New Recording
May 14, 2026 15:22
· 56:55
· Malay
· Whisper Turbo
· 7 Kekahi
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0:05
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Speaker 2 (New Recording)
Kita tambah.
0:06
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Speaker 3 (New Recording)
Lakhir pun tak tambah.
0:08
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Speaker 3 (New Recording)
Based on
0:14
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Speaker 3 (New Recording)
kita punya desain untuk money project.
0:16
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Speaker 3 (New Recording)
Desain
0:22
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Speaker 3 (New Recording)
sedation by
0:26
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Speaker 3 (New Recording)
pelayar jejahin lah kan?
0:27
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Speaker 3 (New Recording)
So macam mana boleh cut out dengan 0 .4 sahaja?
0:31
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Speaker 1 (New Recording)
0 .4 tu daripada kita punya pressure
0:36
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Speaker 1 (New Recording)
loss.
0:36
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Speaker 1 (New Recording)
Dengan minimum pressure untuk kembangkan
0:40
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Speaker 3 (New Recording)
fabric duct.
0:42
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Speaker 1 (New Recording)
So bila kita design tu,
0:44
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Speaker 1 (New Recording)
daripada awal sampai akhir,
0:45
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Speaker 1 (New Recording)
dekat inlet tu kita perlukan 0 .4 lah.
0:48
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Speaker 2 (New Recording)
Tapi dia punya,
0:51
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Speaker 2 (New Recording)
untuk fabric gap punya,
0:53
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Speaker 3 (New Recording)
apa,
0:54
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Speaker 4 (New Recording)
static,
0:55
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Speaker 2 (New Recording)
dia punya,
0:56
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Speaker 2 (New Recording)
apa, static loss punya consideration.
0:58
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Speaker 2 (New Recording)
Nomor ni,
0:59
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Speaker 2 (New Recording)
berapa pascal momentum?
1:01
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Speaker 4 (New Recording)
Dia,
1:02
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Speaker 1 (New Recording)
kita tak ikut perminta.
1:04
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Speaker 1 (New Recording)
Kita ikut per design.
1:05
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Speaker 1 (New Recording)
So kalau macam ada,
1:07
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Speaker 1 (New Recording)
ada,
1:08
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Speaker 1 (New Recording)
ada elbow ke,
1:09
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Speaker 1 (New Recording)
ada D -brunch ke apa,
1:10
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Speaker 1 (New Recording)
dia akan increase kan lagi lah.
1:12
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Speaker 2 (New Recording)
Okay, you know,
1:13
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Speaker 2 (New Recording)
tu meaning,
1:14
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Speaker 2 (New Recording)
meaning,
1:15
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Speaker 2 (New Recording)
okay, faham.
1:15
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Speaker 2 (New Recording)
Tapi kalau untuk straight,
1:16
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Speaker 2 (New Recording)
straight dark,
1:17
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Speaker 2 (New Recording)
normally consideration atau static loss,
1:20
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Speaker 2 (New Recording)
berapa pascal?
1:22
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Speaker 1 (New Recording)
Dalam 0 .06.
1:26
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Speaker 3 (New Recording)
0 .06 batang kes ke pascal.
1:33
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Speaker 1 (New Recording)
So biasanya memang sangat rendah lah.
1:35
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Speaker 2 (New Recording)
Itu...
1:37
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Speaker 3 (New Recording)
Complied to all fabric dark ke,
1:40
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Speaker 3 (New Recording)
the good type of fabric dark?
1:42
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Speaker 1 (New Recording)
Itu average.
1:43
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Speaker 3 (New Recording)
Average lah.
1:45
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Speaker 1 (New Recording)
Sebab kalau macam dia pada segi size dengan...
1:48
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Speaker 1 (New Recording)
Itu pun dia ada perbezaan jugalah.
1:49
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Speaker 1 (New Recording)
Dengan shape ke apa ke.
1:52
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Speaker 2 (New Recording)
0 .06.
2:09
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Speaker 2 (New Recording)
Ok, so kalau refer daripada Encik Zahir punya explanation,
2:13
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Speaker 2 (New Recording)
so kalau refer dekat TTE,
2:16
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Speaker 2 (New Recording)
dekat konsultan punya air issue selection,
2:18
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Speaker 2 (New Recording)
so ESP,
2:20
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Speaker 2 (New Recording)
dia punya,
2:21
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Speaker 2 (New Recording)
apa, extended started pressure dia around 1 .6,
2:23
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Speaker 2 (New Recording)
1 .4.
2:24
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Speaker 2 (New Recording)
So meaning higher daripada requirement daripada pre -order lah,
2:28
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Speaker 2 (New Recording)
dia around 4,
2:29
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Speaker 2 (New Recording)
2 .6,
2:29
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Speaker 2 (New Recording)
dalam 100,
2:30
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Speaker 2 (New Recording)
250 pascal.
2:32
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Speaker 3 (New Recording)
So actually,
2:34
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Speaker 4 (New Recording)
Let's say,
2:35
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Speaker 2 (New Recording)
let's say, kalau ASU punya ESP remain.
2:38
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Speaker 2 (New Recording)
So,
2:39
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Speaker 2 (New Recording)
in terms of technical,
2:41
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Speaker 2 (New Recording)
kenapa private duct akan ada problem?
2:43
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Speaker 1 (New Recording)
Sebab kalau konsep private duct ni,
2:46
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Speaker 1 (New Recording)
dia akan pressurize.
2:47
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Speaker 1 (New Recording)
Sampai ke hujung,
2:49
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Speaker 1 (New Recording)
baru dia akan keluar ke environment lah.
2:51
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Speaker 2 (New Recording)
So,
2:52
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Speaker 1 (New Recording)
bila kalau kita punya static,
2:54
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Speaker 1 (New Recording)
yang masuk ke private duct tu terlampau tinggi.
2:57
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Speaker 1 (New Recording)
dia akan lebih banyak keluar daripada serat -serat benang.
3:00
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Speaker 1 (New Recording)
Fabric tu sendiri.
3:01
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Speaker 3 (New Recording)
So,
3:02
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Speaker 1 (New Recording)
dekat diffuser tu,
3:04
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Speaker 1 (New Recording)
dia akan kurang angin keluar.
3:05
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Speaker 2 (New Recording)
So,
3:06
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Speaker 1 (New Recording)
kita takut bila tinggi sangat,
3:07
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Speaker 1 (New Recording)
angin yang keluar daripada diffuser tu tak sampai ke bawah
3:12
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Speaker 1 (New Recording)
lah. Sebab daripada diffuser tu yang kita dapat shoot
3:16
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Speaker 1 (New Recording)
out jauh dalam 15
3:20
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Speaker 1 (New Recording)
meter lebih lah.
3:23
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Speaker 2 (New Recording)
Okay, so kalau in terms of technical justification lah,
3:26
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Speaker 2 (New Recording)
kalau let's say,
3:27
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Speaker 2 (New Recording)
kalau let's say ASU punya ASP tinggi,
3:30
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Speaker 2 (New Recording)
P -Hoda boleh come out dengan some sort like simulation ke
3:34
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Speaker 2 (New Recording)
ataupun?
3:56
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Speaker 2 (New Recording)
Kita boleh keluarkan
4:00
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Speaker 1 (New Recording)
daripada software sendiri,
4:01
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Speaker 1 (New Recording)
kita tak akan masukkan
4:03
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Speaker 1 (New Recording)
Kita akan show daripada segi airflow report tu lah.
4:05
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Speaker 1 (New Recording)
So airflow report tu dia akan tunjuk angin tu achieve
4:10
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Speaker 1 (New Recording)
ke tak yang kita target.
4:11
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Speaker 2 (New Recording)
So meaning kita boleh come up dengan satu airflow
4:16
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Speaker 2 (New Recording)
simulation kalau follow ESP requirement daripada periode.
4:20
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Speaker 2 (New Recording)
Let's say 0 .6 dia punya airflow pattern macam mana.
4:23
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Speaker 2 (New Recording)
So let's say kalau follow maximum ASU macam mana
4:27
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Speaker 2 (New Recording)
dia punya pattern of flow lah.
4:28
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Speaker 1 (New Recording)
Nanti tu nanti saya akan buat.
4:31
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Speaker 1 (New Recording)
Nanti bisa buat lah.
4:32
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Speaker 3 (New Recording)
Kita punya software tu sendiri
4:36
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Speaker 1 (New Recording)
dia boleh generate one grip up lah untuk airflow punya velocity
4:42
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Speaker 1 (New Recording)
apa semua lah.
4:43
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Speaker 1 (New Recording)
Tapi cuma satu je saya nak tanya kalau macam daripada
4:48
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Speaker 1 (New Recording)
ASU tu sendiri dia memang direct connect ke ASU ke macam
4:52
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Speaker 3 (New Recording)
mana? Kita akan ada rigid up dulu.
5:13
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Speaker 3 (New Recording)
Ini dia punya
5:34
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Speaker 3 (New Recording)
jenis jenis fabric.
5:45
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Speaker 3 (New Recording)
Biasanya type of fabric ni kita akan tengok pada penggunaan
5:50
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Speaker 3 (New Recording)
lah. Kalau macam this one,
5:51
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Speaker 3 (New Recording)
warehouse, usually kita akan pakai yang PMS
5:55
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Speaker 1 (New Recording)
ni lah.
5:56
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Speaker 3 (New Recording)
Sebab warranty dia pun 20 years.
6:00
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Speaker 1 (New Recording)
Okay.
6:00
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Speaker 4 (New Recording)
Ketelok
6:08
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Speaker 1 (New Recording)
dia ada banyak -banyak jenis lah.
6:11
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Speaker 4 (New Recording)
So,
6:16
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Speaker 1 (New Recording)
and then selection untuk E -Fuisa ni,
6:19
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Speaker 1 (New Recording)
dekat sini
6:24
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Speaker 3 (New Recording)
ada yang ni kaya?
6:25
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Speaker 1 (New Recording)
Ada, belas -belas kaya.
6:26
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Speaker 4 (New Recording)
Dekat bawah
6:31
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Speaker 1 (New Recording)
-bawah.
6:49
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Speaker 3 (New Recording)
kalau ikutkan yang kita punya drawing
6:53
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Speaker 3 (New Recording)
ni dia kata bottom of bottom of dot dalam 16
6:58
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Speaker 3 (New Recording)
meter so untuk
7:04
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Speaker 3 (New Recording)
kalau macam small nozzle tu dia boleh go sampai 15 meter tapi
7:09
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Speaker 3 (New Recording)
big nozzle ni dia boleh pergi sampai 30 meter lah
7:14
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Speaker 3 (New Recording)
Bottle of duct 16 -16 meter,
7:17
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Speaker 3 (New Recording)
sebenarnya itu yang kita go for big nozzle lah.
7:20
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Speaker 3 (New Recording)
Dia boleh sampai 60.
7:21
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Speaker 1 (New Recording)
This selection of
7:25
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Speaker 1 (New Recording)
nozzle ni yang kena ikat.
7:26
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Speaker 1 (New Recording)
Kita punya,
7:29
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Speaker 1 (New Recording)
ini cantik tak?
7:31
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Speaker 3 (New Recording)
Tak banyak.
7:33
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Speaker 3 (New Recording)
Sebab dia
7:37
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Speaker 3 (New Recording)
still CFM ni sama.
7:39
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Speaker 3 (New Recording)
Walaupun size dia beza tapi kita
7:43
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Speaker 3 (New Recording)
akan kurangkan kuantiti dia.
7:46
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Speaker 3 (New Recording)
so maksudnya bila kita pakai big nozzle ni dia punya size tu besar
7:50
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Speaker 3 (New Recording)
tapi kuantiti dia akan lagi sikit daripada big nozzle so dia
7:55
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Speaker 3 (New Recording)
macam balance out yang nozzle tu lah so
8:01
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Speaker 2 (New Recording)
let's see lah kalau untuk macam nozzle ni lah sorry saya tak pernah buat perbedaan actually
8:05
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Speaker 2 (New Recording)
so let's see kalau
8:10
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Speaker 2 (New Recording)
So, ni sectional visual lah.
8:11
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Speaker 2 (New Recording)
So,
8:13
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Speaker 2 (New Recording)
nozzle dekat situ,
8:14
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Speaker 2 (New Recording)
dia actually bukan bawah.
8:15
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Speaker 2 (New Recording)
Dia singinya,
8:16
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Speaker 1 (New Recording)
tepinya.
8:17
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Speaker 3 (New Recording)
Dia depend lah kalau macam ujung
8:22
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Speaker 3 (New Recording)
macam ni, mungkin kita buat bawah dengan kanan macam.
8:25
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Speaker 4 (New Recording)
Oh,
8:26
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Speaker 2 (New Recording)
bawah dengan kanan lah.
8:27
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Speaker 2 (New Recording)
So, actually untuk position of the nozzle ni,
8:31
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Speaker 2 (New Recording)
yang ni perlu daripada TTA punya site untuk bagi
8:36
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Speaker 2 (New Recording)
information ke?
8:38
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Speaker 2 (New Recording)
Atau pun?
8:38
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Speaker 3 (New Recording)
Biasanya kalau ni macam site
8:43
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Speaker 3 (New Recording)
tu dah existing,
8:43
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Speaker 3 (New Recording)
memang kita akan calculate dekat site lah.
8:45
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Speaker 4 (New Recording)
Oh,
8:46
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Speaker 2 (New Recording)
memang akan calculate dia sekalipun berbicara lah.
8:49
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Speaker 3 (New Recording)
Means kita kena kira jarak dia apa semua.
8:52
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Speaker 3 (New Recording)
Then kita akan kira angle untuk diffuser
8:57
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Speaker 1 (New Recording)
tu. Okay,
8:58
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Speaker 1 (New Recording)
understood.
8:58
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Speaker 2 (New Recording)
So, before fabricate akan berasal information untuk verify lah.
9:01
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Speaker 1 (New Recording)
Okay, understood.
9:02
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Speaker 2 (New Recording)
And then,
9:03
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Speaker 1 (New Recording)
Dr.
9:03
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Speaker 2 (New Recording)
Dan, kalau macam nozzle ni,
9:04
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Speaker 2 (New Recording)
bila kita dah tahu berapa angle yang kita nak letak.
9:07
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Speaker 2 (New Recording)
Actually,
9:08
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Speaker 2 (New Recording)
untuk dia punya blow ni,
9:11
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Speaker 2 (New Recording)
direction dia kita boleh still adjust ataupun memang dia dah fix?
9:14
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Speaker 3 (New Recording)
Kalau untuk adjust,
9:16
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Speaker 3 (New Recording)
kita pun adanya jenis adjustable nozzle.
9:19
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Speaker 4 (New Recording)
So,
9:21
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Speaker 3 (New Recording)
adjustable nozzle tu dia boleh...
9:25
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Speaker 3 (New Recording)
Macam ni lah.
9:26
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Speaker 3 (New Recording)
Dia boleh bagi atas bawah
9:31
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Speaker 1 (New Recording)
atas bawah. Ini adjustable ni.
9:33
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Speaker 1 (New Recording)
I port macam ni.
9:34
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Speaker 1 (New Recording)
I fish eye.
9:35
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Speaker 3 (New Recording)
Macam ni.
9:36
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Speaker 3 (New Recording)
Dia akan ada macam.
9:39
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Speaker 3 (New Recording)
Tali lah untuk dia naikkan ataupun bila kita renggangkan dia akan
9:44
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Speaker 3 (New Recording)
jatuh ke bawah.
9:45
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Speaker 2 (New Recording)
Tapi dia still dalam family,
9:47
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Speaker 2 (New Recording)
meaning kalau untuk big nozzle,
9:49
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Speaker 2 (New Recording)
ada big nozzle yang adjustable.
9:51
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Speaker 2 (New Recording)
And then small nozzle pun ada yang adjustable,
9:54
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Speaker 1 (New Recording)
tak lah.
9:54
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Speaker 3 (New Recording)
Small nozzle tak ada adjustable.
9:56
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Speaker 2 (New Recording)
Memang big nozzle lah,
9:57
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Speaker 2 (New Recording)
just adjustable lah.
10:00
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Speaker 1 (New Recording)
Buat player request yang boleh adjust kita akan include
10:04
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Speaker 3 (New Recording)
lah. Perlu ke?
10:07
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Speaker 3 (New Recording)
Itu
10:13
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Speaker 2 (New Recording)
kalau adjustable tu just untuk kita buat balancing apa?
10:17
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Speaker 1 (New Recording)
Balancing semuanya kita buat kat software.
10:21
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Speaker 1 (New Recording)
Maksudnya kita akan kira agihan angin berapa banyak -banyak.
10:24
S…
Speaker 1 (New Recording)
Size semua kita dah kira daripada design stage lah.
10:28
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Speaker 1 (New Recording)
So, biasanya orang pakai adjustable nozzle ni biasanya kilang
10:32
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Speaker 1 (New Recording)
-kilang yang dia ada line production
10:36
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Speaker 1 (New Recording)
line.
10:37
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Speaker 1 (New Recording)
So, kadang -kadang production line dia pindah -pindah.
10:40
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Speaker 2 (New Recording)
So,
10:41
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Speaker 1 (New Recording)
orang tu dia pindah line -line,
10:43
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Speaker 1 (New Recording)
so orang dia boleh adjust lah line tu.
10:47
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Speaker 3 (New Recording)
This concept is for cooling.
10:48
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Speaker 2 (New Recording)
It's just angle.
10:52
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Speaker 3 (New Recording)
Angle,
10:53
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Speaker 1 (New Recording)
betul.
10:53
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Speaker 5 (New Recording)
Tapi airflow dia still sama.
10:55
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Speaker 3 (New Recording)
It's totally sama.
10:57
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Speaker 1 (New Recording)
Tapi kalau macam ni 16 meter rasanya tak semua.
11:00
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Speaker 2 (New Recording)
Dia macam fleksibel lah.
11:02
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Speaker 3 (New Recording)
Dia kirim dia macam ada strap untuk
11:06
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Speaker 3 (New Recording)
kita longgar kan,
11:08
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Speaker 1 (New Recording)
tarik kan.
11:08
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Speaker 3 (New Recording)
And
11:13
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Speaker 2 (New Recording)
then kalau macam contoh case macam kita ni yang static
11:17
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Speaker 2 (New Recording)
lah over size kan.
11:20
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Speaker 2 (New Recording)
Ada quantum measure lain lah?
11:23
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Speaker 2 (New Recording)
Macam contoh tukar jenis bedah
11:28
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Speaker 1 (New Recording)
yang lain ke?
11:28
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Speaker 1 (New Recording)
Kita advice untuk tukar pulley lah.
11:32
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Speaker 1 (New Recording)
Yang tu yang paling cost -efficient lah sebenarnya.
11:35
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Speaker 2 (New Recording)
Selain ASU side,
11:37
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Speaker 2 (New Recording)
untuk fabric duct punya side.
11:39
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Speaker 5 (New Recording)
So let's say macam sekarang lah.
11:41
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Speaker 5 (New Recording)
Macam sekarang kita akan ada,
11:42
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Speaker 5 (New Recording)
macam saya tadi saya cakap lah.
11:44
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Speaker 5 (New Recording)
So kita akan submit report
11:48
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Speaker 5 (New Recording)
to consultant lah.
11:50
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Speaker 5 (New Recording)
Saying that dia punya ASP is too high.
11:52
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Speaker 5 (New Recording)
And then attachment yang tadi lah yang saya request tu.
11:55
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Speaker 5 (New Recording)
Untuk kalau at the punya selection of ASP is too high,
11:59
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Speaker 5 (New Recording)
then buat weapon lah.
12:00
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Speaker 5 (New Recording)
So tapi...
12:01
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Speaker 5 (New Recording)
let's say kalau in term of fabric duct pre -order punya side so
12:05
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Speaker 5 (New Recording)
if let's say facing this problem actually ada countermeasure yang
12:09
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Speaker 5 (New Recording)
lain tak like for example sebab you cakap dia akan effect vibration
12:14
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Speaker 5 (New Recording)
dengan performance so let's say kalau untuk suit
12:18
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Speaker 5 (New Recording)
dengan high ESP ada apa -apa countermeasure yang kita boleh buat let's say saya
12:24
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Speaker 3 (New Recording)
kena discuss dengan designer sikit lah
12:28
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Speaker 1 (New Recording)
kita ada yang dia punya
12:33
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Speaker 3 (New Recording)
pressure punya tu tapi saya tak sure dia punya efficiency dia macam mana yang
12:40
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Speaker 1 (New Recording)
high pressure,
12:40
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Speaker 4 (New Recording)
high pressure tak?
12:41
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Speaker 1 (New Recording)
bukan fair pula dia macam dekat dalam tu addition lah macam CW,
12:45
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Speaker 3 (New Recording)
BAV lah untuk reduce static punya pressure tapi maksudnya dia ada
12:49
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Speaker 3 (New Recording)
pressure reducer ke?
12:50
S…
Speaker 1 (New Recording)
bukan reducer dia macam macam
12:54
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Speaker 1 (New Recording)
macam saya nak cakap kan dia macam damper macam damper macam macam
12:59
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Speaker 4 (New Recording)
BAV lah, BAV atas CV so dia akan boleh reduce pressure
13:03
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Speaker 4 (New Recording)
static pressure lah
13:05
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Speaker 1 (New Recording)
Cuma saya tak sure dia sesuai tak untuk kes macam ni lah.
13:08
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Speaker 4 (New Recording)
Tapi tu macam addition dah punya requirement lah.
13:11
S…
Speaker 3 (New Recording)
Betul,
13:12
S…
Speaker 5 (New Recording)
betul. Just before kita explain
13:19
S…
Speaker 5 (New Recording)
to consultant at least if let's say dia cakap dia nak remain dia punya ESP.
13:23
S…
Speaker 5 (New Recording)
Let's say dia nak remain dia punya ESP at least kita ada confirmation je lah.
13:27
S…
Speaker 5 (New Recording)
Kalau let's say kata kalau tak boleh memang kena reduce dia punya ESP then not
13:32
S…
Speaker 1 (New Recording)
sure so.
13:33
S…
Speaker 4 (New Recording)
So, saya faham ni fabric duct ni dia memang stick sana,
13:37
S…
Speaker 4 (New Recording)
dia tak ada fabric material macam tukar yang yang boleh,
13:41
S…
Speaker 4 (New Recording)
material fabric tu yang boleh sustain dengan pressure tu tak dapat lah,
13:45
S…
Speaker 1 (New Recording)
tak ada?
13:45
S…
Speaker 3 (New Recording)
Tak ada.
13:47
S…
Speaker 1 (New Recording)
Sebab biasanya memang untuk fabric duct ni dia lamina flow.
13:51
S…
Speaker 1 (New Recording)
Sebenarnya angin tu dia tak nak terlampau kuat.
13:53
S…
Speaker 3 (New Recording)
So,
13:55
S…
Speaker 4 (New Recording)
dia tak ada tukar material fabric tu kepada contoh produk plastik kau yang boleh sustain tu 1
13:59
S…
Speaker 4 (New Recording)
.6.
14:01
S…
Speaker 3 (New Recording)
Tak berapa sesuai lah.
14:02
S…
Speaker 4 (New Recording)
Tak ada. Memang tak ada lah.
14:04
S…
Speaker 1 (New Recording)
Kita ada yang airtight punya jenis
14:08
S…
Speaker 1 (New Recording)
airtight.
14:08
S…
Speaker 1 (New Recording)
Tapi untuk Malaysia kita takut masalah condensation lah.
14:12
S…
Speaker 1 (New Recording)
Soal febrita ni dia tak ada insulation.
14:16
S…
Speaker 1 (New Recording)
So bila kita pakai yang airtight,
14:19
S…
Speaker 1 (New Recording)
angin tak boleh keluar daripada serat benang tu.
14:21
S…
Speaker 1 (New Recording)
Memang angin tu 100 % keluar kat diffuser.
14:24
S…
Speaker 1 (New Recording)
Tapi takut ada pelezaan condensation lah.
14:28
S…
Speaker 3 (New Recording)
And then actually,
14:29
S…
Speaker 5 (New Recording)
kalau high ESP,
14:31
S…
Speaker 5 (New Recording)
dia akan effect dekat vibration ataupun performance
14:35
S…
Speaker 5 (New Recording)
lah. Tapi kalau fabric dark itself,
14:37
S…
Speaker 5 (New Recording)
actually dia punya maximum allowable pressure berapa?
14:40
S…
Speaker 3 (New Recording)
Sebab
14:45
S…
Speaker 5 (New Recording)
saya ada refer dekat katalog,
14:47
S…
Speaker 5 (New Recording)
actually tak ada mention lah.
14:49
S…
Speaker 1 (New Recording)
Sebab yang ni biasanya daripada segi designing
14:55
S…
Speaker 1 (New Recording)
lah, biasa dalam katalog ni dia tak ada,
14:57
S…
Speaker 1 (New Recording)
tak mendalam.
15:00
S…
Speaker 3 (New Recording)
apa yang macam tu maksimum
15:08
S…
Speaker 1 (New Recording)
kita sampai 0 .6 around 150 pascal
15:13
S…
Speaker 3 (New Recording)
0 .6 still
15:17
S…
Speaker 3 (New Recording)
jauh lagi lah daripada 1 .6 yang
15:29
S…
Speaker 1 (New Recording)
kalau kita buat
15:33
S…
Speaker 1 (New Recording)
untuk stadium pun stadium itu saya design dalam 2 meter 2
15:38
S…
Speaker 1 (New Recording)
.3 meter saiz fabric
15:40
S…
Speaker 1 (New Recording)
dia punya estetik pressure dia baru kita perlukan 0 .8 itu
15:45
S…
Speaker 3 (New Recording)
include hookup semua
15:49
S…
Speaker 1 (New Recording)
lah
15:50
S…
Speaker 2 (New Recording)
Tapi kalau,
15:51
S…
Speaker 2 (New Recording)
okay,
15:52
S…
Speaker 2 (New Recording)
understand?
15:52
S…
Speaker 2 (New Recording)
Macam, okay,
15:53
S…
Speaker 2 (New Recording)
kalau yang based on Earth,
15:56
S…
Speaker 2 (New Recording)
tu punya case lah.
15:56
S…
Speaker 2 (New Recording)
Dia boleh pergi sampai 0 .8.
15:59
S…
Speaker 2 (New Recording)
And macam saya cakap dah,
16:00
S…
Speaker 2 (New Recording)
tu refer dekat dia punya performance lah.
16:03
S…
Speaker 2 (New Recording)
Let's say, kalau high SP,
16:04
S…
Speaker 2 (New Recording)
dia akan jeopardize dia punya performance.
16:06
S…
Speaker 2 (New Recording)
Tapi I mean,
16:07
S…
Speaker 2 (New Recording)
contoh, kalau pressure tinggi and...
16:11
S…
Speaker 2 (New Recording)
berapa maksimum before dia koyak sebab I understand kalau
16:15
S…
Speaker 2 (New Recording)
contoh sekarang requirement 0 .6 they say kita pergi
16:19
S…
Speaker 2 (New Recording)
sampai 1 .6 so dia akan jeopardize dekat dia punya performance so
16:23
S…
Speaker 2 (New Recording)
maybe dia akan kacau dia punya flow tapi fabric product tu boleh
16:27
S…
Speaker 1 (New Recording)
koyak dia kalau
16:32
S…
Speaker 1 (New Recording)
sebab fabric product ni kita akan yang daripada
16:37
S…
Speaker 1 (New Recording)
kita punya design sebelum -sebelum ni lah
16:44
S…
Speaker 1 (New Recording)
Biasanya kita akan letak ada ring lah kat dalam.
16:47
S…
Speaker 1 (New Recording)
Sebab kalau kita tak ada ring kat dalam biasanya bila dia buka tutup -buka tutup
16:51
S…
Speaker 1 (New Recording)
dia akan macam ada pressure dia akan hentak fabric tu
16:55
S…
Speaker 1 (New Recording)
lah. So benda tu bila tinggi sangat dia pun boleh terkoyak dia
16:59
S…
Speaker 3 (New Recording)
punya hujung tu lah.
17:01
S…
Speaker 2 (New Recording)
So berapa maximum actually pressure yang dia boleh withstand before dia koyak?
17:05
S…
Speaker 1 (New Recording)
Sebenarnya 150 tu pun kita dah letak safety.
17:09
S…
Speaker 1 (New Recording)
Sebenarnya
17:12
S…
Speaker 1 (New Recording)
Untuk fabric duct ni around 80 to 90 je lah.
17:14
S…
Speaker 2 (New Recording)
So 80 to 90 still possible lah.
17:17
S…
Speaker 2 (New Recording)
That means 0 .8 to
17:21
S…
Speaker 2 (New Recording)
0 .9 tu still okay lagi lah before the goyak lah.
17:25
S…
Speaker 4 (New Recording)
Betul.
17:26
S…
Speaker 1 (New Recording)
So biasanya yang kita sebenarnya
17:31
S…
Speaker 1 (New Recording)
yang standard kalau betul -betul ikut factory 80
17:36
S…
Speaker 1 (New Recording)
pascal.
17:36
S…
Speaker 1 (New Recording)
80 pascal dalam...
17:40
S…
Speaker 1 (New Recording)
So, bila 80 pascal,
17:42
S…
Speaker 1 (New Recording)
biasa 150 tu kita dah letak safety lah.
17:44
S…
Speaker 1 (New Recording)
Maksudnya,
17:45
S…
Speaker 1 (New Recording)
itu yang paling maksimum sebenarnya.
17:47
S…
Speaker 2 (New Recording)
Lebih daripada tu,
17:50
S…
Speaker 1 (New Recording)
sebelum ni kita pernah pakai sampai tu 100 pascal,
17:53
S…
Speaker 1 (New Recording)
memang banyak problem lah.
17:55
S…
Speaker 1 (New Recording)
Kadang tu sampai dia punya,
17:58
S…
Speaker 1 (New Recording)
kita punya penyangkut pun,
18:00
S…
Speaker 1 (New Recording)
dia boleh terkeluar daripada real.
18:03
S…
Speaker 2 (New Recording)
so one of the ni tapi actually sebab fabric dark fabric
18:07
S…
Speaker 2 (New Recording)
dark actually dia fleksibel kan ok kalau kita compare dengan GI dark rigid
18:12
S…
Speaker 2 (New Recording)
kan so kalau fabric dark actually dia dia kan fleksibel
18:16
S…
Speaker 2 (New Recording)
so macam mana dia boleh jadi vibration vibration
18:20
S…
Speaker 1 (New Recording)
tu kalau dia bila
18:25
S…
Speaker 1 (New Recording)
angin tu bila starting
18:29
S…
Speaker 1 (New Recording)
tu bila starting kan dia kosong so bila kita
18:33
S…
Speaker 1 (New Recording)
on tu dia akan
18:36
S…
Speaker 1 (New Recording)
vibrate waktu angin tu nak pressurize untuk keseluruhan fibrite tu.
18:40
S…
Speaker 1 (New Recording)
So dia akan ada vibrate lah bila kita start
18:44
S…
Speaker 1 (New Recording)
on tu.
18:44
S…
Speaker 1 (New Recording)
Macam punch lah.
18:48
S…
Speaker 1 (New Recording)
Bunyi angin tu macam punch sampai perujung.
18:51
S…
Speaker 1 (New Recording)
So, fabric lelah tu dia akan tekanan tinggi lah.
18:53
S…
Speaker 1 (New Recording)
Dia waktu awal dia lah.
18:55
S…
Speaker 2 (New Recording)
Waktu awal lah.
18:56
S…
Speaker 2 (New Recording)
That's mean after let's say if dia punya ESP tinggi pun.
18:59
S…
Speaker 2 (New Recording)
Even after dia dah jalan for some time,
19:02
S…
Speaker 2 (New Recording)
dia tak akan vibrate lah.
19:03
S…
Speaker 4 (New Recording)
Dah tak.
19:04
S…
Speaker 2 (New Recording)
Just dia akan ada performance.
19:06
S…
Speaker 1 (New Recording)
Tapi bila starting banyak -banyak kali tu biasanya banyak issue lah.
19:09
S…
Speaker 2 (New Recording)
Just kalau ESP ni tinggi,
19:11
S…
Speaker 2 (New Recording)
dia akan effect dia punya performance dia lah.
19:13
S…
Speaker 2 (New Recording)
Kira -kira vibration tu dekat awal -awal dia.
19:15
S…
Speaker 3 (New Recording)
Bila
19:20
S…
Speaker 1 (New Recording)
kita starting tu lah.
19:22
S…
Speaker 3 (New Recording)
Itu software yang FabricDub2ish.
19:25
S…
Speaker 3 (New Recording)
Thehoda peniapan software lah.
19:28
S…
Speaker 3 (New Recording)
Dia ada software yang general
19:32
S…
Speaker 3 (New Recording)
software yang bukan under supplier
19:37
S…
Speaker 3 (New Recording)
punya untuk kerja.
19:38
S…
Speaker 3 (New Recording)
Buat masa ni,
19:42
S…
Speaker 1 (New Recording)
kalau general punya,
19:44
S…
Speaker 1 (New Recording)
diorang biasa kira macam manual
19:48
S…
Speaker 1 (New Recording)
lah.
19:48
S…
Speaker 1 (New Recording)
Kalau software betul -betul yang open source punya,
19:51
S…
Speaker 1 (New Recording)
tak ada lagi.
19:54
S…
Speaker 3 (New Recording)
Maksudnya, menu itu berdasarkan...
19:56
S…
Speaker 1 (New Recording)
Ya, ada graf.
20:00
S…
Speaker 1 (New Recording)
Ada semua.
20:00
S…
Speaker 2 (New Recording)
And then for fitting
20:05
S…
Speaker 2 (New Recording)
apa semua ada calculation dah.
20:07
S…
Speaker 1 (New Recording)
Ada standard calculation dah.
20:10
S…
Speaker 6 (New Recording)
Okay,
20:13
S…
Speaker 5 (New Recording)
lagi satu.
20:13
S…
Speaker 4 (New Recording)
Untuk sebab saya refer dalam selection apa?
20:17
S…
Speaker 4 (New Recording)
Selection periodown yang tak ada mention berapa actually.
20:22
S…
Speaker 4 (New Recording)
kuantiti of nozzle dengan distance of nozzle.
20:24
S…
Speaker 7 (New Recording)
So,
20:25
S…
Speaker 4 (New Recording)
because on our site,
20:27
S…
Speaker 4 (New Recording)
kita orang dengar submit short drawing untuk approval lah,
20:29
S…
Speaker 4 (New Recording)
untuk pre -approval.
20:30
S…
Speaker 4 (New Recording)
Kita understand untuk yang angle,
20:32
S…
Speaker 4 (New Recording)
angle nozzle tu,
20:34
S…
Speaker 4 (New Recording)
after site verification,
20:36
S…
Speaker 1 (New Recording)
baru periode akan beri paket.
20:38
S…
Speaker 4 (New Recording)
Tapi periode boleh advise lah,
20:40
S…
Speaker 4 (New Recording)
berapa number of nozzle dengan distance.
20:42
S…
Speaker 4 (New Recording)
Untuk kita orang incorporate dalam short drawing lah,
20:45
S…
Speaker 4 (New Recording)
untuk submission.
20:47
S…
Speaker 1 (New Recording)
Tapi yang tu kita based on design dulu lah.
20:50
S…
Speaker 1 (New Recording)
Untuk roving yang wasa sekarang.
20:53
S…
Speaker 6 (New Recording)
Okay and
21:10
S…
Speaker 4 (New Recording)
then yang ni saya paling interested lah.
21:12
S…
Speaker 4 (New Recording)
Normally untuk GI duct.
21:15
S…
Speaker 4 (New Recording)
So kalau kita nak buat balancing kita akan guna VCD guna apa.
21:19
S…
Speaker 4 (New Recording)
So kalau macam fabric duct dekat
21:23
S…
Speaker 4 (New Recording)
nozzle tu dia memang tak ada VCD untuk regulate dia punya fluid.
21:27
S…
Speaker 4 (New Recording)
So actually macam mana?
21:32
S…
Speaker 1 (New Recording)
untuk balancing tu sebenarnya semua mulai software kita lah kita
21:36
S…
Speaker 1 (New Recording)
akan kira berapa CFM yang kita perlukan
21:40
S…
Speaker 1 (New Recording)
lepas tu kita akan determine untuk satu nozzle tu berapa banyak
21:45
S…
Speaker 1 (New Recording)
yang kita nak keluarkan CFM contoh macam satu CFM diffuser
21:49
S…
Speaker 1 (New Recording)
tu maybe kita nak letak keluar dalam 300 CFM so
21:53
S…
Speaker 1 (New Recording)
dalam 300 CFM tu dia akan ada size
21:55
S…
Speaker 1 (New Recording)
Dia akan advice kita saiz berapa yang sesuai lah.
22:00
S…
Speaker 5 (New Recording)
Tapi let's say contoh,
22:01
S…
Speaker 4 (New Recording)
oh sorry, contoh macam,
22:02
S…
Speaker 4 (New Recording)
macam Mokea ni for example untuk,
22:05
S…
Speaker 4 (New Recording)
untuk, untuk,
22:06
S…
Speaker 4 (New Recording)
untuk that thing yang ni kan.
22:07
S…
Speaker 4 (New Recording)
So let's say katakanlah untuk semua,
22:10
S…
Speaker 4 (New Recording)
semua nozzle,
22:10
S…
Speaker 7 (New Recording)
kan,
22:11
S…
Speaker 4 (New Recording)
kita nak sama CMH.
22:13
S…
Speaker 4 (New Recording)
And so let's say untuk sizing daripada prehoda,
22:15
S…
Speaker 4 (New Recording)
let's say kalau nearest daripada ASU tu punya nozzle size,
22:19
S…
Speaker 4 (New Recording)
dia kaya contoh let's say 300 CMH lah.
22:22
S…
Speaker 4 (New Recording)
And then dengan yang paling hujung,
22:24
S…
Speaker 4 (New Recording)
dia still nak 300 CMH.
22:25
S…
Speaker 5 (New Recording)
Tapi in term of sizing,
22:26
S…
Speaker 5 (New Recording)
dia sama ke?
22:27
S…
Speaker 5 (New Recording)
Ataupun dia lain.
22:28
S…
Speaker 1 (New Recording)
Dia akan lain sikit.
22:29
S…
Speaker 1 (New Recording)
Sebab untuk fabrik dak ni,
22:32
S…
Speaker 1 (New Recording)
kalau kita buat sama size,
22:35
S…
Speaker 1 (New Recording)
yang hujung akan lagi keluar banyak daripada depan.
22:38
S…
Speaker 1 (New Recording)
Dia lain sikit.
22:40
S…
Speaker 1 (New Recording)
So kita control dia punya opening je lah.
22:42
S…
Speaker 2 (New Recording)
So outlet is
22:46
S…
Speaker 2 (New Recording)
big size tapi inlet dari dak tu lain.
22:49
S…
Speaker 3 (New Recording)
Betul.
22:50
S…
Speaker 1 (New Recording)
So kalau dekat dengan Asia tu biasanya kecil sikit lah.
22:53
S…
Speaker 1 (New Recording)
Ujung
22:58
S…
Speaker 1 (New Recording)
tu besar sikit lah.
23:00
S…
Speaker 4 (New Recording)
Sama je konsep ke?
23:01
S…
Speaker 1 (New Recording)
Konsep dengan OBD -BCD sama lah.
23:04
S…
Speaker 5 (New Recording)
Oh,
23:05
S…
Speaker 4 (New Recording)
so that's mean untuk setiap nozzle tu,
23:08
S…
Speaker 4 (New Recording)
size je takkan sama.
23:09
S…
Speaker 1 (New Recording)
Tapi kalau macam dekat -dekat tu
23:14
S…
Speaker 1 (New Recording)
rasanya lebih kurang sama lah.
23:15
S…
Speaker 6 (New Recording)
Maksudnya
23:23
S…
Speaker 1 (New Recording)
kita design for a section.
23:25
S…
Speaker 1 (New Recording)
Satu section tu 2 meter.
23:27
S…
Speaker 6 (New Recording)
Eh,
23:28
S…
Speaker 2 (New Recording)
5 meter.
23:29
S…
Speaker 3 (New Recording)
So,
23:30
S…
Speaker 1 (New Recording)
5 meter tu biasanya size yang sama lah.
23:33
S…
Speaker 2 (New Recording)
Size ni,
23:35
S…
Speaker 2 (New Recording)
1 ,200 ni ke?
23:43
S…
Speaker 1 (New Recording)
Saya check hari tu semua okey.
23:45
S…
Speaker 2 (New Recording)
Untuk sizing ni cepat ni mana?
23:48
S…
Speaker 1 (New Recording)
Sizing ni kita akan ikut velocity dalam
23:52
S…
Speaker 1 (New Recording)
ducting.
23:52
S…
Speaker 1 (New Recording)
So biasanya kita akan design
23:57
S…
Speaker 1 (New Recording)
dia below daripada 10 meter per second.
23:59
S…
Speaker 2 (New Recording)
So maksudnya 10
24:03
S…
Speaker 2 (New Recording)
meter per second.
24:04
S…
Speaker 1 (New Recording)
Below lah.
24:05
S…
Speaker 1 (New Recording)
Kalau paling cantik dalam 7 meter per second lah.
24:09
S…
Speaker 2 (New Recording)
Ideal.
24:28
S…
Speaker 4 (New Recording)
Haa, kalau kalau kalau kalau
24:42
S…
Speaker 1 (New Recording)
kalau kalau
24:47
S…
Speaker 1 (New Recording)
kalau kalau kalau kalau
25:00
S…
Speaker 1 (New Recording)
paling kecil saya fikir ni DCFM
25:04
S…
Speaker 1 (New Recording)
tu dia berbeza tapi dia punya size ni juga bergurau sama semua kan?
25:07
S…
Speaker 1 (New Recording)
haa size sama je lah mungkin dia nak tengok,
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