fuel

Question 1

ideal characteristics for fuel

Answer 1

lubricity

flows easily

ease of engine starting

complete combustion

no damage to engine from combustion byproducts

low fire hazard

non corrosive

high calorific value (amount of heat released during combustion)

Question 2

Energy from fuel is dependent on…

Answer 2

Energy is dependent on mass not volume

Question 3

Octane

Answer 3

**Measure of fuel’s resistance to detonation when subjected to high pressure **

Question 4

Fuels for Gas & Pistone engines

Answer 4

Piston Engine - Use Gasoline
1. Avgas (aviation gasoline)
2. Mogas (motor gasoline)

Gas turbine engine - Use Karosene
1. Avtur (aviation turbine fuel)
2. Avtag (aviation turbine gasoline)

Question 5

AVGAS properties
Aviation Gasoline

Answer 5

Use for Piston engines

labelled in white print and red background

manufactured to conform with DERD 2485 specifications

Use High Octane because Piston engines are high compression engines

AVGAS 100 LL –> Blue –> Low Lead –> 100/130 Performance
Flashpoint -40C / Freezing -58C

AVGAS 100 –> Green –> High Lead –> 100/130 Performance
Flashpoint -40C / Freezing -58C

AVGAS 115 –> Green –> High Lead –> 115/145 Performance

Specific Gravity (density) = 0.72 at 15C

Question 6

Octane rating

Answer 6

Higher octane is used with high performance engines having high compression ratios

Question 7

MOGAS
Motor gasoline

Answer 7

used in certain airframe engine combinations

specs: CAP 747 GC2

low octane rating (below 100 octane)

high volatility - causes icing in carburettor - locks vapour

Question 8

Gas turbine fuels are known as …

Answer 8

kerosene

‘heavier and less volatile than gasoline*

Question 9

Avtur
For gas turbine engines

Answer 9

avtur (aviation turbine fuel)

Kerosene

JET A1 - SG 0.8 at 15C, flash point 38C & waxing point -47-50C - used worldwide

**Jet A **- SG 0.8 at 15C, flash point 38C & waxing point -40C - used in USA only

Question 10

Avtag

Answer 10

not used in civil aircraft

avtur (aviation turbine gasoline)

Kerosene + gasoline mix

**Jet B **- SG 0.77 at 15C, flash point -20C & waxing point -60C

**Not used in aviation due to wide range flammability **

Question 11

colour of gas turbine fuel

Answer 11

straw yellow - colourless
‘natural colour’
not dyed for identification

Question 12

cloudy fuel indicates…

Answer 12

cloudiness usually indicates presence of water

however…

if cloud ‘rises quickly’ to the top = air

if cloud ‘falls slowly’ to the bottom = water

Question 13

Jet fuel additives

Answer 13

Fuel is blended with additives in refinary or at the airfiled and storage/transfer

Why?
to improve its operating ability

Types:

FSII (Fuel System Icing Inhibitor)
* To avoid icing and fungus
* Jet A-1 has FSII
* Jet A - does not have FSII

• Icing inhibitor: with altitude, fuel is cooled and water droplets form and crystalize blocking fuel system components
• fungal inhibitor: fungus is always present and grow to form green long filaments that block fuel system components. Byproducts of fungus are also corrosive

HITEC
* Lubricity agent
* reduces wear in fuel system components (pumps, fuel control, etc)

Static dissipater
* **eliminates **harzard of static electricity
* which forms when **fuel flows through ‘high flow transfer system’ during fueling and de-fueling **

corrossion inhibitors
* protect ferrous metals in fuel handling systems
* pipelines, storage tanks
* also improves lubricating quality

Metal de-activators
* supress fuel oxidation caused by some metals

Question 14

Water in fuel - how to manage it

Answer 14

1. manufacturer quality control & preventative measures

2. water drain:
* when fuel settles after fueling, water droplets sink in the tank and can be drained via water valve

3. Atmosphere exclusion:
* filling tank to full to exclude the atmosphere and avoid contamination with water/moisture.

Fuel heater:
* ice can form at high altitude
* fuel passes through engine heat exchanger with high compressor hot air to heat it and dissolve ice crystals.
* Systems utilize a** fuel cooled oil cooler**, this uses the hot engine oil to warm fuel but also cools the oil (heat exchange)

Question 15

Waxing

Answer 15

Fuel has hydrocarbons

In low temperature they deposit in the form of paraffix wax cyrstals

To avoid:
- Refinery should keep low levels of hydrocarbons
- keep engine fuel warm

Question 16

Boiling

Answer 16

• Temperature at which fuel boils varries depending on pressure.
• In climb –> pressure drops –> fuel burns quicker
• vapor is formed in the pipelines
• fuel supply to the engine is cut off –> engine stalls

Solution
* Fuel booster pumps:
* - pressurizes fuel in the pipeline from the tank to the engine -> pushing fuel towards the engine
* - instead of using enging pumps that suck fuel from tanks further reducing pressure

Question 17

Specific Gravity

Answer 17

Ratio of density of solid/liquid to density of water

OR

weight of liquid / weight of equal volume of water

Specific gravity **varies ‘inversely’ **on temperate

it makes a difference when tank is full and mass of fuel load is taken into account

Fuel quantity measuring system also compensates for changes in Specific Gravitty

Question 18

Aircraft fuel tank

Answer 18

Integral:
* inside wing, torsion box, horizontal stabilizers
* sealed & light weight
* in modern aircraft with mutli-engine

Rigid: light aircraft
* externally mounted in or on wing tip or fuselage
* heavier due to mounting structure needed
* on light single engine aircraft
* filled overwing method (open line thru filler cap)
* metal or composite construction

flexible
* bag made of sealed rubberized material - fuel bladder
* needs a structure inside the wing/fuselage to mount it
* self sealing in the event of damage
* high performance light aircraft, smaller turboprops, military aircraft

Question 19

Baffles

Answer 19

On large aircraft/integral tanks

fitted inside the tank to minimize fuel serges from inertial forces generated from heavy maneouvering of aircraft

Baffle check valve
* allow fuel to flow inboard not outboard to wing tip during manoevres

Question 20

Delivering fuel to the engine..

Answer 20

must deliver more fuel than the engine can possibly use in critical phases to avoid engine starved for fuel

Question 21

Rigid Fuel systems on light aircraft

Answer 21

Gravity feed fuel system

Pressure pump

Question 22

Gravity feed fuel system

Answer 22

used on high wing aircraft - single engine

used with tank is high above the carburettor to provide pressure

Question 23

Single engine piston fuel system

Answer 23

1 ) Rigid L & R tanks in wings

2) filler cap on top of the wing

3) Fuel is drawn from the tank by these steps:
- electric or manual/mechanical fuel pump
- through a hand operated tank selector (allows pilot to choose fuel from right or left tank or turn off supply)
- then through filter
- then through to carubrettor

Piston engine often are primed with fuel before engine start via hand operated priming pump

float operated level sensors

water drain valve

fuel gauges

Question 24

Multi engine Complex aircraft
Fuel System

Answer 24

tanks
* for extra fuel capacity: –>Integral, wing, central (torsion box), horizontal stabilizers or fin
* to help change aircraft centre of gravity

filler caps
where you connect the open line fueling pipe to

Float level sensor

gauging system

Over pressure relieve valve:
* release pressure in case of malfunction to save the structure of the tank

Baffles
* dampen the rapid movement of fuel during serges in the tank

Fuel water drains
* drain water - in light aircraft

high level float switch
* switch to close the fuel valve when tank is full

low level float switch
* switch to maintain the required minimum fuel in the main tanks during ‘dumping’

cross-feed & shut off valve
* feeds fuel from any tank to any engine
* isolates when there is a fault/emergency

filters
prevent debris in the tank to be drawn into booster pumps

vent system
* vent valves vent surge tank
* equalize pressure above fuel in the tank to equalize with ambient pressure
* provide for ram air to be introduced to partially pressurize the tanks in flight to assist the fuel flow & reduce fuel boiling at altitude
* overflowing fuel is collecdted by surge tank and recycled back to main tank
* vent space is 2% of tank volume

booster pumps
* fitted in pairs in each tank to pump fuel to engine
* driven by AC motor
* provide 20-40 psi pressure
* provide high flow
* needed in high alititude ->prevent cavitation of the engine driven pump
* pressurize fuel in pipelines (to avoid vapor blocking pipeline from boiling fuel)
* if a double booster pump fails in one main tank the ‘Aircraft Minimum Equpment List’ limits the aircraft to a max operating altitude to prevent fuel starvation

collector tank/feeder box
* booster pumps are fitted in this tank
* carries 500kg of fuel
* keeps booster pump submerged to prevent pump cavitation

Question 25

benefit of split wing tank

Answer 25

• The wing tanks are split into two elements, outer and inner sections
• allow a certain amount of fuel to remain in the outer section until the inner has reached a pre-determined level.
• Keeping fuel outboard in this manner helps to reduce wing bending stress and relieve flutter.

Question 26

fueling light aircarft

Answer 26

‘overwing’

remove tank filler cap

fuel in gallon or Litres (amount is displayed on delivery vehicle gaugae)

Question 27

fueling in large aircraft

Answer 27

• **pressure refuelled **
• from hydrants or bowsers through underwing **refuel/ defuel coupling points **
• The quantity required in each tank can be preselected
• the refuel valve will close **when this level has been reached. **
• The **system will prevent **any tank being overfilled.

Question 28

Controls

Answer 28

and controlled by quantity, tank and valve selection from a conveniently situated refuelling control panel.

Fuel quantity control gague by tank. in Thousand of kg

HIGH LEVEL LIGHTS.
* These come on BLUE when high level switch is sensed and the corresponding refuel valve will close automatically.

3 position Refuel valve switch
* Guarded in normal - tank is controlled by automatic refueling computer
* Open - valve opens when MODE SELECT switch is set to Refuel or Defuel
* In Refuel, each refuel/defuel valve will close when tank is full
* Shut - refuel valve remains closed

Mode swtich
* Off - guarded to off position
* refuel system is de-energized and refuel valve is closed.
* Refuel - refuel valve operate in automatic or manual mose depending on the position of Refuel valve switch
* Defuel - Refuel valves and transfer valve open

** TRF (transfer light)** -
* Amber when transfer valve is open

Test switch
High - illuminate BLUE if high level sensors and associated circuits are serviceable
LTS - lights on panel and all 8’s on fuel quantity indicator illuminate

**Elec Power **
Refuelling or defuelling can be powered by GPU , APU or battery 1

Preselected display
display presenlected fuel qty in kg x 1000

preslector rocker switch: increase or decrease the preselected qty

**Actual **- total fuel on board

auto refuel light - Green (end) when auto refuelling is completed

Question 29

REFUELLING SEQUENCE

Answer 29

1. Press ‘Preselector rocker switch/Preselecdted display’ to preselect the required fuel load
2. Ensure all 3 Refuel valves are in Normal
3. Select **Mode Selector switch ** to ‘ Refuel’
4. Then the automatic refuel system will refuel each tank in the correct sequence to achieve the preselected fuel load
5. When refueling is complete - the Preselected and Actual windows will read the same. And Actual display will turn Green (End)
6. The Mode Selector switch should be turned on the ‘OFF’ position.

Question 30

AVTUR
Fueling vehicles / hydrants are labelled…

Answer 30

JetA/JetB/JetB in whilte print on black background

Question 31

AVGAS
Fueling vehicles are labelled…

Answer 31

AVGAS 100LL/100/130 = white print on red background

Question 32

Fueling zones

Answer 32

1. extend at least 20 ft/ 6 m radius to cover all areas where fuel vapor might expel
   * venting points (ie. wingtip)
   * filling points
   * fueling equipment

Question 33

Fueling zone restrictions

Answer 33

• NO smoking
• NO photographic flash
• fire extinguishers should be readily availbe
• only authorized people should be allowed in refuelling zones
• personnel #s should be kept to a minimum
• **Ground Power Unit **should be located far and cannot be connected / disconnected during refuelling ops.
• if APU exhaust (which is required for fueling operation) discharges, it must be started before filler caps are removed and fuel connections are made
• if APU stops during refuelling, it cannot be started again till refuelling has ceased and no danger in igniting fuel vapor

Question 34

Before refuelling

Answer 34

Aircraft should be bonded (connected) to refuelling equipment using dedicated wires and clips - avoid sparks/electric static

NOT allowed to use CONDUCTIVE hoses for bonding

Question 35

Overwing refuelling

Answer 35

The hose nosel must be bonded to aircraft structure before removing the tanks filler caps

funnels, etc must be bonded to aircraft

Plastic funnels or pipes cannot be used

Question 36

Underwing fueling

Answer 36

the mechanical metal on metal contact between the nosel end and aircraft fitting eliminates the need for a hose end bonding cable

Question 37

Precautions relevant to flight crew

Answer 37

If aircraft settles on landing gear -
all ground equipment should be cleared from the underside of the aircraft

Main engine should not be operated

No strobe light

Lamps and light should be ‘flameproof’

**Follow refuelling sequence **to ensure aircraft centre of gravity is maintained - aircraft refuelling manual

readily available fire extinguishers

Question 38

hazards to look out for

Answer 38

• aircraft cannot be refuelled 30m/100ft from radar equipment
• If landing gear is overheated, no refueling till heat is gone. Fire crew should be in vicinity
• avoid fueling during electrical storms

Question 39

refueling with passengers on board

Answer 39

cannot fuel with passengers on board if fixed wing aircraft has less than 20 seats

If passengers are boarding/disembarking, they are to be **guided by an official **and their route should be directed

cannot fuel with passengers if AVGAS or JETB is used

once specified person must stay outside in designated area whilst passengers are onboard
- who handles emergency & fire fighting procedures
- handles communication and evacuations procedures

If fuel vapor or other issues detected during fueling. fueling must be stopped

crew & passengers must be warned that fueling is going to take place

seatbelt signs OFF

no smoking sign ON

Interior lighting ON to i**ndicate emergency exists **

Person on board designated for immediate evacuation

Ground area beneath exists must be cleared for evactuation

**ground servicing and work in aircraft **(ie catering/cleaning) **should not be creating any hazard or obstruction **

Question 40

managing exit doors for evactuation

Answer 40

1. at least 2 passenger doors (or 1 main and 1 emergency if only one main exists) ideally at opposite ends of aircraft

For aircraft with automatic inflatable chutes

**1. If loading bridge is used **
* no additional steps need to be provided
* left or right rear door should be manned constantly be crew - can be used for inflatable chute evactuation

2. If loading bridge is not available
* one set of steps should be positioned at 1 main door used for embarkation/disembarkation

For aircraft withOUT automatic inflatable chutes

1. If loading bridge is used
* one set of steps shoudl be positioned at another passenger door - ideally at opposite ends

2. If loading bridge is not available
* two set of steps shoudl be positioned at passenger doors - ideally at opposite ends

3. if aircraft is fitted with integral steps
each may count as one means of exit

Question 41

When fuelling is complete,

Answer 41

bonding wires (grounding wires) should not be removed until either:

• filler caps have been refitted, or
• the pressure refuelling hose has been disconnected.

Question 42

APU

Answer 42

APU gets fuel from any tank if booster pump is on

but gets fuel from #1 Tank by the bypass valve if booster pump fails. The APUR has DC electric fuel pump which will switch on automatically

APU shut off valve is operated by automatic start/stop sequence

Question 43

centre tank scavenging system

Answer 43

when booster pumps can’t pump fuel from centre tank, the residual fuel can be removed to the No 1 tank by use of the scavenging system

Question 44

fuel usage sequance (norma) at take off

Answer 44

start with central fuel tank first, then the wing tank - relieve wing bending

Question 45

suck valve in tanks

Answer 45

allow engine to be fed by gravity or suction by the engine driven pump if both booster pumps fail in 1 tank