Powertrain Overview: Compressed Natural Gas (CNG)

Powertrain Overview: Compressed Natural Gas (CNG)

Since the creation of the first modern automobile nearly a century and a half ago, there has been one dominant engine option on the market, the gasoline internal combustion engine. Now the gasoline internal combustion engine has some challengers trying to steal the crown. There have been many different types of engines in the past but many of them relied solely on fossil fuels to operate.

Recently though, because of increasing fuel economy standards and emission awareness, a new breed of engines is emerging, many relying on electricity to aid in powering the vehicle. With these new power plants comes a new set of rules and warnings on how to repair them. A lot of collision technicians have an idea about how some of the new powertrains work, but not a full understanding of what is going on under the hood. It is important to understand the inner workings of the engine in order to safely and properly diagnose and repair them after a collision. In this series, we’ll walk you through many of the current engine options and how they convert the fuel they’re consuming into usable power. Let’s explore the compressed natural gas (CNG) internal combustion powertrain.

A CNG powertrain is nearly identical to a traditional gasoline internal combustion engine. There are a few different components to the CNG powertrain, but the way that the fuel is burned is the same. The fuel is mixed with air which is then burned in the cylinder, creating power. The tanks that fuel is stored in is different, CNG required a special tank that can hold highly compressed gas. The gas is under high pressure when it leaves the tank so it must pass through a pressure regulator to lower the pressure before it can be burned.

CNG engines have a significant amount of sensitive electrical components on them. These powertrains use a 12V battery system to start the vehicle and power the accessories. The battery is charged by an alternator powered by the engine. Because of this, it is crucial to disconnect and isolate the battery and electrical system when making repairs and welding on the vehicle. The added electrical current from welding can damage important electrical components for the engine. The high-pressure gas tanks and lines will require special care when servicing. There will normally be pressure releases built into tanks that may need inspection after collisions.

Additional I-CAR Collision Repair News you may find helpful:
Powertrain Overview: Electric Vehicles
Powertrain Overview: Hybrid Electric Vehicles (HEV)
Powertrain Overview: Hydrogen Fuel Cell Vehicles
Powertrain Overview: Liquid Petroleum Gas (LPG)
Powertrain Overview: Plug-In Hybrid Electric Vehicle (PHEV)
Powertrain Overview: The Internal Combustion Engine