815326 Shaft Volvo.Penta
D42A; D42A PP, D70B; D70B PP; D70B K, D70CHC; D70CRC; TD70CHC, MD70B; MD70BK; TMD70B, TD60A; TD60B; TD60B PP, TD60D; TD60D-83; TD60DPP-83, TD61A; TD61AW; TD61ACE, TD70G; TD70G-83; TD70GPP
Shaft
Price: query
Rating:
You can buy parts:
As an associate, we earn commssions on qualifying purchases through the links below
$79.99
29-04-2024
US: YJGZSVK
YJGZSVK Carburetor Fit For Alpha Sports 180cc Replace Part Number 16100-179-000 16100-212-000 811381 815326 811394 490500
YJGZSVK 【Fitment】: Fit For Alpha Sports 180cc. || 【Replaces Part Number】: 16100-179-000 16100-212-000 811381 815326 811394 490500. || 【Package Includes】: A carburetor and a fuel filter. || 【Quality】:High quality and brand new products, stable performance and durable. || 【Notes】:Please make sure the product are the same with what you want before purchasing.If you are unsure of the item, please contact us and all emails will be replied within 24H.
YJGZSVK 【Fitment】: Fit For Alpha Sports 180cc. || 【Replaces Part Number】: 16100-179-000 16100-212-000 811381 815326 811394 490500. || 【Package Includes】: A carburetor and a fuel filter. || 【Quality】:High quality and brand new products, stable performance and durable. || 【Notes】:Please make sure the product are the same with what you want before purchasing.If you are unsure of the item, please contact us and all emails will be replied within 24H.
$109.99
12-04-2024
US: Off Brand Parts Dire
ATV Carburetor with Manual Choke, fits all Eton Yukon II CXL150, EXL150,
Generic Manual choke carburetor
Generic Manual choke carburetor
$109.99
12-04-2024
US: Off Brand Parts Dire
ATV Carburetor with Manual Choke, fits all Eton Viper RXL150R,
Generic Manual choke carburetor
Generic Manual choke carburetor
Number on catalog scheme: 6
Compatible models:
Volvo Penta entire parts catalog list:
D70B; D70B PP; D70B K; TD70B
D70CHC; D70CRC; TD70CHC; TD70CRC
MD70B; MD70BK; TMD70B; THAMD70B; TAMD70B; AQD70BL; AQD70B
TD60A; TD60B; TD60B PP; TD60B G
TD60D; TD60D-83; TD60DPP-83; TD60DG-83; TID60D; TID60DG
TD61A; TD61AW; TD61ACE; TD61AG; TD61AGP; TD61AP; TD61APB; TID61AG; TD71A; TD71AW; TD71ACE; TD71AG; TD71AGP; TD71AP; TD71APB; TID71A; TID71AG; TID
TD70G; TD70G-83; TD70GPP; TD70GPP-83; TID70G; TID70GPP; TID70GG; TD70GG; TD70GG-83
Information:
Power
P = IEwhere P = power in wattsI = current in amperesE = voltage in voltsThis equation for power may also be transposed to: From Ohm's law it is known that E = IR. If this expression for voltage is substituted in the power law, we can derive the additional equation: P = I2RIf we use the equation for current from Ohm's law, I = E/R, the equation for power becomes: *See "Ugly's Electrical Reference" (SEBD0983) for additional information.Resistance
Series Circuits RT = R1 + R2 + R3 + ... RN where RN = resistance in the individual resistorsRT = total resistance in circuitReactance
XL = 2 π f Lwhere XL = inductive reactance in ohms f = frequency in hertzL = inductance in henriesπ = 3.1416 where XC = capacitive reactance in ohms f = frequency in hertzC = capacitance in faradsπ = 3.1416Impedance
where Z = impedance in ohms R = resistance in ohmsXL = inductive reactance in ohmsXC = capacitive reactance in ohmsNote that the impendance will vary with frequency, since both XC and XL are frequency dependent. In practical AC power circuits, XC is often small and can be neglected. In that case, the formula above simplifies to: Transformer Voltage Conversion
where VS = secondary voltage VP = primary voltageNS = number of secondary turnsNP = number of primary turnsPower Factor
In mathematical terms, the power factor is equal to the cosine of the angle by which the current leads or lags the voltage. If the current lags the voltage in an inductive circuit by 60 degrees, the power factor will be 0.5, the value of the cosine function at 60 degrees. If the phase of the current in a load leads the phase of the voltage, the load is said to have a leading power factor; if it lags, a lagging power factor. If the voltage and current are in phase, the circuit has a unity power factor.Equation Summary Diagram
Three Phase Connection Systems:
Electrical Enclosure Protection = IEC
The degrees of protection provided within an electrical enclosure is expressed in terms of the letters IP followed by two numerals. Mechanical protection against impact damage is defined by an optional third numeral. Example: An IP55 enclosure protects its contents against dust and spray from water jets.Reference: DIN 40050 of July 1980, IEC 144 of 1963, IEC 529 of 1976, NF C 20-010 of April 1977Electrical Enclosure Protection - NEMA
Electrical Tables
Table 1 Electrical Formulae Table 2 KV A of AC Circuits Table 3 Copper Wire Characteristics Table 4 Single-Phase AC Motors Full Load Currents in Amperes Table 5 Three-Phase AC Motors - 80% Power Factor Full Load Current in Amperes - Induction-Type, Squirrel Cage and Wound Rotor Table 6 Direct Current Motors Full Load Current in Amperes Table 7 Conduit Sizes for Conductors Table 8 Allowable Current-Carrying Capacities of Insulated Copper Conductors Table 9 Code Letters Usually Applied to Ratings of Motors Normally Started on Full Voltage Table 10 Identifying Code Letters on AC Motors Table 11 Conversion - Heat and Energy Table 12 Approximate Efficiencies - Squirrel Cage Induction Motor Table 13 - Approximate Electric Motor Efficiency to Use in Calculating Input Table 14 Reduced Voltage Starters
P = IEwhere P = power in wattsI = current in amperesE = voltage in voltsThis equation for power may also be transposed to: From Ohm's law it is known that E = IR. If this expression for voltage is substituted in the power law, we can derive the additional equation: P = I2RIf we use the equation for current from Ohm's law, I = E/R, the equation for power becomes: *See "Ugly's Electrical Reference" (SEBD0983) for additional information.Resistance
Series Circuits RT = R1 + R2 + R3 + ... RN where RN = resistance in the individual resistorsRT = total resistance in circuitReactance
XL = 2 π f Lwhere XL = inductive reactance in ohms f = frequency in hertzL = inductance in henriesπ = 3.1416 where XC = capacitive reactance in ohms f = frequency in hertzC = capacitance in faradsπ = 3.1416Impedance
where Z = impedance in ohms R = resistance in ohmsXL = inductive reactance in ohmsXC = capacitive reactance in ohmsNote that the impendance will vary with frequency, since both XC and XL are frequency dependent. In practical AC power circuits, XC is often small and can be neglected. In that case, the formula above simplifies to: Transformer Voltage Conversion
where VS = secondary voltage VP = primary voltageNS = number of secondary turnsNP = number of primary turnsPower Factor
In mathematical terms, the power factor is equal to the cosine of the angle by which the current leads or lags the voltage. If the current lags the voltage in an inductive circuit by 60 degrees, the power factor will be 0.5, the value of the cosine function at 60 degrees. If the phase of the current in a load leads the phase of the voltage, the load is said to have a leading power factor; if it lags, a lagging power factor. If the voltage and current are in phase, the circuit has a unity power factor.Equation Summary Diagram
Three Phase Connection Systems:
Electrical Enclosure Protection = IEC
The degrees of protection provided within an electrical enclosure is expressed in terms of the letters IP followed by two numerals. Mechanical protection against impact damage is defined by an optional third numeral. Example: An IP55 enclosure protects its contents against dust and spray from water jets.Reference: DIN 40050 of July 1980, IEC 144 of 1963, IEC 529 of 1976, NF C 20-010 of April 1977Electrical Enclosure Protection - NEMA
Electrical Tables
Table 1 Electrical Formulae Table 2 KV A of AC Circuits Table 3 Copper Wire Characteristics Table 4 Single-Phase AC Motors Full Load Currents in Amperes Table 5 Three-Phase AC Motors - 80% Power Factor Full Load Current in Amperes - Induction-Type, Squirrel Cage and Wound Rotor Table 6 Direct Current Motors Full Load Current in Amperes Table 7 Conduit Sizes for Conductors Table 8 Allowable Current-Carrying Capacities of Insulated Copper Conductors Table 9 Code Letters Usually Applied to Ratings of Motors Normally Started on Full Voltage Table 10 Identifying Code Letters on AC Motors Table 11 Conversion - Heat and Energy Table 12 Approximate Efficiencies - Squirrel Cage Induction Motor Table 13 - Approximate Electric Motor Efficiency to Use in Calculating Input Table 14 Reduced Voltage Starters
Parts shaft Volvo Penta:
21951457
21951457 Shaft kit
AD31L-A; AD31P-A; AD41L-A, AQD70D; TAMD70D; TAMD70E, D70CHC; D70CRC; TD70CHC, KAD32P; TAMD42WJ-A; KAD43P-A, KAD42P-A; KAMD42P-A; HS1A, MD100A; TMD100A; TMD100AK, MD120A; MD120AK; TMD120A, MD31A; TMD31A; TMD31B, MD70B; MD70BK; TMD70B, MD70C; TMD70C; T
421019
421019 Shaft
AQD70D; TAMD70D; TAMD70E, D70B; D70B PP; D70B K, D70CHC; D70CRC; TD70CHC, MD70B; MD70BK; TMD70B, MD70C; TMD70C; TAMD70C, TD70G; TD70G-83; TD70GPP
6603896
6603896 Shaft
D100A; D100AK; D100B, D120A; D120AK; TD120A, D42A; D42A PP, D70B; D70B PP; D70B K, MD120A; MD120AK; TMD120A, TAD1030P, TAD1230P; TD121GP-87; TWD1210P, TAD1630P; TWD1630P; TWD1630PP, TAD1630V; TWD1630V, TAD1641VE; TAD1642VE; TAD1643VE, TAD940GE; TAD94
824239
824239 Shaft
D100A; D100AK; D100B, D70B; D70B PP; D70B K, MD70B; MD70BK; TMD70B, TD100G-87; TD1030ME; TWD1030ME, TD100G; TD100G-85; TD100G-87
1505356
1505356 Shaft
TAMD60A; TAMD60B, TAMD60C, TD120C, TD60A; TD60B; TD60B PP, TD60D; TD60D-83; TD60DPP-83, TD70G; TD70G-83; TD70GPP, TID120FPP; TID120FG; TD120G
848750
6210957
787184