja nota
abaixo da Tabela DD - 12). Portanto, a
pressão estática total real é de 0,60
-0,10 (da Tabela DD - 26) = 0,50 de
colu-na d'água.
Com 6000 cfm e 0,50 de coluna d'água,
a Tabela DD - 12 mostra 2,56 bhp para
esta unidade. Note que abaixo da
tabela há uma fórmula para calcular o
Calor do Motor do Ventilador,
3,15 x bhp = MBh.
3,15 x 2,56 = 8,06 MBh.
Agora, subtraia o calor do motor do
ventilador da capacidade bruta de
res-friamento da unidade: Capacidade
Líquida de Resfriamento Total
= 184 MBh - 8,06 = 175,9 MBh.
Passo 5
Se o desempenho não satisfizer a
car-ga requerida do prédio - carcar-ga de
res-friamento total ou sensível, tente uma
seleção na próxima unidade de
tama-nho maior.
Capacidade de Aquecimento
Passo 1
Calcule a carga de aquecimento do
prédio utilizando a fórmula do cálculo
da Trane ou outro método padrão
aceito.
Passo 2
Dimensione a capacidade de
aqueci-mento do sistema para se adaptar à
carga de aquecimento calculada do
prédio . A seguir, os requisitos de
aque-cimento do prédio:
A
Carga de aquecimento total -115,0 MBh
B
6000 cfm
C
Alimentação Elétrica de 460 V/Trifásica
As capacidades do acessório de
aque-cimento elétrico estão listadas na
Tabe-la DD - 27. Da tabeTabe-la, um aquecedor de
36 kW fornecerá 122,94 MBh a 480V.
A fim de determinar a capacidade a
460 V, deve ser usado o fator de
corre-ção da tensão do aquecedor da Tabela
DD - 28. Portanto, 122,94 MBh x 0,94
(fator de correção da tensão) =
115,6 MBh.
Seleção do Fornecimento de Ar
A queda de pressão estática externa
através do sistema de distribuição de
ar foi calculada para ser de 0,50 pol. de
água. Na Tab. DD - 26, a queda de
pres-são estática através do economizador
é de 0,04 e do aquecedor de 36 kW é
de 0,07 polegadas de água (0,49 + 0,04
+ 0,07). Entre na Tabela DD - 12 para
um TCD180B4 a 6000 cfm e pressão
estática de 0,60. O motor padrão a
777 rpm dará o fluxo de ar desejado a
um bhp nominal de 2,71.
Descrição do Número
de Modelo
Nomenclatura de Modelo Típico da Unidade de Resfriamento Tipo “Packaged” com
Aquecimento Elétrico
Dígitos 1, 2 - Tipo do Produto
TC = Resfriamento Tipo “Packaged”,
Aquecimento Elétrico
TF = Com Opcionais Instalados em
Fábrica
Dígito 3 - Configuração do Fluxo
de Ar
D = Downflow
H = Horizontal
Dígitos 4, 5 , 6 - Capacidade Bruta
de Resfriamento Nominal (MBh)
150 = Eficiência Padrão 12½ Toneladas
151 = Alta Eficiência 12½ Toneladas
180 = Eficiência Padrão 15 Toneladas
181 = Alta Eficiência 15 Toneladas
210 = Eficiência Padrão 17½ Toneladas
211 = Alta Eficiência 17½ Toneladas
240 = Eficiência Padrão 20 Toneladas
241 = Alta Eficiência 20 Toneladas
300 = Eficiência Padrão 25 Toneladas
301 = Alta Eficiência 25 Toneladas
T C
D
1 5 0
C
3
0
0
A
A
1 2
3
4 5 6
7
8
9
10
11
12
Dígito 7 - Seqüência Principal de
Desenvolvimento
Dígito 8 - Características Elétricas
3
= 208-230/60/3
4
= 460/60/3
W = 575/60/3
K = 380/60/3
Dígitos 9, 10 - Opções Instaladas
em Fábrica
00
= Nenhum Opcional instalado em
Fábrica
0 A = Economizador instalado em
Fábrica
0B
= Motor Sobredimensionado
0C
= Economizador Downflow e
Motor Sobredimensionado
0F
= Interface de Comunicação Trane
(TCI)
0G = Economizador Downflow e TCI
0H = TXV/Evaporador Face-Split
0 J
= Motor Sobredimensionado e
TXV/Evaporador Face-Split
0K
= Economizador Downflow, Motor
Sobredimensionado e TXV/
Evaporador Face-Split
0L
= Economizador Downflow e TXV/
Evaporador Face-Split
Dígito 11 - Seqüência Secundária
de Projeto
Dados
Gerais
(12 1/2, 15 ton)
Eficiência Padrão
Tabela DG-1 - Dados GeraisUnidades Dow nflow e Horizontal 12½ Ton. Unidades Dow nflow e Horizontal 15 Ton. TC* 150D3, D4, DW, DK TC* 180B3, B4, BW, BK
D e se m pe nho de Re sfr ia m e nto1
Capacidade Bruta de Resfriamento 150000 182000
EER2 9,8 9,9
CFM Nominal / CFM Nominal ARI 5.000/4.400 6.000/5.300 Capac.Líquida de Resfriamento ARI 142000 174000 Valor de Carga Parcial Integrada3 10,5 10,2 Alimentação do Sistema (kW) 14,49 17,57
Com pr e ssor
Cla ssifica çã o Sonor a (BELS)4 9,2 9,2
Se r pe ntina Exte r na - Tipo Alto Desempenho Alto Desempenho
Tamanho do Tubo (pol.) Ø ext. 0,375 0,375
Área da Face (pés2) 24,18 27,12
Fileiras/FPI 2/16 3/16
Se r pe ntina Inte r na - Tipo Alto Desempenho Alto Desempenho
Tamanho do Tubo (pol.) 0,375 0,375
Área da Face (pés2) 17,5 17,5
Filas/FPI 2/15 2/15
Controle Refrigerante Orifício Curto Orifício Curto N° Conex. de Drenag./Tamanho (pol.) 1/1,00 NPT 1/1,00 NPT
Ve ntila dor Exte r no - Tipo Hélice Hélice
N° Utilizado/Diâmetro (pol.) 2/26 2/26 Tipo Acionamento/ N° Marchas Direto/1 Direto/1
CFM 10600 10200
N° Motores/HP 2/0,50 2/0,50
RPM do Motor 1100 1100
Ve ntila dor Inte r no - Tipo FC Centrífugo FC Centrífugo
N° Utilizado 1 1
Diâmetro x Largura (pol.) 15 x 15 15 x 15 Tipo Acionamento/ N° Marchas Correia/1 Correia/1
N° Motores 1 1
HP do Motor (Padrão/Sobredimens.) 3,0/5,0 3,0/5,0 RPM do Motor (Padrão/Sobredimens.) 1.740/3.450 1.740/3.450 Tamanho da Carcaça do Motor
(Padrão/Sobredim.)
145T/145T 145T/145T
Filtr os - Tipo Fornecido6 Descartável Descartável
(N°) Tamanho Recomendado (pol.)
Dow nflow (2) 20 x 20 x 2, (4) 20 x 25 x 2 (2) 20 x 20 x 2, (4) 20 x 25 x 2 Horizontal (2) 20 x 20 x 2, (4) 20 x 25 x 2 (2) 20 x 20 x 2, (4) 20 x 25 x 2
Ca r ga Re fr ige r a nte (Lbs de R-22)5 9,3/9,4/Circuito 17,5/9,5/Circuito
N°/Tipo 2/Scroll Climatuff® 2/Scroll Trane 3-D® /Climatuff
NOTAS:
1. A especificação do Desempenho do Resfriamento é em ambiente a 95°F, bulbo seco de entrada 80°F, bulbo úmido de entrada 67°F. A capacidade bruta não inclui o efeito do calor do motor do ventilador. A capacidade ARI é líquida e inclui o efeito do calor do motor do ventilador. As unidades são convenientes para operação em ±20% do cfm nominal. Certificado de acordo com o programa de certificação de Equipamento Grande Unitário, o qual é baseado na Norma ARI 340/360-93.
2. EER é classificado nas condições ARI e de acordo com a Norma ARI 210/240 ou 360.
3. O Valor de Carga Parcial Integrada é baseado de acordo com a Norma ARI 210/240 ou 360. A especificação das unidades é em ambiente 80°F, bulbo seco de entrada 80°F, bulbo úmido de entrada 67°F em cfm nominal ARI.
4. A Classificação Sonora mostrada é testada de acordo com a Norma ARI 270 ou 370.
5. A carga refrigerante é um valor aproximado. Para um valor mais preciso, veja a plaqueta de identificação da unidade e as instruções de serviço. 6. Também estão disponíveis filtros pregueados de 2 polegadas opcionais.
7. Para unidades 380 V/60 Hz, o motor sobredimensionado é utilizado como o motor padrão. Consultar os dados do motor sobredimensionado. * Indica ambas as unidades, downflow e horizontal.
Dados
Gerais
(17 1/2, 20, 25 ton)
Eficiência Padrão
Tabela DG-2 - Dados GeraisNOTAS:
1. A especificação do Desempenho do Resfriamento é em ambiente a 95°F, bulbo seco de entrada 80°F, bulbo úmido de entrada 67°F. A capacidade bruta não inclui o efeito do calor do motor do ventilador. A capacidade ARI é líquida e inclui o efeito do calor do motor do ventilador. As unidades são convenientes para operação em ±20% do cfm nominal. Certificado de acordo com o programa de certificação de Equipamento Grande Unitário, o qual é baseado na Norma ARI 340/360-93.
2. EER é classificado nas condições ARI e de acordo com a Norma ARI 210/240 ou 360.
3. O Valor de Carga Parcial Integrada é baseado de acordo com a Norma ARI 210/240 ou 360. A especificação das unidades é em ambiente 80°F, bulbo seco de entrada 80°F, bulbo úmido de entrada 67°F em cfm nominal ARI.
4. A Classificação Sonora mostrada é testada de acordo com a Norma ARI 270 ou 370.
5. A carga refrigerante é um valor aproximado. Para um valor mais preciso, veja a plaqueta de identificação da unidade e as instruções de serviço. 6. A carga refrigerante para os modelos horizontais é de 21,5/14,5 por circuito.
7. Também estão disponíveis filtros pregueados de 2 polegadas opcionais.
8. Para unidades 380 V/60 Hz, o motor sobredimensionado é utilizado como o motor padrão. Consultar os dados do motor sobredimensionado. * Indica ambas as unidades, downflow e horizontal.
Unidades Dow nflow e Horizontal 17½ Ton.
Unidades Dow nflow e Horizontal 20 Ton.
Unidades Dow nflow e Horizontal 25 Ton.
TC* 210C3, C4, CW, CK TC* 240B3, B4, BW, BK TC* 300B3, B4, BW, BK
D e se m pe nho de Re sfr ia m e nto1
Capacidade Bruta de Resfriamento 210000 242000 290000
EER2 9,8 9,7 9,7
CFM Nominal / CFM Nominal ARI 7000/5800 8000/7000 10000/8750 Capac.Líquida de Resfriamento ARI 196000 232000 272000 Valor de Carga Parcial Integrada3 10,0 10,0 9,8 Alimentação do Sistema (kW) 20,0 23,91 28,05
Com pr e ssor
2/Scroll Trane 3-D®
Cla ssifica çã o Sonor a (BELS)4 9,4 9,4 9,4
Se r pe ntina Exte r na - Tipo Alto Desempenho Alto Desempenho Alto Desempenho
Tamanho do Tubo (pol.) Ø ext. 0,375 0,375 0,375 Área da Face (pés2) 27,12 35,30 36,43
Fileiras/FPI 3/16 3/16 2/16
Se r pe ntina Inte r na - Tipo Alto Desempenho Alto Desempenho Alto Desempenho
Tamanho do Tubo (pol.) 0,375 0,375 0,375 Área da Face (pés2) 17,50 26,00 26,00
Filas/FPI 4/15 2/15 3/15
Controle Refrigerante Orifício Curto Orifício Curto Orifício Curto N° Conex. de Drenag./Tamanho (pol.) 1/1,00 NPT 1/1,00 NPT 1/1,00 NPT
Ve ntila dor Exte r no - Tipo Hélice Hélice Hélice
N° Utilizado/Diâmetro (pol.) 2/26 2/26 2/28 Tipo Acionamento/ N° Marchas Direto/1 Direto/1 Direto/1
CFM 13.400 14.600 16.700
N° Motores/HP 2/1,0 2/1,0 2/1,0
RPM do Motor 1125 1125 1125
Ve ntila dor Inte r no - Tipo FC Centrífugo FC Centrífugo FC Centrífugo
N° Utilizado 1 1 1
Diâmetro x Largura (pol.) 15 x 15 18 x 18 18 x 18 Tipo Acionamento/ N° Marchas Correia/1 Correia/1 Correia/1
N° Motores 1 1 1
HP do Motor (Padrão/Sobredimens.) 5,0/7,5 5,0/7,5 7,5/NA RPM do Motor (Padrão/Sobredimens.) 3450/3470 3450/3470 3470/NA Tamanho da Carcaça do Motor
(Padrão/Sobredim.)
145T/184T 145T/184T 184T/NA
Filtr os - Tipo Fornecido6 Descartável Descartável Descartável
(N°) Tamanho Recomendado (pol.)
Dow nflow (2) 20 x 20 x 2, (4) 20 x 25 x 2 (4) 20 x 20 x 2, (4) 20 x 25 x 2 (4) 20 x 20 x 2, (4) 20 x 25 x 2 Horizontal (2) 20 x 20 x 2, (4) 20 x 25 x 2 (8) 20 x 25 x 2 (8) 20 x 25 x 2
Ca r ga Re fr ige r a nte (Lbs de R-22)5 21,0/14,3/Circuito 18,9/21,0/Circuito 17,0/Circuito
2/Scroll Trane 3-D® N°/Tipo 2/Scroll Trane 3-D® /Scroll Climatuff®
Dados
Gerais
(12 1/2 ton)
Alta Eficiência
Tabela DG-3 - Dados GeraisUnidades Dow nflow e Horizontal 12½ Ton. TC* 151C3, C4, CW
D e se m pe nho de Re sfr ia m e nto1
Capacidade Bruta de Resfriamento 154000
EER2 11,3
CFM Nominal / CFM Nominal ARI 5.000/4.400 Capac.Líquida de Resfriamento ARI 146000 Valor de Carga Parcial Integrada3 11,5 Alimentação do Sistema (kW) 12,92
Com pr e ssor
Cla ssifica çã o Sonor a (BELS)4 9,2
Se r pe ntina Exte r na - Tipo Alto Desempenho
Tamanho do Tubo (pol.) Ø ext. 0,375 Área da Face (pés2) 27,12
Fileiras/FPI 3/16
Se r pe ntina Inte r na - Tipo Alto Desempenho
Tamanho do Tubo (pol.) 0,375 Área da Face (pés2) 17,50
Filas/FPI 3/15
Controle Refrigerante Orifício Curto (9) N° Conex. de Drenag./Tamanho (pol.) 1/1,00 NPT
Ve ntila dor Exte r no - Tipo Hélice
N° Utilizado/Diâmetro (pol.) 2/26 Tipo Acionamento/ N° Marchas Direto/1
CFM 10400
N° Motores/HP 2/0,50
RPM do Motor 1100
Ve ntila dor Inte r no - Tipo FC Centrífugo
N° Utilizado 1
Diâmetro x Largura (pol.) 15 x 15 Tipo Acionamento/ N° Marchas Correia/1
N° Motores 1
HP do Motor (Padrão/Sobredimens.) 3,0/5,0 RPM do Motor (Padrão/Sobredimens.) 1.740/3.450 Tamanho da Carcaça do Motor
(Padrão/Sobredim.)
145T/145T
Filtr os - Tipo/Fornecido? Descartável/Sim (8)
(N°) Tamanho Recomendado (pol.) (2) 20 x 20 x 2/ (4) 20 x 25 x 2
Ca r ga Re fr ige r a nte (Lbs de R-22)(5)/Circuito 15,0/13,8 (9) N°/Tipo 2/Scroll Copeland
NOTAS:
1. A especificação do Desempenho do Resfriamento é em ambiente 95°F, bulbo seco de entrada 80°F, bulbo úmido de entrada 67°F. A capacidade bruta não inclui o efeito do calor do motor do ventilador.As unidades são convenientes para operação em ±20% do cfm nominal. Certificado de acordo com o programa de certificação de Equipamento Grande Unitário, o qual é baseado na Norma ARI 340/360-93.
2. EER é classificado nas condições ARI e de acordo com os procedimentos de teste DOE.
3. O Valor de Carga Parcial Integrada é baseado na Norma ARI 210/240 ou 360. A especificação das unidades é em ambiente 80°F, bulbo seco de entrada 80°F, bulbo úmido de entrada 67°F no cfm nominal ARI.
4. A Classificação Sonora mostrada é testada de acordo com a Norma ARI 270 ou 370.
5. A carga refrigerante é um valor aproximado. Para um valor mais preciso, veja a plaqueta de identificação da unidade e as instruções de serviço. 6. A área de face para Serpentina Interna em modelos horizontais é 12,36.
7. Os modelos horizontais têm filtros 4 - 20 x 25 x 2.
8. Filtros pregueados de 2 polegadas opcionais também estão disponíveis para modelos de 12 1/2 toneladas.
9. Opção TXV/Face-Split (Somente Downflow) TCD151C3, 4, W (Controle de refrigerante): Válvula de Expansão; (Carga Refrigerante): 13,4/12,0 * Indica ambas as unidades, downflow e horizontal.
RT-PRC002-PT
1 4
Dados
Gerais
(15, 17 1/2, 20, 25 ton)
Alta Eficiência
Tabela DG-4 - Dados Gerais
15 Ton 17 1/2 ton 20 ton 25 ton
TC* 181C3, C4, CW TC* 211C3, C4, CW TC* 241C3, C4, CW TC* 301C3, C4, CW D esem p en h o d e Resf riam en t o1
Capacidade Bruta de Resfriamento 189000 220000 268000 (9) 300000 (11)
EER2 11,5 (8) 11,0 10,6 10,4 (11)
CFM Nominal / CFM Nominal ARI 6000/5300 7000/6200 8000/7000 10000/8750
Capac. Líquida de Resfriamento ARI 190000 208000 250000 (9) 278000
Valor de Carga Parcial Integrada3 13,3 12,0 11,2 11,0 (11)
Alimentação do Sistema (kW) 15,65 (8) 18,91 23,58 (9) 26,73 (11)
Co m p resso r
Classif icação So n o ra (BELS)4 9,2 9,4 9,4 9,4
Serp en t in a Ext ern a - Tipo Alto Desempenho Alto Desempenho Alto Desempenho Alto Desempenho
Tamanho do Tubo (pol.) Ø ext. 0,375 0,375 0,375 0,375
Área da Face (pés2) 35,30 35,30 35,30 35,30
Fileiras/FPI 3/16 3/16 3/16 3/16
Serp en t in a In t ern a - Tipo Alto Desempenho Alto Desempenho Alto Desempenho Alto Desempenho
Tamanho do Tubo (pol.) 0,375 0,375 0,375 0,375
Área da Face (pés2) 26,00 26,00 26,00 26,00
Fileiras/FPI 3/15 4/15 4/15 4/15
Controle Refrigerante Orifício Curto (8) Orifício Curto Orifício Curto (8) Orifício Curto (8)
N° Conex. de Drenag./Tamanho (pol.) 1/1,0 NPT 1/1,0 NPT 1/1,0 NPT 1/1,0 NPT
Ven t ilad o r Ext ern o - Tipo Hélice Hélice Hélice Hélice
N° Utilizado/Diâmetro (pol.) 2/26 2/26 2/26 2/26
Tipo Acionamento/ N° Marchas Direto/1 Direto/1 Direto/1 Direto/1
CFM 11000 12800 13700 13700
N° Motores/HP 2/0,50 2/1,00 2/1,00 2/1,00
RPM do Motor 1100 1100 1100 1100
Ven t ilad o r In t ern o - Tipo FC Centrífugo FC Centrífugo FC Centrífugo FC Centrífugo
N° Utilizado 1 1 1 1
Diâmetro x Largura (pol.) 18 x 18 18 x 18 18 x 18 18 x 18
Tipo Acionamento/ N° Marchas Correia/1 Correia/1 Correia/1 Correia/1
N° Motores 1 1 1 1
HP do Motor (Padrão/Sobredimens.) 3,0/5,0 5,0/7,5 5,0/7,5 7,5/NA
RPM do Motor (Padrão/Sobredimens.) 1.740/3.450 3.450/3.470 3.450/3.470 3.470/NA
Tamanho da Carcaça do Motor (Padrão/Sobredim.)
145T/145T 145T/184T 145T/184T 184T/NA
Filt ro s - Tipo Fornecido6 Descartável Descartável Descartável Descartável
(N°) Tamanho Recomendado (pol.) (4/4) 20 x 20 x 2/ 20 x 25 x 2 (6) (4/4) 20 x 20 x 2/ 20 x 25 x 2 (6) (4/4) 20 x 20 x 2/ 20 x 25 x 2 (6) (4/4) 20 x 20 x 2/ 20 x 25 x 2 (6)
Carg a Ref rig eran t e (Lbs de R-22) (5)/Circuito
25/13 (8) 25,7/12,5 (10) 21,8/21,8 (9) 24,5/24,5 (11) 2/Scroll Trane 3-D/
Scroll Copeland
2/Scroll Trane 3-D Unidades Dow nflow e Horizontal
N°/Tipo Scroll Trane 3-D®/
Scroll Climatuff®
2/Scroll Trane3-D/ Scroll Copeland
NOTAS:
1. A especificação do Desempenho do Resfriamento é em ambiente 95°F, bulbo seco de entrada 80°F, bulbo úmido de entrada 67°F. A capacidade bruta não inclui o efeito do calor do motor do ventilador.As unidades são convenientes para operação em ±20% do cfm nominal. Certificado de acordo com o programa de certificação de Equipamento Grande Unitário, o qual é baseado na Norma ARI 340/360-93.
2. EER é classificado nas condições ARI e de acordo com os procedimentos de teste DOE.
3. O Valor de Carga Parcial Integrada é baseado na Norma ARI 210/240 ou 360. A especificação das unidades é em ambiente 80°F, bulbo seco de entrada 80°F, bulbo úmido de entrada 67°F no cfm nominal ARI.
4. A Classificação Sonora mostrada é testada de acordo com a Norma ARI 270 ou 370.
5. A carga refrigerante é um valor aproximado. Para um valor mais preciso, veja a plaqueta de identificação da unidade e as instruções de serviço. 6. Os modelos horizontais têm filtros 4 - 20 x 25 x 2.
7. Filtros pregueados de 2 polegadas opcionais também estão disponíveis para modelos de 12 1/2 toneladas.
8. Opção TXV/Face-Split (Somente Downflow) TCD181C3, 4, W (EER):11,4; (Alimentação Elétrica do Sistema kW): 15,79; (Controle Refrigerante): Válvula de Expansão; (Carga Refrigerante): 26,0/12,0
9. Opção TXV/Face-Split (Somente Downflow) TCD241C3, 4, W (Capacidade Bruta de Resfriamento): 259.000; (Capacidade Líquida de Resfriamento ARI): 244.000; (Alimentação Elétrica do Sistema kW): 23,02; (Controle Refrigerante): Válvula de Expansão; (Carga Refrigerante): 21,5/22,2
10. Opção TXV/Face-Split (Somente Downflow) TCD211C3, 4, W (Carga Refrigerante): 27,0/10,0
11. Opção TXV/Face-Split (Somente Downflow) TCD301C3, 4, W (EER): 10; (Capacidade Bruta de Resfriamento): 294.000; (Capacidade Líquida de Resfriamento ARI): 272.000; (IPLV): 10,6; (Alimentação Elétrica do Sistema kW): 27,2; Controle Refrigerante: Válvula de Expansão; (Carga Refrigerante): 21,0/23,0
Dados
de Desempenho
(12 1/2, 15 ton)
Eficiência Padrão
Tabela DD-1 - Capacidades Brutas de Resfriamento (MBH) 12½ Ton. Trifásico TC*150D3, D4, DW, DK
MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC 75 135,0 108,0 153,0 86,0 162,0 59,3 126,0 103,0 146,0 82,0 158,0 56,7 116,0 98,2 138,0 77,7 152,0 53,8 106,0 93,1 127,0 80,0 145,0 50,5 4500 80 136,0 128,0 154,0 105,0 163,0 79,5 127,0 123,0 147,0 101,0 159,0 76,5 117,0 117,0 138,0 97,0 153,0 73,2 110,0 110,0 128,0 92,2 145,0 69,6 85 142,0 142,0 154,0 123,0 164,0 95,9 135,0 135,0 147,0 120,0 159,0 94,2 127,0 127,0 138,0 116,0 153,0 91,7 120,0 120,0 128,0 111,0 146,0 88,5 90 150,0 150,0 155,0 142,0 166,0 112,0 144,0 144,0 148,0 139,0 161,0 111,0 137,0 137,0 139,0 136,0 154,0 109,0 130,0 130,0 130,0 130,0 146,0 107,0 75 139,0 114,0 155,0 89,8 163,0 60,4 129,0 109,0 149,0 85,4 159,0 57,9 120,0 104,0 141,0 89,5 154,0 55,0 109,0 98,9 131,0 85,1 147,0 51,6 5000 80 140,0 136,0 156,0 109,0 164,0 81,3 130,0 130,0 149,0 106,0 160,0 79,1 123,0 123,0 141,0 102,0 155,0 75,8 115,0 115,0 131,0 97,5 147,0 72,2 85 147,0 147,0 157,0 129,0 166,0 98,2 141,0 141,0 150,0 126,0 161,0 96,8 133,0 133,0 141,0 123,0 155,0 94,8 125,0 125,0 131,0 118,0 148,0 91,9 90 155,0 155,0 158,0 148,0 167,0 115,0 149,0 149,0 151,0 147,0 163,0 115,0 143,0 143,0 143,0 143,0 157,0 114,0 135,0 135,0 135,0 135,0 149,0 111,0 75 142,0 120,0 157,0 91,3 164,0 61,5 132,0 115,0 151,0 88,8 160,0 59,0 122,0 110,0 143,0 84,2 155,0 56,1 112,0 104,0 133,0 89,9 148,0 52,9 5500 80 143,0 143,0 158,0 112,0 165,0 82,0 135,0 135,0 152,0 110,0 161,0 80,4 127,0 127,0 143,0 107,0 156,0 78,3 119,0 119,0 134,0 102,0 149,0 74,7 85 152,0 152,0 159,0 133,0 167,0 99,9 145,0 145,0 152,0 132,0 163,0 99,1 138,0 138,0 144,0 129,0 157,0 97,4 130,0 130,0 134,0 125,0 150,0 95,0 90 159,0 159,0 160,0 154,0 169,0 118,0 153,0 153,0 153,0 153,0 164,0 118,0 147,0 147,0 147,0 147,0 158,0 117,0 140,0 140,0 140,0 140,0 151,0 116,0 75 145,0 125,0 158,0 93,3 165,0 62,5 135,0 120,0 153,0 91,2 161,0 60,1 125,0 115,0 145,0 87,3 156,0 57,2 115,0 110,0 136,0 82,8 149,0 54,0 6000 80 147,0 147,0 159,0 115,0 166,0 82,9 140,0 140,0 153,0 114,0 162,0 81,7 132,0 132,0 145,0 111,0 157,0 79,3 123,0 123,0 136,0 107,0 150,0 76,5 85 155,0 155,0 161,0 137,0 168,0 101,1 149,0 149,0 154,0 137,0 164,0 101,0 142,0 142,0 146,0 135,0 158,0 99,8 134,0 134,0 137,0 131,0 151,0 97,8 90 161,0 161,0 162,0 159,0 170,0 120,0 156,0 156,0 156,0 156,0 166,0 121,0 150,0 150,0 150,0 150,0 160,0 121,0 143,0 143,0 143,0 143,0 152,0 119,0 Temperatura ambiente 85 95 105 115
Bulbo úmido de entrada Fluxo de Ar CFM Bulbo Seco de Entrada (F) 73 61 67 73 67 73 61 67 61 67 73 61 NOTAS:
1. Todas as capacidades mostradas são brutas e não consideraram o calor do ventilador interno. Para obter o resfriamento líquido subtraia o calor do ventilador interno.
2. MBH = Capacidade Bruta de Resfriamento Total 3. SHC = Capacidade de Calor Sensível
Tabela DD-2 - Capacidades Brutas de Resfriamento (MBH) 15 Ton. Trifásico TC*180B3, B4, BW, BK
MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC 75 168,0 133,0 188,0 106,0 198,0 73,0 157,0 128,0 181,0 101,0 194,0 70,4 147,0 122,0 172,0 97,0 187,0 67,3 137,0 117,0 162,0 92,1 179,0 63,2 5400 80 168,0 156,0 188,0 128,0 199,0 97,3 155,0 155,0 181,0 125,0 195,0 94,3 149,0 143,0 172,0 120,0 188,0 90,8 140,0 137,0 162,0 115,0 179,0 86,7 85 174,0 174,0 189,0 150,0 200,0 117,0 166,0 166,0 182,0 147,0 196,0 115,0 158,0 158,0 172,0 143,0 189,0 113,0 150,0 150,0 162,0 138,0 180,0 110,0 90 184,0 184,0 190,0 172,0 202,0 136,0 177,0 177,0 183,0 170,0 197,0 135,0 170,0 170,0 170,0 170,0 190,0 133,0 162,0 162,0 165,0 157,0 181,0 131,0 75 172,0 140,0 190,0 110,0 199,0 74,3 161,0 134,0 184,0 106,0 195,0 71,7 151,0 129,0 175,0 101,0 189,0 68,7 140,0 124,0 165,0 96,1 181,0 64,9 6000 80 169,0 169,0 191,0 133,0 200,0 99,4 164,0 157,0 184,0 130,0 196,0 97,2 155,0 151,0 176,0 126,0 190,0 93,8 145,0 145,0 165,0 121,0 182,0 89,9 85 181,0 181,0 192,0 156,0 202,0 119,0 173,0 173,0 185,0 154,0 198,0 118,0 165,0 165,0 176,0 151,0 191,0 116,0 157,0 157,0 166,0 146,0 183,0 113,0 90 189,0 189,0 193,0 179,0 204,0 140,0 183,0 183,0 183,0 183,0 199,0 139,0 176,0 176,0 178,0 171,0 193,0 138,0 168,0 168,0 170,0 166,0 184,0 136,0 75 176,0 147,0 192,0 112,0 200,0 75,5 165,0 141,0 186,0 110,0 196,0 73,0 154,0 136,0 178,0 105,0 190,0 69,8 144,0 130,0 168,0 99,8 182,0 66,1 6600 80 178,0 171,0 193,0 136,0 201,0 101,0 169,0 165,0 187,0 135,0 197,0 98,8 160,0 159,0 178,0 131,0 191,0 96,1 150,0 150,0 168,0 127,0 183,0 92,6 85 185,0 185,0 194,0 161,0 203,0 122,0 179,0 179,0 188,0 160,0 199,0 121,0 171,0 171,0 179,0 158,0 193,0 119,0 163,0 163,0 169,0 153,0 185,0 116,0 90 193,0 193,0 193,0 193,0 205,0 143,0 188,0 188,0 188,0 188,0 201,0 143,0 181,0 181,0 182,0 178,0 195,0 142,0 173,0 173,0 174,0 174,0 186,0 140,0 75 179,0 152,0 194,0 114,0 201,0 76,7 168,0 147,0 188,0 112,0 197,0 74,2 158,0 142,0 180,0 109,0 191,0 71,0 142,0 142,0 170,0 103,0 183,0 67,2 7200 80 182,0 177,0 195,0 140,0 202,0 103,0 173,0 172,0 189,0 139,0 198,0 100,0 164,0 164,0 181,0 136,0 192,0 97,6 155,0 155,0 171,0 132,0 184,0 94,4 85 189,0 189,0 196,0 166,0 204,0 125,0 183,0 183,0 190,0 166,0 200,0 123,0 176,0 176,0 182,0 164,0 194,0 121,0 167,0 167,0 167,0 167,0 186,0 119,0 90 197,0 197,0 197,0 197,0 206,0 146,0 192,0 192,0 193,0 187,0 202,0 146,0 185,0 185,0 186,0 184,0 196,0 146,0 177,0 177,0 177,0 177,0 188,0 144,0 61 67 73 67 73 61 67 Fluxo de Ar CFM Bulbo Seco de Entrada (F) 73 61 67 73 61
Bulbo úmido de entrada Temperatura ambiente
85 95 105 115
NOTAS:
1. Todas as capacidades mostradas são brutas e não consideraram o calor do ventilador interno. Para obter o resfriamento líquido subtraia o calor do ventilador interno.
2. MBH = Capacidade Bruta de Resfriamento Total 3. SHC = Capacidade de Calor Sensível
Dados
de Desempenho
(17 1/2, 20 ton)
Eficiência Padrão
Tabela DD-3 - Capacidades Brutas de Resfriamento (MBH) 17½ Ton. Trifásico TC*210C3, C4, CW, CK
MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC 75 195,0 171,0 213,0 127,0 224,0 83,3 182,0 164,0 206,0 124,0 219,0 80,1 169,0 158,0 195,0 119,0 213,0 76,1 155,0 151,0 181,0 113,0 204,0 71,8 6300 80 200,0 200,0 214,0 157,0 226,0 114,0 191,0 191,0 207,0 156,0 221,0 112,0 180,0 180,0 196,0 153,0 214,0 110,0 168,0 168,0 183,0 147,0 205,0 106,0 85 211,0 211,0 217,0 188,0 229,0 140,0 204,0 204,0 209,0 188,0 223,0 139,0 195,0 195,0 199,0 186,0 216,0 139,0 184,0 184,0 187,0 182,0 206,0 137,0 90 219,0 219,0 220,0 217,0 230,0 164,0 214,0 214,0 214,0 214,0 225,0 167,0 207,0 207,0 207,0 207,0 218,0 169,0 198,0 198,0 198,0 198,0 208,0 168,0 75 199,0 181,0 215,0 131,0 225,0 84,7 187,0 176,0 208,0 129,0 221,0 81,4 174,0 169,0 198,0 125,0 215,0 77,7 160,0 160,0 185,0 119,0 206,0 73,4 7000 80 206,0 206,0 217,0 164,0 228,0 116,0 198,0 198,0 210,0 164,0 222,0 114,0 188,0 188,0 200,0 162,0 216,0 113,0 176,0 176,0 187,0 157,0 207,0 110,0 85 216,0 216,0 220,0 197,0 230,0 144,0 210,0 210,0 213,0 198,0 225,0 144,0 202,0 202,0 204,0 198,0 218,0 145,0 192,0 192,0 192,0 192,0 209,0 144,0 90 224,0 224,0 224,0 224,0 233,0 172,0 219,0 219,0 219,0 219,0 227,0 173,0 212,0 212,0 212,0 212,0 221,0 177,0 204,0 204,0 204,0 204,0 211,0 177,0 75 203,0 191,0 217,0 135,0 226,0 86,1 192,0 187,0 211,0 138,0 222,0 82,9 178,0 178,0 201,0 131,0 216,0 79,2 165,0 165,0 188,0 126,0 208,0 75,0 7700 80 211,0 211,0 219,0 169,0 229,0 118,0 204,0 204,0 212,0 171,0 224,0 117,0 194,0 194,0 203,0 170,0 218,0 116,0 183,0 183,0 191,0 167,0 209,0 114,0 85 220,0 220,0 222,0 203,0 232,0 147,0 214,0 214,0 216,0 207,0 226,0 148,0 207,0 207,0 207,0 207,0 220,0 150,0 197,0 197,0 197,0 197,0 211,0 150,0 90 226,0 226,0 226,0 226,0 235,0 176,0 223,0 223,0 222,0 222,0 229,0 179,0 216,0 216,0 216,0 216,0 223,0 184,0 208,0 208,0 208,0 208,0 214,0 186,0 75 206,0 199,0 218,0 138,0 227,0 87,8 195,0 195,0 212,0 143,0 223,0 84,3 183,0 183,0 203,0 136,0 217,0 80,6 171,0 171,0 190,0 132,0 209,0 76,5 8400 80 214,0 214,0 221,0 174,0 230,0 120,0 208,0 208,0 214,0 178,0 226,0 120,0 199,0 199,0 205,0 178,0 219,0 119,0 188,0 188,0 194,0 176,0 211,0 117,0 85 222,0 222,0 224,0 210,0 233,0 150,0 217,0 217,0 218,0 215,0 228,0 151,0 211,0 211,0 211,0 211,0 222,0 155,0 202,0 202,0 202,0 202,0 213,0 156,0 90 229,0 229,0 229,0 229,0 236,0 181,0 225,0 225,0 225,0 225,0 231,0 184,0 220,0 220,0 219,0 219,0 225,0 190,0 212,0 212,0 212,0 212,0 216,0 193,0 61 67 73 67 73 61 67 Fluxo de Ar CFM Bulbo Seco de Entrada (F) 73 61 67 73 61
Bulbo úmido de entrada Temperatura ambiente
85 95 105 115
NOTAS:
1. Todas as capacidades mostradas são brutas e não consideraram o calor do ventilador interno. Para obter o resfriamento líquido subtraia o calor do ventilador interno.
2. MBH = Capacidade Bruta de Resfriamento Total 3. SHC = Capacidade de Calor Sensível
*Indica ambas as unidades, downflow e horizontal.
Tabela DD-4 - Capacidades Brutas de Resfriamento (MBH) 20 Ton. Trifásico TC*240B3, B4, BW, BK
MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC 75 223,0 180,0 251,0 143,0 265,0 97,7 209,0 173,0 242,0 137,0 260,0 94,3 195,0 165,0 228,0 130,0 252,0 90,3 180,0 158,0 212,0 135,0 241,0 85,5 7200 80 226,0 214,0 252,0 173,0 267,0 131,0 208,0 208,0 242,0 169,0 261,0 127,0 197,0 197,0 228,0 162,0 253,0 122,0 186,0 186,0 213,0 155,0 242,0 117,0 85 235,0 235,0 253,0 204,0 268,0 158,0 224,0 224,0 242,0 200,0 262,0 156,0 213,0 213,0 229,0 194,0 253,0 153,0 201,0 201,0 214,0 188,0 242,0 149,0 90 248,0 248,0 255,0 234,0 271,0 185,0 239,0 239,0 245,0 232,0 264,0 185,0 228,0 228,0 228,0 228,0 255,0 183,0 217,0 217,0 217,0 217,0 243,0 179,0 75 229,0 190,0 255,0 148,0 267,0 99,4 215,0 183,0 246,0 142,0 262,0 96,1 200,0 175,0 233,0 136,0 254,0 92,2 185,0 168,0 218,0 129,0 244,0 87,1 8000 80 228,0 228,0 256,0 180,0 268,0 134,0 217,0 217,0 246,0 176,0 264,0 131,0 205,0 205,0 233,0 171,0 255,0 127,0 193,0 193,0 218,0 164,0 245,0 121,0 85 243,0 243,0 257,0 212,0 271,0 162,0 233,0 233,0 247,0 210,0 265,0 161,0 222,0 222,0 234,0 206,0 257,0 158,0 210,0 210,0 220,0 199,0 245,0 155,0 90 255,0 255,0 259,0 245,0 273,0 190,0 247,0 247,0 247,0 247,0 267,0 191,0 237,0 237,0 237,0 237,0 258,0 190,0 226,0 226,0 226,0 226,0 247,0 187,0 75 234,0 199,0 257,0 151,0 268,0 101,0 220,0 192,0 249,0 147,0 263,0 97,9 205,0 184,0 237,0 141,0 256,0 93,7 190,0 177,0 222,0 134,0 246,0 88,6 8800 80 236,0 236,0 259,0 185,0 270,0 136,0 224,0 224,0 249,0 183,0 265,0 134,0 212,0 212,0 237,0 178,0 257,0 130,0 200,0 200,0 222,0 172,0 247,0 126,0 85 250,0 250,0 260,0 220,0 273,0 165,0 240,0 240,0 251,0 219,0 267,0 165,0 229,0 229,0 239,0 216,0 259,0 163,0 217,0 217,0 225,0 210,0 248,0 160,0 90 260,0 260,0 263,0 254,0 275,0 194,0 253,0 253,0 253,0 253,0 270,0 196,0 244,0 244,0 244,0 244,0 261,0 196,0 233,0 233,0 233,0 233,0 250,0 194,0 75 238,0 208,0 259,0 154,0 269,0 103,0 224,0 201,0 251,0 151,0 265,0 99,6 209,0 193,0 240,0 146,0 257,0 95,1 194,0 186,0 225,0 139,0 248,0 89,2 9600 80 242,0 242,0 261,0 190,0 271,0 137,0 231,0 231,0 252,0 189,0 266,0 136,0 219,0 219,0 240,0 185,0 259,0 133,0 206,0 206,0 226,0 180,0 249,0 129,0 85 254,0 254,0 263,0 227,0 274,0 167,0 246,0 246,0 254,0 227,0 269,0 168,0 236,0 236,0 243,0 225,0 261,0 167,0 224,0 224,0 229,0 220,0 251,0 165,0 90 264,0 264,0 264,0 264,0 277,0 198,0 258,0 258,0 258,0 258,0 272,0 201,0 249,0 249,0 249,0 249,0 263,0 202,0 239,0 239,0 239,0 239,0 252,0 201,0 Temperatura ambiente 85 95 105 115 Fluxo de Ar CFM Bulbo Seco de Entrada (F) 73 61 67 73 61
Bulbo úmido de entrada
61 67 73
67 73 61 67
NOTAS:
1. Todas as capacidades mostradas são brutas e não consideraram o calor do ventilador interno. Para obter o resfriamento líquido subtraia o calor do ventilador interno.
2. MBH = Capacidade Bruta de Resfriamento Total 3. SHC = Capacidade de Calor Sensível
Dados
de Desempenho
(25 ton)
Eficiência Padrão
Tabela DD-5 - Capacidades Brutas de Resfriamento (MBH) 25 Ton. Trifásico TC*300B3, B4, BW, BK
MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC 75 266,0 224,0 299,0 174,0 319,0 118,0 247,0 215,0 285,0 167,0 309,0 113,0 228,0 205,0 266,0 172,0 297,0 108,0 209,0 196,0 244,0 163,0 280,0 99,9 80 270,0 268,0 300,0 215,0 321,0 161,0 252,0 252,0 285,0 209,0 311,0 155,0 237,0 237,0 266,0 200,0 297,0 149,0 221,0 221,0 244,0 190,0 280,0 142,0 9000 85 286,0 286,0 301,0 255,0 323,0 196,0 272,0 272,0 286,0 250,0 312,0 194,0 256,0 256,0 267,0 242,0 298,0 189,0 240,0 240,0 246,0 233,0 281,0 183,0 90 301,0 301,0 304,0 295,0 326,0 232,0 289,0 289,0 289,0 289,0 314,0 231,0 275,0 275,0 275,0 275,0 300,0 229,0 259,0 259,0 259,0 259,0 282,0 224,0 75 272,0 237,0 303,0 180,0 322,0 120,0 253,0 227,0 290,0 174,0 312,0 115,0 234,0 218,0 271,0 165,0 300,0 109,0 214,0 208,0 249,0 156,0 284,0 102,0 80 277,0 277,0 304,0 223,0 324,0 171,0 262,0 262,0 290,0 219,0 314,0 161,0 246,0 246,0 271,0 211,0 301,0 155,0 229,0 229,0 249,0 201,0 284,0 147,0 10000 85 294,0 294,0 306,0 266,0 327,0 208,0 282,0 282,0 291,0 263,0 316,0 200,0 266,0 266,0 273,0 257,0 302,0 197,0 249,0 249,0 253,0 248,0 285,0 192,0 90 308,0 308,0 310,0 309,0 329,0 239,0 297,0 297,0 297,0 297,0 318,0 240,0 284,0 284,0 284,0 284,0 304,0 239,0 268,0 268,0 268,0 268,0 286,0 235,0 75 275,0 243,0 305,0 183,0 323,0 122,0 256,0 233,0 291,0 177,0 314,0 117,0 236,0 223,0 273,0 188,0 301,0 111,0 216,0 214,0 251,0 178,0 285,0 103,0 80 282,0 282,0 306,0 227,0 325,0 174,0 267,0 267,0 292,0 223,0 315,0 162,0 250,0 250,0 273,0 216,0 302,0 157,0 233,0 233,0 251,0 206,0 286,0 150,0 10500 85 298,0 298,0 308,0 272,0 328,0 216,0 286,0 286,0 294,0 270,0 317,0 203,0 270,0 270,0 276,0 264,0 304,0 200,0 253,0 253,0 256,0 255,0 286,0 196,0 90 312,0 312,0 311,0 311,0 330,0 256,0 301,0 301,0 301,0 301,0 320,0 244,0 288,0 288,0 288,0 288,0 306,0 244,0 273,0 273,0 272,0 272,0 288,0 241,0 75 278,0 248,0 306,0 185,0 324,0 123,0 258,0 239,0 293,0 181,0 315,0 118,0 239,0 229,0 275,0 172,0 302,0 113,0 217,0 217,0 253,0 184,0 286,0 104,0 80 286,0 286,0 308,0 231,0 325,0 160,0 271,0 271,0 294,0 228,0 316,0 163,0 254,0 254,0 276,0 221,0 304,0 160,0 237,0 237,0 253,0 212,0 287,0 153,0 11000 85 301,0 301,0 310,0 277,0 327,0 224,0 289,0 289,0 296,0 276,0 319,0 205,0 274,0 274,0 278,0 271,0 305,0 204,0 257,0 257,0 257,0 257,0 288,0 200,0 90 314,0 314,0 314,0 314,0 330,0 266,0 304,0 304,0 304,0 304,0 321,0 248,0 291,0 291,0 291,0 291,0 307,0 249,0 276,0 276,0 276,0 276,0 289,0 246,0 Temperatura ambiente 85 95 105 115 Fluxo de Ar CFM Bulbo Seco de Entrada (F) 73 61 67 73 61
Bulbo úmido de entrada
61 67 73
67 73 61 67
NOTAS:
1. Todas as capacidades mostradas são brutas e não consideraram o calor do ventilador interno. Para obter o resfriamento líquido subtraia o calor do ventilador interno.
2. MBH = Capacidade Bruta de Resfriamento Total 3. SHC = Capacidade de Calor Sensível
4. A tabela é para uma capacidade a 460 volts. Para capacidades a 230 volts, multiplicar a capacidade na tabela por 101%
Dados
de Desempenho
(12 1/2 ton)
Alta Eficiência
Tabela DD-6 - Capacidades Brutas de Resfriamento (MBH) 12½ Ton. Trifásico TC*151C3, C4, CW
MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC 75 137,0 116,0 157,0 90,2 166,0 60,8 127,0 110,0 151,0 87,1 163,0 58,5 116,0 105,0 140,0 82,3 158,0 55,8 106,0 99,7 128,0 80,6 152,0 52,8 4500 80 140,0 139,0 158,0 111,0 167,0 82,9 130,0 130,0 151,0 109,0 164,0 80,8 122,0 122,0 141,0 104,0 159,0 77,8 114,0 114,0 128,0 98,5 152,0 74,6 85 149,0 149,0 158,0 132,0 169,0 100,0 142,0 142,0 151,0 131,0 165,0 99,4 133,0 133,0 141,0 126,0 159,0 98,2 125,0 125,0 130,0 121,0 152,0 96,0 90 158,0 158,0 160,0 153,0 170,0 118,0 152,0 152,0 154,0 152,0 166,0 118,0 145,0 145,0 145,0 145,0 160,0 118,0 137,0 137,0 137,0 137,0 153,0 117,0 75 141,0 123,0 159,0 93,4 167,0 61,6 131,0 117,0 154,0 90,9 164,0 59,4 120,0 112,0 144,0 86,6 159,0 56,8 109,0 107,0 132,0 81,0 153,0 53,7 5000 80 145,0 145,0 160,0 116,0 168,0 84,1 136,0 136,0 154,0 114,0 165,0 82,4 128,0 128,0 144,0 110,0 161,0 80,9 119,0 119,0 132,0 105,0 154,0 77,5 85 155,0 155,0 161,0 138,0 170,0 103,0 148,0 148,0 155,0 138,0 166,0 102,0 140,0 140,0 145,0 135,0 161,0 102,0 131,0 131,0 134,0 129,0 154,0 100,0 90 162,0 162,0 163,0 160,0 172,0 121,0 157,0 157,0 157,0 157,0 168,0 122,0 151,0 151,0 151,0 151,0 163,0 123,0 143,0 143,0 143,0 143,0 155,0 122,0 75 145,0 129,0 161,0 95,8 168,0 62,6 134,0 124,0 156,0 94,4 165,0 60,4 123,0 119,0 147,0 90,4 161,0 57,8 112,0 112,0 135,0 85,1 154,0 54,6 5500 80 150,0 150,0 162,0 119,0 169,0 85,2 142,0 142,0 156,0 119,0 167,0 84,0 133,0 133,0 147,0 116,0 162,0 82,4 124,0 124,0 135,0 111,0 155,0 80,1 85 158,0 158,0 163,0 143,0 172,0 104,0 153,0 153,0 157,0 144,0 168,0 104,0 146,0 146,0 149,0 143,0 163,0 105,0 137,0 137,0 137,0 137,0 156,0 104,0 90 165,0 165,0 165,0 165,0 173,0 123,0 161,0 161,0 161,0 161,0 170,0 126,0 156,0 156,0 156,0 156,0 164,0 127,0 149,0 149,0 149,0 149,0 157,0 127,0 75 148,0 136,0 162,0 97,9 168,0 63,5 137,0 131,0 157,0 97,1 166,0 61,4 126,0 125,0 150,0 94,3 162,0 58,9 116,0 116,0 138,0 89,0 155,0 55,6 6000 80 154,0 154,0 163,0 123,0 170,0 86,2 147,0 147,0 158,0 124,0 168,0 85,8 138,0 138,0 150,0 122,0 162,0 83,3 128,0 128,0 138,0 117,0 156,0 82,2 85 161,0 161,0 165,0 147,0 172,0 106,0 157,0 157,0 160,0 150,0 169,0 106,0 151,0 151,0 152,0 150,0 164,0 107,0 142,0 142,0 142,0 142,0 158,0 107,0 90 167,0 167,0 167,0 167,0 174,0 126,0 164,0 164,0 164,0 164,0 171,0 128,0 159,0 159,0 159,0 159,0 166,0 131,0 153,0 153,0 153,0 153,0 159,0 132,0 Temperatura ambiente 85 95 105 115 Fluxo de Ar CFM Bulbo Seco de Entrada (F) 73 61 67 73 61
Bulbo úmido de entrada
61 67 73
67 73 61 67
NOTAS:
1. Todas as capacidades mostradas são brutas e não consideraram o calor do ventilador interno. Para obter o resfriamento líquido subtraia o calor do ventilador interno.
2. MBH = Capacidade Bruta de Resfriamento Total 3. SHC = Capacidade de Calor Sensível
Dados
de Desempenho
(15, 17 1/2 ton)
Alta Eficiência
Tabela DD-7 - Capacidades Brutas de Resfriamento (MBH) 15Ton. Trifásico TC*181C3, C4, CW
MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC 75 172,0 144,0 194,0 112,0 205,0 75,2 159,0 138,0 185,0 107,0 200,0 71,9 147,0 131,0 172,0 101,0 193,0 68,0 130,0 130,0 158,0 97,0 183,0 63,4 5400 80 175,0 169,0 195,0 138,0 207,0 103,0 164,0 162,0 186,0 134,0 202,0 99,7 153,0 153,0 173,0 128,0 194,0 95,4 142,0 142,0 158,0 122,0 183,0 90,5 85 185,0 185,0 196,0 164,0 209,0 126,0 176,0 176,0 186,0 161,0 203,0 124,0 165,0 165,0 174,0 156,0 195,0 122,0 155,0 155,0 155,0 155,0 184,0 117,0 90 195,0 195,0 195,0 195,0 211,0 149,0 188,0 188,0 190,0 184,0 204,0 148,0 178,0 178,0 179,0 179,0 196,0 147,0 168,0 168,0 167,0 167,0 184,0 144,0 75 177,0 153,0 197,0 116,0 207,0 76,0 164,0 147,0 189,0 112,0 202,0 73,2 151,0 140,0 176,0 106,0 195,0 69,3 138,0 131,0 162,0 99,8 185,0 64,8 6000 80 181,0 180,0 198,0 144,0 209,0 105,0 170,0 170,0 189,0 142,0 204,0 103,0 159,0 159,0 177,0 136,0 196,0 99,4 148,0 148,0 162,0 130,0 186,0 94,6 85 192,0 192,0 199,0 172,0 211,0 129,0 183,0 183,0 190,0 171,0 206,0 129,0 173,0 173,0 173,0 173,0 197,0 127,0 162,0 162,0 162,0 162,0 186,0 124,0 90 201,0 201,0 200,0 200,0 214,0 153,0 194,0 194,0 195,0 194,0 208,0 155,0 185,0 185,0 185,0 185,0 199,0 154,0 175,0 175,0 175,0 175,0 187,0 152,0 75 181,0 162,0 198,0 123,0 208,0 76,6 168,0 155,0 191,0 117,0 204,0 74,4 152,0 152,0 180,0 111,0 197,0 70,6 142,0 139,0 165,0 105,0 187,0 66,2 6600 80 186,0 186,0 200,0 151,0 210,0 107,0 177,0 177,0 192,0 148,0 206,0 105,0 166,0 166,0 180,0 144,0 198,0 102,0 154,0 154,0 166,0 137,0 188,0 98,6 85 197,0 197,0 202,0 179,0 213,0 131,0 189,0 189,0 194,0 180,0 208,0 132,0 179,0 179,0 183,0 173,0 199,0 132,0 168,0 168,0 170,0 166,0 189,0 129,0 90 204,0 204,0 205,0 202,0 215,0 157,0 199,0 199,0 199,0 199,0 209,0 159,0 191,0 191,0 191,0 191,0 201,0 160,0 181,0 181,0 181,0 181,0 190,0 160,0 75 184,0 170,0 200,0 127,0 209,0 79,1 168,0 168,0 193,0 121,0 206,0 76,4 156,0 156,0 182,0 116,0 198,0 71,9 145,0 145,0 168,0 110,0 189,0 67,4 7200 80 191,0 191,0 202,0 153,0 211,0 108,0 182,0 182,0 194,0 154,0 207,0 107,0 171,0 171,0 183,0 151,0 199,0 105,0 159,0 159,0 169,0 145,0 190,0 102,0 85 200,0 200,0 204,0 185,0 214,0 134,0 194,0 194,0 194,0 194,0 209,0 136,0 185,0 185,0 187,0 181,0 201,0 135,0 174,0 174,0 174,0 174,0 191,0 134,0 90 207,0 207,0 208,0 207,0 217,0 160,0 203,0 203,0 203,0 203,0 211,0 163,0 195,0 195,0 195,0 195,0 203,0 166,0 186,0 186,0 186,0 186,0 192,0 167,0 Temperatura ambiente 85 95 105 115 Fluxo de Ar CFM Bulbo Seco de Entrada (F) 73 61 67 73 61
Bulbo úmido de entrada
61 67 73
67 73 61 67
NOTAS:
1. Todas as capacidades mostradas são brutas e não consideraram o calor do ventilador interno. Para obter o resfriamento líquido subtraia o calor do ventilador interno.
2. MBH = Capacidade Bruta de Resfriamento Total 3. SHC = Capacidade de Calor Sensível
*Indica ambas as unidades, downflow e horizontal.
Tabela DD-8 - Capacidades Brutas de Resfriamento (MBH) 17 1/2 Ton. Trifásico TC*211C3, C4, CW
MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC 75 200,0 169,0 224,0 130,0 233,0 86,2 184,0 162,0 215,0 125,0 231,0 83,3 169,0 154,0 199,0 118,0 226,0 79,3 147,0 147,0 180,0 113,0 214,0 74,2 6300 80 202,0 202,0 225,0 161,0 236,0 118,0 190,0 190,0 216,0 158,0 234,0 117,0 177,0 177,0 200,0 151,0 227,0 112,0 164,0 164,0 181,0 142,0 214,0 107,0 85 216,0 216,0 227,0 191,0 239,0 143,0 206,0 206,0 217,0 190,0 236,0 146,0 193,0 193,0 202,0 184,0 228,0 144,0 180,0 180,0 185,0 176,0 215,0 139,0 90 227,0 227,0 230,0 221,0 242,0 169,0 220,0 220,0 220,0 220,0 239,0 175,0 209,0 209,0 209,0 209,0 229,0 174,0 196,0 196,0 195,0 195,0 217,0 171,0 75 205,0 180,0 226,0 134,0 234,0 87,6 190,0 172,0 219,0 131,0 233,0 84,8 174,0 164,0 204,0 124,0 228,0 80,8 155,0 155,0 184,0 116,0 218,0 76,0 7000 80 210,0 210,0 228,0 167,0 237,0 119,0 198,0 198,0 220,0 167,0 236,0 120,0 185,0 185,0 205,0 160,0 229,0 117,0 171,0 171,0 186,0 152,0 218,0 112,0 85 223,0 223,0 230,0 199,0 241,0 145,0 215,0 215,0 222,0 202,0 238,0 150,0 202,0 202,0 209,0 197,0 231,0 150,0 188,0 188,0 191,0 189,0 219,0 147,0 90 232,0 232,0 233,0 230,0 244,0 173,0 227,0 227,0 227,0 227,0 241,0 180,0 218,0 218,0 218,0 218,0 232,0 182,0 205,0 205,0 204,0 204,0 221,0 181,0 75 210,0 190,0 228,0 138,0 235,0 88,9 195,0 183,0 222,0 137,0 234,0 86,0 179,0 175,0 208,0 130,0 229,0 82,4 161,0 161,0 188,0 122,0 220,0 77,7 7700 80 217,0 217,0 231,0 173,0 239,0 120,0 206,0 206,0 223,0 174,0 237,0 121,0 192,0 192,0 209,0 169,0 231,0 121,0 178,0 178,0 190,0 161,0 221,0 116,0 85 228,0 228,0 232,0 206,0 242,0 148,0 221,0 221,0 226,0 211,0 240,0 153,0 210,0 210,0 214,0 209,0 234,0 156,0 196,0 196,0 195,0 195,0 222,0 154,0 90 235,0 235,0 235,0 235,0 245,0 176,0 232,0 232,0 232,0 232,0 243,0 185,0 224,0 224,0 224,0 224,0 235,0 189,0 213,0 213,0 212,0 212,0 224,0 191,0 75 214,0 200,0 230,0 141,0 236,0 90,3 200,0 193,0 224,0 141,0 235,0 87,4 181,0 181,0 211,0 136,0 230,0 83,8 166,0 166,0 191,0 128,0 222,0 79,2 8400 80 222,0 222,0 232,0 177,0 239,0 133,0 213,0 213,0 226,0 181,0 238,0 123,0 199,0 199,0 213,0 178,0 233,0 124,0 184,0 184,0 194,0 170,0 223,0 121,0 85 231,0 231,0 234,0 211,0 243,0 149,0 226,0 226,0 229,0 220,0 241,0 155,0 216,0 216,0 216,0 216,0 235,0 161,0 203,0 203,0 202,0 202,0 224,0 162,0 90 238,0 238,0 238,0 238,0 246,0 178,0 235,0 235,0 235,0 235,0 244,0 189,0 229,0 229,0 229,0 229,0 237,0 195,0 219,0 219,0 219,0 219,0 227,0 199,0 73 67 73 61 67 Fluxo de Ar CFM Bulbo Seco de Entrada (F) 73 61 67 73 61
Bulbo úmido de entrada
61 67 Temperatura ambiente
85 95 105 115
NOTAS:
1. Todas as capacidades mostradas são brutas e não consideraram o calor do ventilador interno. Para obter o resfriamento líquido subtraia o calor do ventilador interno.
2. MBH = Capacidade Bruta de Resfriamento Total 3. SHC = Capacidade de Calor Sensível