09160-20036 Suzuki Washer Thickness: 1.1


09160-20036 Washer Thickness: 1.1 Suzuki 30ELE, 30ESE, 30MLE, DT20ELG, DT20ELH, DT20ELJ, DT20ESG, DT20ESH, DT20ESJ, DT20MLG, DT20MLH, DT20MLJ, DT20MSG, DT20MSH, DT20MSJ, DT25ELF, DT25ELG, DT25ELH, DT25ELJ, DT25ESG, DT25ESH, DT25ESJ, DT25MLD, DT25MLE, DT25MLF, DT25MLG, DT25MLH, DT25MLJ, DT25 Washer
09160-20036 Washer Thickness: 1.1 Suzuki
Rating:
43

Buy Washer Thickness: 1.1 09160-20036 Suzuki genuine, new aftermarket parts with delivery
Number on catalog scheme: 23-4
 

Suzuki entire parts catalog list:

30ELE 1984
30ESE 1984
30MLE 1984
DT20ELG 1986
DT20ELH 1987
DT20ELJ 1988
DT20ESG 1986
DT20ESH 1987
DT20ESJ 1988
DT20MLG 1986
DT20MLH 1987
DT20MLJ 1988
DT20MSG 1986
DT20MSH 1987
DT20MSJ 1988
DT25ELF 1985
DT25ELG 1986
DT25ELH 1987
DT25ELJ 1988
DT25ESG 1986
DT25ESH 1987
DT25ESJ 1988
DT25MLD 1983
DT25MLE 1984
DT25MLF 1985
DT25MLG 1986
DT25MLH 1987
DT25MLJ 1988
DT25MSD 1983
DT25MSE 1984
DT25MSF 1985
DT25MSG 1986
DT25MSH 1987
DT25MSJ 1988
DT25SF 1985
DT30ELD 1983
DT30ESD 1983
DT30LF 1985
DT30MLD 1983
DT30MSD 1983
DT30MSE 1984
DT30SF 1985
DT40ECLE 1984
DT40ECLF 1985
DT40ECSE 1984
DT40ECSF 1985
DT40MCLE 1984
DT40MCLF 1985
DT40MCSE 1984
DT40MCSF 1985
DT50ECLE 1984
DT50MCLE 1984

Information:


Illustration 1 g06240261
Typical example
(1) Exhaust inlet
(2) Diesel Exhaust Fluid (DEF) injector
(3) Diesel Particulate Filter (DPF) and Selective Catalytic Reduction (SCR) canister
(4) Exhaust out
(5) Nitrogen Oxide (NOx) sensor
(6) Diesel Oxidation Catalyst (DOC)
(7) Diesel Exhaust Fluid (DEF) supply line
(8) Coolant return to engine line
(9) Diesel Exhaust Fluid (DEF) pump
(10) Coolant supply from engine line
(11) Coolant diverter valve
(12) Diesel Exhaust Fluid (DEF) tank
(13) Coolant supply connector
(14) Suction connector
(15) Backflow connector
(16) Coolant return connector
(17) DEF suction line
(18) DEF backflow lineThe purpose of Diesel Exhaust Fluid (DEF) is to create a Selective Catalytic Reduction (SCR) process to take place in the exhaust system to reduce Nitrogen Oxides (NOx).When the engine is keyed on but not running, DEF is not being injected into the system. When the engine is running, the DEF may be too cold or frozen to be injected. When the ambient or tank temperatures are cold enough, the engine ECM opens the coolant diverter valve to allow engine coolant to flow through the DEF tank to warm the system. The ECM also activates the heater circuits in the lines and pump to prevent DEF from freezing in the lines and pump. The time it takes to thaw the system depends on the tank temperature. Since the system always starts with empty lines, the pump activates to fill the lines with fluid before DEF injection begins.This is called DEF Priming mode. Once the system is primed, the DEF will be injected when the DEF tank and SCR temperatures are warm enough. If the system does not heat up after duration of time, a diagnostic code will become active.Note: Typical usage for DEF is 6-8% of diesel fluid.The DEF system has three operation modes:1. DEF Priming ModeSince the system always starts with empty lines, the pump activates to fill the lines with fluid before DEF injection begins. Priming will start when engine speed is greater than 450 rpm, DEF tank temp is greater than −6° C (21.2° F), and SCR inlet temperature is greater than 100° C (212° F). Once the system reads the appropriate pressures, priming is complete.2. DEF Injection ModeOnce the system is primed, the DEF will be injected when SCR inlet temperature is greater than 200° C (392° F). The DEF pump draws DEF from the tank and pressurizes the DEF to 900 kPa (130.5 psi). This pressure is constant throughout the operating cycle. The DEF injector sprays DEF into the exhaust before the SCR catalyst and continues spraying by pulsing on and off. The DEF injection rate is controlled by changing the duration of the DEF injector on time. If the engine is producing higher NOx, the DEF injector will turn on more frequently. To control the pressure to the DEF injector, a percentage of DEF will flow through the backflow line back to the tank.3. DEF Purge ModeWhen a DEF-related fault code becomes active or the engine is keyed OFF, the DCU enters purge mode. The system is designed to purge all DEF back to the DEF tank to prevent it from freezing in the pump and lines. The DEF injector opens and the DEF Reverting valve in the DEF pump reverses the flow of the DEF inside the pump. This removes the DEF from the pressure line and pumps it back to tank through the suction line. The purge takes approximately 2 minutes to remove DEF from the lines and pump. It is important NOT to turn off the battery disconnect switch during the purge process. If the purge process does not complete and the temperature of the DEF drops below −11° C (12° F,), then the pump and lines are at risk of damage. If the purge process does not complete, a diagnostic code will become active.NOx MonitoringThere are two NOx sensors supplied with the engine. One NOx sensor is installed in the exhaust inlet from the turbocharger (engine out). The other NOx sensor is installed in the exhaust pipe of the application (CEM out).The amount of DEF needed is based on NOx production. The engine produces NOx as the engine operates at a specific target to meet emission requirements. The engine out NOx sensor measures the amount and communicates that value to the ECM. The tailpipe out NOx sensor monitors the NOx level out of the catalyst and communicates that value to the ECM. Based on the engine out and the tail pipe out NOx sensor values, the flow rate of DEF will adjust to meet the NOx allowed per regulations.NOx Sensors
Illustration 2 g03364155
(21) Electrical connector
(22) Sensor electronic control unit
(23) Cable (black for engine out, gray for CEM out)
(24) Sensing unitThe NOx sensor contains a sensing element, a harness, and an electronic control unit. The sensing element is composed of two chambers and a heater. The first chamber measures the amount of oxygen and the second chamber measure the amount of NOx and Ammonia (NH3). Using electrochemistry, a ceramic material attracts ions at approximately 800° C (1472° F) and an electrode on the chamber wall measures the electrical charge in voltage or current. The voltage or current signal is then received by the NOx sensors electronic control unit and interpreted into a NOx concentration. The heater is used to maintain the sensing element temperature, as sensing element is sensitive to moisture. If the sensor sees any moisture while at 800° C (1472° F), then the moisture could quickly cool the element which would cause the element to crack. At engine start-up there is always some moisture within the exhaust pipes. So the sensors will not start working until the exhaust temperature around the sensors is greater than 100° C (212° F) for approximately two and a half minutes.Note: For information on handling the NOx sensors, refer to Special Instruction, REHS8151.Electric Components
Illustration 3 g06240619
(1) DEF fill port
(2) Coolant Return port
(3) DEF pump
(4) Coolant diverter valve
(5) DEF tankThe Pump Electronics Tank Unit (PETU) consists of the following components:Coolant Diverter ValveControls coolant flow to the tank and DEF pumpCoolant ReturnThe coolant will return to the engine water pump inlet through this


Parts washer Suzuki:

09160-06015
 
09160-06015 Washer, Swivel
20ELB, 20ELC, 20ELN, 25ELB, 25ELC, 25ELN, 25ELT, 25ELX, 30ELE, 30ESE, 30MLE, DT15 MLE, DT15ELD, DT15ELE, DT15ELF, DT15ELG, DT15ELH, DT15ELJ, DT15ESD, DT15ESE, DT15ESF, DT15ESG, DT15ESH, DT15ESJ, DT15MLD, DT15MLF, DT15MLG, DT15MLH, DT15MLJ, DT15MSD, D
09160-08015
 
09160-08015 Washer, Swivel Shaft
20ELB, 20ELC, 20ELN, 25ELB, 25ELC, 25ELN, 25ELT, 25ELX, 30ELE, 30ESE, 30MLE, DT14C, DT14D, DT14F, DT15 MLE, DT15ELD, DT15ELE, DT15ELF, DT15ELG, DT15ELH, DT15ELJ, DT15ESD, DT15ESE, DT15ESF, DT15ESG, DT15ESH, DT15ESJ, DT15MLD, DT15MLF, DT15MLG, DT15MLH
08322-11088
Washer
08322-11088 Washer
20ELB, 20ELC, 20ELN, 25ELB, 25ELC, 25ELN, 25ELT, 25ELX, 30ELE, 30ESE, 30MLE, DT14C, DT14D, DT14F, DT15 MLE, DT15ELD, DT15ELE, DT15ELF, DT15ELG, DT15ELH, DT15ELJ, DT15ESD, DT15ESE, DT15ESF, DT15ESG, DT15ESH, DT15ESJ, DT15MLD, DT15MLF, DT15MLG, DT15MLH
09160-18011
Washer
09160-18011 Washer
30ELE, 30ESE, 30MLE, DT115, DT140, DT150, DT150SSH, DT150SSJ, DT150SSK, DT150SSL, DT150SSM, DT150SSN, DT150STCLP, DT150STCLR, DT150STCLS, DT150STCLT, DT150TCLH, DT150TCLJ, DT150TCLK, DT150TCLL, DT150TCLM, DT150TCLN, DT150TCLP, DT150TCLR, DT150TCXGM,
09160-10082
Washer
09160-10082 Washer
30ELE, 30ESE, 30MLE, DF100, DF100, DF100, DF100A, DF115, DF115, DF115, DF115A, DF115TL, DF140, DF140, DF140, DF140A, DF140T, DF140T, DF140Z, DF140Z, DF140Z, DF140Z, DF15, DF15, DF15S, DF200T, DF200Z, DF225T, DF225Z, DF25, DF250A, DF250T, DF250Z, DF25
67728-94500
 
67728-94500 Washer
30ELE, 30ESE, 30MLE, DT20ELG, DT20ELH, DT20ELJ, DT20ESG, DT20ESH, DT20ESJ, DT20MLG, DT20MLH, DT20MLJ, DT20MSG, DT20MSH, DT20MSJ, DT25ELF, DT25ELG, DT25ELH, DT25ELJ, DT25ESG, DT25ESH, DT25ESJ, DT25MLD, DT25MLE, DT25MLF, DT25MLG, DT25MLH, DT25MLJ, DT25
09160-25035
Washer Thickness: 1.4
09160-25035 Washer Thickness: 1.4
30ELE, 30ESE, 30MLE, DF25, DF25(R)S, DF25Q, DF25Q(QR), DF25R, DF25R, DF25T, DF30, DF30Q, DF30Q(QR), DF30T, DT20ELG, DT20ELH, DT20ELJ, DT20ESG, DT20ESH, DT20ESJ, DT20MLG, DT20MLH, DT20MLJ, DT20MSG, DT20MSH, DT20MSJ, DT25C, DT25ELF, DT25ELG, DT25ELH, D
09166-17005
 
09166-17005 Washer
30ELE, 30ESE, 30MLE, DF25, DF25(R)S, DF25Q, DF25Q(QR), DF25R, DF25R, DF25T, DF30, DF30Q, DF30Q(QR), DF30T, DT20ELG, DT20ELH, DT20ELJ, DT20ESG, DT20ESH, DT20ESJ, DT20MLG, DT20MLH, DT20MLJ, DT20MSG, DT20MSH, DT20MSJ, DT25C, DT25ELF, DT25ELG, DT25ELH, D
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