Engine Swap
Monday, October 4, 2010
New series of Engine models
- K20A3- 2.0L DOHC i-VTEC- '02+ RSX/'02+ (160hp)
- K20A2- 2.0L DOHC i-VTEC- '02+ RSX Type S/'02+ Civic Type R (200hp)
- K20A- JDM 2.0L DOHC i-VTEC- '02+ Integra Type R (220ps)
- F20A1- JDM 2.0L DOHC non-VTEC- 90-93 Accord Si (155hp)
- F20B- JDM 2.0L DOHC VTEC- 90-93 Accord Si-R (190ps)
- F20C1- 2.0L DOHC VTEC- '00+ S2000 (250ps/240hp)
- F22A1- USDM 2.2L non-VTEC- 92-96 Prelude S/90-93 (130hp-135hp)
- H22A1- USDM 2.2L DOHC VTEC- 92-96 Prelude VTEC (190hp)
- H22A4- 2.2L DOHC VTEC- 97-01 Prelude VTEC/SH (97-98: 195hp / 99-01: 200hp)
- H22A- JDM 2.2L DOHC VTEC- 92+ Prelude Type-S, 97+ Prelude SiR S Spec. (220ps)
- H23A1- USDM 2.2L DOHC non-VTEC- Prelude Si (160hp)
Known Engine that have been used over 16 years already..
- B16A1 1595cc , 4 cyl, 16 valve DOHC VTEC , 160 bhp @ 7600, 111 lb-ft @ 7000, Redline: 8200 rpm
- B16A2/A3 1595cc,4 cyl, 16 valve DOHC VTEC , 160 bhp @ 7600,111-ft @ 7000, Redline: 8200 rpm
- B16A4 1595cc, 4 cyl, 16 valve DOHC VTEC , 170 bhp @ 7800 ,16Nm @ 7300, Redline: 8200 rpm
- B16B Spec-R1595cc , 4 cyl, 16 valve DOHC VTEC , 185 bhp @ 8200,16.3Nm @ 7600,Redline: 9000 rpm
- B17 1678cc ,4 cyl, 16 valve DOHC VTEC, 160 bhp @ 7600, 117 lb-ft @ 7000 , Redline: 8000 rpm
- B18B 1834cc , 4 cyl, 16 valve DOHC, 130 bhp @ 6000,121 lb-ft @ 5000 , Redline: 6500 rpm
- B18B1 1834cc , 4 cyl, 16 valve DOHC , 140 hp @ 6300,121 lb-ft @ 5200, Redline: 6800 rpm
- B18C1 1797cc ,4 cyl, 16 valve DOHC VTEC , 170 bhp @ 7600, 128lbs-ft @ 6200, Redline: 8200 rpm
- B18C Spec-R1797cc ,4 cyl, 16 valve DOHC VTEC, 200ps @ 8000 rmp, 19.0kg/cm2, Redline: 8400 rpm
List of parts you need
- ECU with harness
- Engine mounts
- Axles
- Clutch line
- Brake lines
- Fuel line
- New after market high performance air intake
- Heater hoses
- Radiator hoses
- New clutch w/resurfaced flywheel
- Cable ties
- Primary air fuel ratio sensor
- Shift cables, shift box
- Black tape
- Extra wires
- Engine coolant temp sensor
- Vacuum hoses
- Brake booster hose
- Thin cooling fan
- Hi-flow exhaust
- Header
Intructions on removing a any Honda engine.
- Disconnect the battery positive and negative terminals.
- Open the engine hood in a vertical position.
DO NOT remove the engine hood. - Raise the car to full height. Remove the front wheels and engine splash shield.
- Drain the engine coolant. By loosen the drain plug at the bottom of the radiator tank.
- Drain the transmission oil/fluid.
- Drain the engine oil.
- Lower the car. Open the hood as far open as possible.
- Remove the strut brace.
- Remove the under-hood ABS fuse/relay box.
- Remove the air intake duct, the resonator and the air cleaner assembly.
- Relieve fuel pressure by slowly loosening the service bolt on the fuel filter about one turn.
- Remove the fuel feed hose and evaporative emission control canister hose from the intake manifold.
- Remove the throttle cable by loosening the locknut then slip the cable out of the accelerator linkage.
- Remove the engine wire harness connectors on the left side of the engine compartment.
- Remove the fuel return hose and brake booster vacuum hose.
- Remove the engine wire harness connectors, terminal and clamps on the right side of the engine compartment.
- Remove the battery cable/starter cable from the under-hood fuse/relay box and ABS power cable from the battery terminal.
- Remove the engine ground cable from the cylinder head.
- Remove the power steering (P/S) belt and pump. (if equipped - ignore, rather remove the pump lines)
- Remove the air conditioning (A/C) belt and compressor. (if equipped)
DO NOT remove the A/C hoses. - Remove the transmission ground cable and the automatic transmission (ATF) cooler hoses.
- Remove the upper and lower radiator hoses and the heater hoses.
- Raise the car to full height.
- Remove the exhaust pipe and bracket.
- Remove the A/T shift cable. (if equipped)
- Remove the clutch slave cylinder and pipe hose assembly.
DO NOT remove the pipe/hose assembly - Remove the shift rod and extension rod.
- Remove the damper fork.
- Remove the suspension lower arm ball joint with special tool.
- Remove the driveshaft.
- Lower the car.
- Attach the engine chain lifter to the engine.
- Remove the left and right front engine mount and brackets.
- Remove the rear engine mounting bracket.
- Remove the support nuts/bolt and mount bolt, then remove the driver's side engine mount.
- Remove the transmission mount nuts. Loosen the mount bolt and pivot the transmission side mount out of the way.
- Raise the chain lifter to remove all slack from the chain.
- Check that the engine is completely free of vacuum hoses, fuel and coolant hoses, and electrical wiring.
- Slowly raise the engine approximately 6 in. Check once again that all hoses and wires have been disconnected from the engine.
- Raise the engine all the way and remove it from the car.
Let’s get to the engines PART 2
B20B, B20Z: The B20 engine is the newcomer in the game and is highly acclaimed by its supporters. It has several key characteristics that give this engine real potential no matter what route you decide to persue. The B20B came on the 1996-1998 CRV and the B20Z came on 1999-2000 CRV. The B20B made 126 hp but the real jewel was the 133lbs of torque that was easily achieved almost anywhere in the RPM band. It is a small displacement engine that has flat torque line!!! Additionally it was a comparatively low compression engine which means that turbocharging to decent levels is possible without the need to spend hundreds on rods or pistons. The B20Z was more or less the same as the B20B but they changed several head characteristics and the compression was bumped up to increase the horsepower to 146.
There are really two choices for dealing the B20 as far as power goes. You could leave it as is and simply swap the head for B16 model. The cylinder head on the B20B model (particularly the tall intake manifold) doesn't clear the hoodline of the civic, which is ok since the B16 head swap will add Vtec abilities and increased power. OR you could go about what is called a CR-VTEC conversion. This is what I consider to be the ultimate engine build-up for civics’. You can check out www.crvtec.com for details. The first thing you need to know about B-series engine (B18, B16, B20) is that they all have, for the most part, interchangeable engine parts. So the CRVTEC buildup basically consists of taking the best parts of all the engines and making an unprecedented Frankenstein of motor that has a perfect Rod to Stroke ratio of near 1.75 which allows for great naturally aspirated performance (A HUGE redline) or the ability to turbocharge the engine to very large proportions without worrying about engine stability. It is unfortunately rather expensive but this setup will take you anywhere you want to go. The simple B20/B16 swap costs as follows: $1000-$1500 for the B20 short block, +/- $600 for the B16 head, +/- $300 for the B16 ECU + tranny and other small parts. The price for the CR/VTEC could be calculated on the aforementioned site.
Unless you’re simply happy with the stock B20 swap, the only reasons it should be considered are CRVTEC conversions or Forced Induction. The aftermarket support isn’t as plentiful for the B20 as it is for the other engine mentioned so any engine upgrades usually come from other B series or upgraded aftermarket parts for other B series. Which is more less slowly building a CRVTEC engine. But I still highly recommend this engine for the best bang for the buck power adder.
H22A1, H23A1, H22A4: The H23A1 came on the lude Si’s, the highly acclaimed H22A1 came on the 4th gen Si VTEC models and H22A4 came on the 5th generation Si VTEC’s.. And all three engines are MONSTERS compared to what we’re used to. The H22A1 produces a nice 190 hp while the H22A4 produces an even greater 195hp and the H23A1 produces 160hp but they all produce a THICK ASS 160 lb.-ft of torque at relatively low rpm. Giving your 2500lb civic wheel spinning capabilities comparable to a V8 F-body. The whole engine should cost about the same as a GSR swap, $3000-$3500. The down side is the fact that the engine also weighs about 200 lbs. more than the engine you have in your bay now. This effectively makes your weight distribution even worse than what it was before. This causes all types of havoc with your other systems, including suspension, braking and cooling. The engine is also of course very large in size so it's a tight fit into the tiny civic engine bay providing that you make space by removing both air-conditioning and power steering systems.
From talks with several veteran H22 swappers I can give you the overall driving opinion. To make the swap work, first off the springs and shocks in the front need to be stiffened to appropriately handle the extra weight. The overall suspension tuning should concentrate on trying to create heavy oversteer to offset the natural understeer problem the extra weight will create. There is another way to offset the understeer problem but most ppl don't want to go through with it. It involves placing a few hundred pounds of weight in the trunk to even out the weight distribution. But most ppl want to go the other way by stripping everything out of the interior, effectively making it worse. The cooling system will amazingly enough be fine for about 75% of the time. However, on hot days or with spirited driving, the engine can start to overheat itself. For the financially strapped, an extra wide Integra radiator can be swapped in for about $100 that will provide all the extra cooling you need. You can learn about it here: http://www.hybrid.honda-perf.org/tech/jsrad/jsrad.html. If you have the extra money, you could swap in an all aluminum thick ass racing radiator with a smaller and more efficient fan and for extra insurance, a low temperature thermostat (160 degree rather than 180) could be replaced. Considering you no longer have air-conditioning the extra space that was once used by the AC condenser could be put to good use and it could be used for an external oil cooler. With this setup you could go uphill mountain racing without fear overheating. The braking system for the most part could work but if you really want to trust your life to stock system, be my guest. If you'd like to upgrade it, the cheap way is to replace the rotors for better heat dissipation (You could either get stock sized cross-drilled or slotted rotors, or you could opt for a bigger rotor kit that uses a relocated bracket so you can use the stock calipers) better brake pads and rear brake disk swap if not already equipped (Instructions HERE). If you have some money, you could get a 4-piston caliper upgrade with extra large rotors with great pads. Just the thing to stop you at 150 mph. If you do opt for the bigger rotor upgrade, remember that the stock wheels will no longer fit over the larger brakes. Some systems suggest 16” or larger.
Let me remind you that this is all extra $$$. The basic swap still includes about $1000 worth of junkyard parts just to make it work, which includes axles, linkages, ECU, HASport mounts, etc. PLUS the cost of the engine itself. This is definitely not the cheap swap.
F20B: This 2.0 liter engine is the rarest of all the swaps. It’s the JDM Accord Si-R engine and it produced a healthy 200hp. The reason I leave this for last is because finding one is like trying to find an unlit cigarette from the 70’s and finding parts for them are even harder. Although not impossible to swap though, it falls under the same category as the H22 swaps. In fact the mounts for swapping the H22 will also work on the F20B. I’ve never personally seen or even heard of this swap done so there has to be a reason for it. I would advise to consider other options.
Ok, So far we've covered the D16Z6, D16Y8, D15B7, B16A1, B16A2, B16A3, B16B, B17A, B18B1, B18C1, B18C5, H22A1 H23A1, H22A4 and the F20B. Talk about choices!!! But we're only half way through. Now we go to the second part of the swapping experience, which is cylinder head swapping. Sometimes called a Frankenstein, engine hybrid, mini-me or LS/VTEC swaps. Head swapping usually includes getting a Non-Vtec block (B18B, D15B) and taking the entire cylinder head assembly from a Vtec enabled block (B18C1, D16Z6) and swapping it onto the Non-Vtec block. Effectively giving the non-Vtec block Vtec capabilities just like his older brothers. Hence the name LS/VTEC. LS for Non-Vtec and Vtec for...Vtec . It isn't easy though. The Vtec assemblies use oil to activate the system so oil lines will need to be tapped, the block and head need small preparations to flawlessly mate the two and the ECU from the Vtec enabled block will also be needed. So the grocery list includes the ENTIRE cylinder head set and everything attached to it, The intake manifold, throttle body, throttle cable, distributor, Vtec solenoid, EVERYTHING. You will also need the ECU, Vtec oil pump and various other lines and fittings and someone who's done this before. Here’s a great site that gets to the nitty gritty of the procedure:
There are really two choices for dealing the B20 as far as power goes. You could leave it as is and simply swap the head for B16 model. The cylinder head on the B20B model (particularly the tall intake manifold) doesn't clear the hoodline of the civic, which is ok since the B16 head swap will add Vtec abilities and increased power. OR you could go about what is called a CR-VTEC conversion. This is what I consider to be the ultimate engine build-up for civics’. You can check out www.crvtec.com for details. The first thing you need to know about B-series engine (B18, B16, B20) is that they all have, for the most part, interchangeable engine parts. So the CRVTEC buildup basically consists of taking the best parts of all the engines and making an unprecedented Frankenstein of motor that has a perfect Rod to Stroke ratio of near 1.75 which allows for great naturally aspirated performance (A HUGE redline) or the ability to turbocharge the engine to very large proportions without worrying about engine stability. It is unfortunately rather expensive but this setup will take you anywhere you want to go. The simple B20/B16 swap costs as follows: $1000-$1500 for the B20 short block, +/- $600 for the B16 head, +/- $300 for the B16 ECU + tranny and other small parts. The price for the CR/VTEC could be calculated on the aforementioned site.
Unless you’re simply happy with the stock B20 swap, the only reasons it should be considered are CRVTEC conversions or Forced Induction. The aftermarket support isn’t as plentiful for the B20 as it is for the other engine mentioned so any engine upgrades usually come from other B series or upgraded aftermarket parts for other B series. Which is more less slowly building a CRVTEC engine. But I still highly recommend this engine for the best bang for the buck power adder.
H22A1, H23A1, H22A4: The H23A1 came on the lude Si’s, the highly acclaimed H22A1 came on the 4th gen Si VTEC models and H22A4 came on the 5th generation Si VTEC’s.. And all three engines are MONSTERS compared to what we’re used to. The H22A1 produces a nice 190 hp while the H22A4 produces an even greater 195hp and the H23A1 produces 160hp but they all produce a THICK ASS 160 lb.-ft of torque at relatively low rpm. Giving your 2500lb civic wheel spinning capabilities comparable to a V8 F-body. The whole engine should cost about the same as a GSR swap, $3000-$3500. The down side is the fact that the engine also weighs about 200 lbs. more than the engine you have in your bay now. This effectively makes your weight distribution even worse than what it was before. This causes all types of havoc with your other systems, including suspension, braking and cooling. The engine is also of course very large in size so it's a tight fit into the tiny civic engine bay providing that you make space by removing both air-conditioning and power steering systems.
From talks with several veteran H22 swappers I can give you the overall driving opinion. To make the swap work, first off the springs and shocks in the front need to be stiffened to appropriately handle the extra weight. The overall suspension tuning should concentrate on trying to create heavy oversteer to offset the natural understeer problem the extra weight will create. There is another way to offset the understeer problem but most ppl don't want to go through with it. It involves placing a few hundred pounds of weight in the trunk to even out the weight distribution. But most ppl want to go the other way by stripping everything out of the interior, effectively making it worse. The cooling system will amazingly enough be fine for about 75% of the time. However, on hot days or with spirited driving, the engine can start to overheat itself. For the financially strapped, an extra wide Integra radiator can be swapped in for about $100 that will provide all the extra cooling you need. You can learn about it here: http://www.hybrid.honda-perf.org/tech/jsrad/jsrad.html. If you have the extra money, you could swap in an all aluminum thick ass racing radiator with a smaller and more efficient fan and for extra insurance, a low temperature thermostat (160 degree rather than 180) could be replaced. Considering you no longer have air-conditioning the extra space that was once used by the AC condenser could be put to good use and it could be used for an external oil cooler. With this setup you could go uphill mountain racing without fear overheating. The braking system for the most part could work but if you really want to trust your life to stock system, be my guest. If you'd like to upgrade it, the cheap way is to replace the rotors for better heat dissipation (You could either get stock sized cross-drilled or slotted rotors, or you could opt for a bigger rotor kit that uses a relocated bracket so you can use the stock calipers) better brake pads and rear brake disk swap if not already equipped (Instructions HERE). If you have some money, you could get a 4-piston caliper upgrade with extra large rotors with great pads. Just the thing to stop you at 150 mph. If you do opt for the bigger rotor upgrade, remember that the stock wheels will no longer fit over the larger brakes. Some systems suggest 16” or larger.
Let me remind you that this is all extra $$$. The basic swap still includes about $1000 worth of junkyard parts just to make it work, which includes axles, linkages, ECU, HASport mounts, etc. PLUS the cost of the engine itself. This is definitely not the cheap swap.
F20B: This 2.0 liter engine is the rarest of all the swaps. It’s the JDM Accord Si-R engine and it produced a healthy 200hp. The reason I leave this for last is because finding one is like trying to find an unlit cigarette from the 70’s and finding parts for them are even harder. Although not impossible to swap though, it falls under the same category as the H22 swaps. In fact the mounts for swapping the H22 will also work on the F20B. I’ve never personally seen or even heard of this swap done so there has to be a reason for it. I would advise to consider other options.
Ok, So far we've covered the D16Z6, D16Y8, D15B7, B16A1, B16A2, B16A3, B16B, B17A, B18B1, B18C1, B18C5, H22A1 H23A1, H22A4 and the F20B. Talk about choices!!! But we're only half way through. Now we go to the second part of the swapping experience, which is cylinder head swapping. Sometimes called a Frankenstein, engine hybrid, mini-me or LS/VTEC swaps. Head swapping usually includes getting a Non-Vtec block (B18B, D15B) and taking the entire cylinder head assembly from a Vtec enabled block (B18C1, D16Z6) and swapping it onto the Non-Vtec block. Effectively giving the non-Vtec block Vtec capabilities just like his older brothers. Hence the name LS/VTEC. LS for Non-Vtec and Vtec for...Vtec . It isn't easy though. The Vtec assemblies use oil to activate the system so oil lines will need to be tapped, the block and head need small preparations to flawlessly mate the two and the ECU from the Vtec enabled block will also be needed. So the grocery list includes the ENTIRE cylinder head set and everything attached to it, The intake manifold, throttle body, throttle cable, distributor, Vtec solenoid, EVERYTHING. You will also need the ECU, Vtec oil pump and various other lines and fittings and someone who's done this before. Here’s a great site that gets to the nitty gritty of the procedure:
Let’s get to the engines starting with the smallest and cheapest candidates
D16Z6, D16Y8, D15B7: If you have one of the lower and cheaper civic models, IE The Cx, Dx, Lx and If you're looking for a cheap power increase while still maintaining stock gas mileage then the possibility of swapping in one of the higher model civic engines is right up your alley. The D16Z6 is the SOHC 5th Gen. Si and Ex engine pushing 125hp @ 6600 rpm and 106 lb.-ft of torque @ 5200 rpm. The D16Y8 is the 6th gen. SOHC Ex engine pushing 127hp @ 6600 rpm and 107 lb.-ft of torque @ 5500 rpm. These are extremely easy to find since allot ppl swap them out in favor for more expensive engines. They bolt in like stock and the whole package could be had for hundreds (You might even find someone who’s recently swapped who would basically give away their engine). Let's say you want something cheap but you could work on for possibly turbo or nitrous? The D16Y8 is cheap and the pistons are the exact size of TT Supra pistons. They could substitute for forged versions and work just as well for a turbo upgrade. Be warned though as the D16Y8 has a particularly bad Rod to Stroke ratio at 1.52. I also suggest the B15B7 which is the 5th gen. Dx and Lx engine pushing 102hp @ 5900 rpm and 98 lb.-ft of torque @ 5000 rpm. If you have a 5th gen. Cx and you’re in need of the cheapest upgrade, this motor could be for you. Again you could probably find it for less than $500.
B16A1, B16A2, B16A3: If you need a little more power and have the money, the Civic Si and the del Sol VTEC engine are possibilities. They are all DOHC 1.6 liter engines pushing 160 hp @ 7600 rpm and 111lb.-ft of torque @ 7000 rpm. The A1 is the pre-obd engine that came with a cable transmission and various other pre 5th gen. items that need to be dealt with when considering the swap. The reason I point this out is because all 5th and 6th gen. civics came with hydraulic tranny's so think twice about this one. The upside is the cheap price. The A3 is the OBD1 engine out of the del Sol Vtec. These older models can be had for cheaper than OBD2 models and have upgraded various things such as hydro trannies. These are a perfect choice for the 5th genners. The A2 is the 99-00 Si engine. Same as the A3 only this one came with an upgraded OBD2 emissions system that is mandatory for all 96+ civic swappers. The B16A1 could be had for around $1200. The B16A3 could be found for about $2000-$2500 and the newer B16A2 could be found for around $2500-$3000.
They all lack a sufficient amount of torque due to their small displacement but their small mass and a bad ass R/S ratio of 1.74 allows them to rev to astronomical proportions. They also all have a HUGE aftermarket support. The only thing I don’t like about this particular swap is that this seems to be only one people think of. Whenever they want to swap engines, they all go for the B16. Don’t get me wrong, it’s a great engine but there are other engines out there to consider. I’ve even known people to be disappointed because they expected more. That’s what this article if for
B16B: Often regarded as the best 1.6 liter engine in the world, the JDM Civic Type R engine is the rarest of them all. Producing a whopping 185hp @ 8200 rpm and a reasonable 120 lb.-ft of torque @ 7600 rpm and being naturally aspirated, it is technical marvel. It was only available on the 1999-2000 Civic Type R and having one imported will run you easily into the $6000+ range. But you will be WELL respected and large thief magnet when ppl find out. If you have the money and like spending it on high octane gas for your 4 banger, why not?
B17A, B18B1: The B17A could be found on the 92-93 GSR producing 160hp @ 7600 rpm and 117 lb.-ft @ 7000 rpm. The B18B1 is the later model Integra LS, RS, and GS engines. They don't offer huge power outputs at 142hp @ 6300 rpm and 127 lb.-ft @ 5200 rpm, But they can be had for very cheap as they are plentiful and not really sought after by many people. The exception being for the B17A as it did have greater power output but they can still be had for cheap as they are generally older and in worse shape compared to the newer B18’s. Anyone of these should still offer a cheap, reliable power upgrade for your small civic. Anyone of these engines could be found for under $2000. The downside to these cheaper engines is their Rod to Stroke ratio. The B17 isn’t that bad but the B18B1 has a R/S ratio of 1.54. This does considerably reduce the maximum possible power output from these engines. But if you don't plan on turbocharging this engine past 15 psi or letting it rev to 11,000 rpm, then it should meet your modest power needs.
B18C1: Probably the most highly sought after swap candidate, this powerful little engine came on the late model Integra GSR and produced a hefty 170hp @ 7600 rpm and 128lbs-ft @ 6200 rpm. It is rather expensive at around $3000-$3500 and they are a little on the rare side considering everyone wants one, but a simple swap and your pocket rocket will be pushing high 14's with a stock engine. Even more by adding the small bolt-ons. And greddy has a bolt on intercooled turbocharger kit that'll give around 240 wheel hp. Which should put you deep into the 13 second range, possibly high 12's. This is the most desired swap candidate.
B18C5: This naturally aspirated wonder came on the late model Integra Type R and produced an even greater 195 hp @ 8100 rpm and about 130 lb.-ft of torque @ 7500 rpm. This is even more highly sought after than the GSR engine. And would in fact be more popular if it wasn't for its $5000+ price tag. But if you could afford it, there are few engines that would be as painless and give you the fastest performance available for the civic. This regarded as the naturally aspirated wonder because it does well producing large amounts of power without the need for snailshell's. Although a turbocharger can be bolted on to this bad-boy, it's generally not recommended, as this is a very high compression engine. If you were to used forced induction on such a high compression engine, you would either have to build it accordingly, have a REALLY good engine management system ($$$) or watch it blow up on the first run. The C1 is better suited for forced induction and would cost less in the long run.
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