K-GA FUEL DISPENSER

K-GA FUEL DISPENSER

Pump Type :Optional

Inlet Pressure :>=54kPa.

Flow rate (L/min.): 55±5

Suction Distance (m) :6(verticalmente) / 50(orizzontalmente)

FlowMeter Type : Optional

Accuracy : ±0.2%

Motor Voltage(V): 110V/220V/380V,50Hz/60Hz

Capacity(hp) :1HP(0.75kw)

Input Voltage :110V/220V/380V,50Hz/60Hz

Nozzle :Auto Shut-off Nozzle

Environmental Condition :-40~~+55degree

Control Type :Solenold Vale Control Type

Preset : Function Provided(Small LCDIndicator)

Display(Counter) :Type LCD and Bright Backlight

Digit of Volume : 0~~999,999(6 Digits),Decimal point can be changed

Digit of Amount :0~~999,999(6 Digits),Decimal point can be changed

Digit of Unit price: 0~~9999(4 Digits),Decimal point can be changed

Digit of Total Range :0~~99,999,999,99

Optional Display :Type LCD and Bright Backlight

Digit of Volume :0~~99,999,999(8 Digits),Decimal point can be changed

Digit of Amount :0~~99,999,999(8 Digits),Decimal point can be changed

Digit of Unit price : 0~~999999(6 Digits),Decimal point can be changed

Digit of Total Range :0~~99,999,999,99

Totalizer :1~~9,999,999

Hose :4.5m

Weight :280kg

Dimension(L×W×H) : 1180*650*2020(mm)

Dimension(L×W×H)Of Qty of Container : 40ft: 29

ank and fuel dispenser. It is incomprehensive to think that the higher vacuum pressure in inlet the better performance. Here is vacuum pressure of pump inlet formula: PZ = Pa－P1= P gh＋P [(υ1)2/2 ] = P ghf (2-9) PZ ── vacuum pressure of pump inlet Pa── absolute atmospheric pressure P1── absolute pressure of pump inlet g── acceleration of gravity h── h fuel dispenser eight from pump inlet to oil level in tank υ1── velocity of pump inlet hf── energy loss in pipe from tank to pump inlet from formula 2-9, there are three exterior conditions depend vacuum pressure of pump: pressure needed to lift oil, σgh; the pressure that used to increase flow velocity, P [(υ1)2/2 ]; the pressure loss in pipeline, P ghf . Once oil contains air, along with pressure decrease, more air is separated. So dose that along with inlet vacuum pressure increases. Under there conditions, cavitation would occur in pipeline, causing pump’s normal operation. In order to prevent above disadvantage effects, pay much attentions to installation of pipeline: ①tank should not be burred too deeply, the vertical distance from botto fuel dispenser m valve to fuel dispenser no more than 4m, for example, regulated by some manufacturers with the purpose to prevent higher vacuum pressure of pump inlet; �?the diameter of pipe should not too small. As flow velocity correlate to section of pipeline, vacuum pressure at inlet of pump will be increased when high velocity in smaller diameter pipe; adopt as few as elbow in pipeline, preventing the connection with different diameter pipe, adopt pipe with smooth pipe wall. Rational installation of pipeline between tank and fuel dispenser benefit avoiding cavition and reduce vacuum pressure of pump inlet, which is also conducive to deduct business cost and power consumption. The unreasonable pipeline installation not only results in suction difficulty but also easily generate no suction in hot whether, increasing power loss. The wrong installation also leads to larg fuel dispenser

cond time-out for responses to messages can be ignored in the case of a　　state transition from Fuelling to Idle. This is due to the need for extra time to take account of　　inertia within the fuelling termination process.　　October 2005 IFSF - STANDARD FORECOURT PROTOCOL FP31_2.22　　 DISPENSER APPLICATION　　 fuel dispenser Page: 137　　6 Protocol Converter Device Implementation Guidelines　　This section gives guidelines recommendation for implementations of Protocol Converter　　Devices (PCD) that control non IFSF Dispenser.　　6.1 Overview of a Protocol Converter Device (PCD)　　A Protocol Converter Device (PCD) is a hardware device that is located between non IFSF　　dispenserspumps and converts their proprietary pump protocols to the IFSF Dispenser　　Application.　　Please note that a PCDs may also control devices other than dispensers.　　 123.4　　 Proprietary Pump Protocol fuel dispenser Site Controller　　 IFSF Dispenser Protocol　　 Protocols　　 Converter (Control Device)　　 Device　　 123.4　　 Proprietary Pump　　 Protocols　　The PCD may have a one to one relationship with a dispenserpump or may be capable of　　controlling several dispensers. In some circumstances the PCD may actually reside physically　　in the dispenser. It is also foreseen that more than one PCD may be connected to the SCCD.　　The task that a PCD has to accomplish is to successfully make the SCCD believe that it is　　communicating directly with a fully IFSF compatible device.　　6.2 Configu fuel dispenser

rather spend money on a new kitchen than on a wedding. For them, living in sin is not so much a slight to married life as an important step in that direction. How very conservative. © 2006 .  About sponsorship Army modernisation An auld lament Mar 30th 2006 | EDINBURGH From The Economist print edition The army dro fuel dispenser ps some famous infantry regiments WITHIN the ancient walls of Edinburgh Castle, to the accompaniment of skirling bagpipes and the grumbling of old warriors assembled, Scotland s six infantry regiments, including the oldest in the British army, faded into history on March 28th. To planners, this was part of a long-overdue rationalisation five of the regiments will be reborn as battalions in a new, super-sized Royal Regiment of Scotland. But to many former and serving soldiers, not only in Scotland, it was an act of vandalism. There is much more, in fact, to the reforms. Completing a process begun in the 1960s, the last single-battalion infantry regiments—the “county regiments�?on which the infantry was built—are being amalgamated i fuel dispenser nto bigger regiments, or, in a few cases, into battalions within them. The infantry will drop from 31 regiments to 17, losing four battalions. For every regiment involved, the change is tinged with sadness, as change so often is; but the benefits look compelling. The reforms will allow the army to scrap a system known as “arms-plotting�? under which each regiment had to uproot whenever it changed its role. Bigger and more self-contained, the new regiments will move less often. The army expects to improve efficiency in training and equipping; the cut in infantry jobs, for example, will be matched by 3,000 new support positions, including logisticians and medics. This should make the new regiments more deployable than their predecessors. The loss of infantrymen is lamentable when the army is so thinly stretched, but the reforms seem sound. Not that many old sol fuel dispenser