Gl Tube Type Oil Cooler Series

Description:

Productum hoc a nostro comitatu conficitur, quod coniungens cum basi int ernali et externo technologiae et artis provectae. Materia fistulae edulio-commutationis, in costa demissa fistulae aeris rubra adoptata, fabrica transversalis tabulae ruptricis venae, turbulentae tabulae et artis mechanismi divulgationis antecedens fabrica, notas habet structurae novae, parvam dimensionem, lucem. ponderis et caloris bene mutandi effectum a- t mox. Productum hoc novum genus est et efficientiae higli frigidioris, maxime in viscositate hydrau- lica et oleo adhibita ad refrigerandum opus olei ad temperatura definitam. Ita est facilitas idealis refrigerationis quae late adhiberi potest ad refrigerandum hydraulica instrumenta in commercio sicut industria chemica, potentia electrica, industria metallurgica, mea et levis industria et mox.

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INTRODUCTION

Quaelibet frigidior haec series multas habet specificationem et speciem ad congruentiam uniuscuiusque usoris exigentiae. Praeter principales fructus in operatione manuali introductas, societas etiam omnes species magnas orspecialcooler pro clientibus secundum exigentias suas facere potest.

EXEMPLUM CODEX

Tubus genus oleum frigidior Thracam
C.finned tube
L：bare tibia
Series No.
Nominal refrigerationem regio: m2
Special Products: B: Diver Testa

H: Nam aqua frigida est marinis
Semen et exitus olei (aquae) magnitudine diversae sunt, quaeso directe mark
Cetera requisita FB- port
Latin omitti potest
Instrue modum:L-vertical; genus non-horizontalis
Nominalis pressura: A = 1.6MPa(omittunt)

ACTIO PARAMETERS ET STRUCTURALIS DIMENSIONES GLC TYPE REFRIGERATIO

ARTI DATA

Medium viscositas	Inlet-oleum temperatus	Aqua temperatus limbum	Oleum refrigerationem	Pressura amittere		Influunt-ratio olei ad aquam	W/M² - °C Calor commutationem factor
				Oleum latus	aqua parte
N68	55±1	W30	N8	W0.1	<0.05	1, 1;	N350

ASCENSUS MENSURA

Numerus	Nomen	Nota
1	Bolt
2	Cap
3	Sigillum	partes gero
4	habitationem
5	O anulum	partes gero
6	Cap

Model	L	C	L1	Hl	H2	DI	D2	Cl	C2	B	L2	t	nb x I *	dl*	d2	Oleum fluxus L/min	Pondus (Kg)
GLC1-0.4	390	240									145					20	7
GLC1-0.6	555	405									310					30	9
GLC1-0.8	685	532	80	64	75	80	120	50	65	105	435	2	4-10 x 20	G1	G3/4	40	10
GLC1-1	815	665									570					45	12
GLC1-1.2	955	805									715					50	14
GLC2-1.3	555	375									225					52	17
GLC2-1.7	680	500									350					57	20
GLC2-2.1	815	635									485					62	24
			94	85	100	121	160	70	110	150		2	4-10 x 20	G1	G1
GLC2-2.6	955	775									630					70	28
GLC2-3	1105	925									780					80	33
GLC2-3.5	1265	1085									935					85	37
GLC3-4	820	570									380					75	45
GLC3-5	970	720									530			Gll/2	Gll/4	100	51
GLC3-6	1120	870									680					125	57
GLC3-7	1290	1040									850					150	64
			132	115	151	162	220	100	160	205		3	4-15 x 25
GLC3-8	1450	1200									1010					175	70
GLC3-9	1610	1360									1170					200	76
GLC3-10	1780	1530									1340			G2	Gll/2	225	83
GLC3-11	1960	1710									1520					250	90
GLC4-13	1355	985									745					230	132
GLC4-15	1515	1145									905					260	142
GLC4-17	1675	1305									1065					300	153
GLC4-19	1845	1475									1235					330	165
			197	160	180	219	310	120	200	280		8.5	4-22 x 30	G2	G2
GLC4-21	2025	1655									1415					360	177
GLC4-23	2195	1825									1585					400	188
GLC4-25	2375	2005									1765					430	200
GLC4-27	2545	2175									1935					470	212

ACTUS PARAMETERS ET STRUCTURALIS DIMENSIONES GLL EXEMPLUM RECENS

ARTI DATA

Medium viscositas

Inlet-oleum temperatus

Aqua temperatus limbum

Oleum refrigerationem

Pressura amittere

Influunt-ratio olei ad aquam

W/M² - °C

Oleum latus

Aquae

N68

50±1

W30

W0.1

<0.05

1:1.5

N230

ASCENSUS MENSURA

Numerus	Nomen	Nota
1	Bolt
2	Cap
3	Sigillum	partes gero
4	Calor commutationem partium
5	Sigillum	partes gero
6	habitationi
7	Nucis
8	Sigillum	partes gero
9	Cap

Model	L	C	L1	Hl	H2	DI	D2	Cl	C2	B	L2	L3	D3	D4	n-dl	n-d2	nb x I *	DN1	DN2	Fluxus olei L/min）	pondus Kg）
GLL3-4 GLL3-5 GLL3-6 GLL3-7	1150 1450 1750 1980	682 982 1282 1512	265	190	180	219	310	140	200	280	367	485	100	100	4-Φ17.5	4- Φ17.5	4-22 x 30	32	32	75 100 125 150	108 123 138 150
												785
												1085	110					40
												1385
GLL4-12 GLL4-16 GLL4-20 GLL4-24 GLL4-28	1555 1960 2370 2770 3180	960 1365 1775 2175 2585	345	262	232	325	435	200	300	370	497	660	145	145	4-Φ17.5	4-Φ17.5	4-22 x 30	65	65	250 350 450 550 650	238 300 360 455 536
												1065
												1475
												1885	160		8-Φ17.5			80
												2295
GLL5-35 GLL5-40 GLL5-45 GLL5-50 GLL5-60	2480 2750 2990 3260 3800	1692 1962 2202 2472 3012	500	315	293	426	535	235	400	500	730	1232 1502 1772	180	180	8-Φ17.5	8-Φ17.5	4-22 x 30	100	100	625 750 875 1000 1250	570 640 745 825 955
												2042	210					125
												2582
GLL6-80 GLL6-100 GLL6-120	3160 3760 4360	2015 2615 3215	700	500	408	616	780	360	550	700	935	1555	295	295	8-Φ22	8-Φ22	4-25 x 32	200	200	1500 2000 2500	1617 1890 2163
												2155
												2755

GLL-L EXEMPLUM RECTICIUS RECENS EXTERNIS STRUCTURA DIMENSIONES ORBIS MENSURA

ARTI DATA

Medium viscositas

Inlet-oleum temperatus

Aqua temperatus limbum

Oleum refrigerationem

Pressura amittere

Influunt-ratio olei ad aquam

W/M² - °C

Oleum latus

Aquae

N68

50±1

W30

W0.1

<0.05

1:1.5

N230

ASCENSUS MENSURA

Number	Name	Note
1	Nut
2	Cap
3	Seal	Wpartes comedere
4	Bolt
5	Hutens
6	Sigillum	Wpartes comedere
7	Hcomedent partes commutationem
8	Sigillum	Wpartes comedere
9	Cap

Model	L	C	L1	Cl	H	D	DI	D2	D3	D4	DN1	DN2	n-dl	n-d2	n・d3	Fluxus olei (L/min)	Pondus (kg)
GLL3-4L	1220	682							100		32					75	125
GLL3-5L	1520	982	320	100	190	219	320	360	100	100	32	32	8-Φ24	4-Φ17.5	4-Φ17.5	100	140
GLL3-6L	1820	1282							110	100	40	32		4-Φ17.5	4-Φ17.5	125	155
GLL3-6L	1820	1282														125	155
GLL3-7L	2050	1512														150	165
GLL4-12L	1630	960														250	268
GLL4-16L	2035	1365							145		65			4-Φ17.5		350	330
GLL4-20L	2445	1775	400	130	262	325	440	480		145		65	8-Φ24		4-Φ17.5	450	390
GLL4-24L	2845	2175							160		80			8-Φ17.5		550	485
GLL4-28L	3255	2585							160		80			8-Φ17.5		650	566
GLL5-35L	2545	1692							180		100					625	605
GLL5-40L	2815	1962							180		100					750	660
GLL5-45L	3065	2202	530	180	315	426	570	620		180		100	8-Φ28	8-Φ17.5	8-Φ17.5	875	781
GLL5-50L	3335	2472							210		125					1000	860
GLL5-60L	3875	3012														1250	960
GLL6-80L	3170	2015														1500	1630
GLL6-100L	3770	2615	690	215	500	616	800	870	295	295	200	200	8-Φ35	8-Φ22	8-Φ22	2000	1900
GLL6-120L	4370	3215														2500	2175

RATIONE DILECTUS REFRIGERATIO

1. Calculus modum

(I) calor translationis area required A (m2)
QA = Arm -K
Amount of heat：Q (Kca l / h)
Q=(H-T2)CW=(t2-tl)C，W， <2=Moles caloris(kca l/h) k=Caloris translatio coefficiens(kca l/m2h°C) Atiii = Medium temperaturae differentia(° C)
Inter eos：D 1 = limbum olei temperatus °C 2=Exporto olei temperie°C 。=Importare aqua temperatura°C
2=Exporta aqua temperatus°CC=De specifico calore olei (kca l/kg。。 De certis aquae calore (kca l/kg°C)
W=Fructus olei (kg/h) ' = aquae fluxus (kg/h)

(III) Mediocris temperatus differentiam reliquit T m (C)

(4) Calor translatio coefficientis: K(kca l/m2h°C)

a) Cum aquae frigidae fluunt parvae sunt et oleum viscositas alta operatur, K = 200 sumatur.
b) Fere K = CCL cum opus oleum
c) Cum aquae frigidae fluxus sit magnus et oleum viscositas laborat humilis, K = 350~ 400 accipitur 0；.

2. Aestimatio

Potentia motoria KW	7.5-10	10-15	15-20	20-30	30-40	40-75	75-100	100-120	120-150	150-200
Electus refrigerationem regio (nf)	0.4 0.6	0.8 1.0	1.2 1.3	1.7 2.1	2.6 3	3.5 4	5 6	7 8	8 9	10 11