Cooling System Design - AutoSuccessOnline

Cooling System Design

Given the advanced state of internal combustion engine (ICE) technology, some recent cooling system innovations will actually increase engine torque and fuel economy while reducing exhaust emissions. Let me simplify that idea: new cooling system technology will make ICEs run better and cleaner. So, let’s get review some basics.

It’s Not About Temperature; It’s About Powertrain

Reading engineering papers tends to be a boring exercise, but they do give a technician like myself a new perspective on how a common automotive cooling system could actually be improved. Of course, our immediate thought is how the cooling system can keep the engine cooler. Not so, according to one paper.

To the contrary, the operative word isn’t about “temperature,” it’s about “powertrain.” Given the advanced state of internal combustion engine (ICE) technology, some recent cooling system innovations will actually increase engine torque and fuel economy while reducing exhaust emissions. Let me simplify that idea: new cooling system technology will make ICEs run better and cleaner. So, let’s get on the same page by reviewing some basics.

WATER PUMPS

As early automotive engines grew in displacement and torque output, belt-driven centrifugal water pumps were needed to prevent boil-overs on hot days. Unfortunately, the belt-driven centrifugal water pump supplies more coolant circulation than the engine needs in most driving situations, which makes it woefully inefficient in terms of modern energy conservation standards.

COOLANT DISTRIBUTION

The distribution of coolant through the cylinder head is controlled by passages cast into the block and by passages stamped into the cylinder head gasket. No matter the system, distributing an even flow of coolant through the engine block, cylinder head and around hot exhaust ports remains the primary goal of any contemporary cooling system. 

THERMOSTATS

Ideally, an ICE should operate near the boiling point of water to ensure that water, a by-product of combustion, is evaporated from the engine oil during normal operation. Without a high coolant temperature set-point, engine oil quickly turns into a black, highly viscous sludge that clogs vital oil passages and corrodes internal parts. Today, wax pellet- controlled thermostats are the standard method for mechanically managing coolant flow and temperature. 

COOLANT BYPASSES

The thermostat blocks the flow of coolant during engine warm-up, which causes a marked difference in thermal expansion rates between cast-iron engine blocks and aluminum cylinder heads. This inequality of heat transfer can eventually cause metal fatigue in the cylinder head and failure in the cylinder head gasket. The coolant by-pass circuit allows the water pump to warm the engine assembly evenly by circulating coolant through the engine block and cylinder head while the thermostat is closed. Most bypass circuits circulate coolant directly from the pressure outlet of the water pump to the base of the thermostat, which ensures an accurate thermostat opening temperature.

RADIATORS

A radiator removes heat from the coolant by transferring it to the relatively cool atmosphere. Radiators have evolved from the lead and brass core radiators of the past to the aluminum-core radiators with plastic head tanks of today. As a practical matter back in the day, radiators were mounted at the front of body sheet metal to collect free-flowing air at road speed. Nowadays, radiators are placed behind body sheet metal to achieve aerodynamic goals, which creates major design issues regarding radiator coolant capacity and exposure to free-flowing air.

COOLANTS

While pure water is the most economical heat transfer medium for a cooling system, it freezes at 32º F and boils at 212º F at sea level. It also rapidly corrodes internal parts of the cooling system. Alcohol, which was originally used to prevent cooling system freeze-up in early automobiles, boils away very rapidly at high operating temperatures. Alcohol was eventually replaced by glycol-based coolants that, at a 50% concentration with water, reduces the freezing point to about -34.2º F and increases the boiling point to about +225º F in an unpressurized cooling system.

PRESSURIZED SYSTEMS

During the 1950s, pressurized cooling systems were designed to prevent coolant boil-overs in hot weather and at high altitudes. Not only that, pressurizing the cooling system helps prevent hydraulic erosion of the water pump impellor at high engine speeds, and suppresses coolant percolation around the combustion chamber and exhaust port areas of the cylinder head during high engine loading.

ELECTRIC COOLING FANS

The electric cooling fan came into popular use when FWD vehicles with transverse engines appeared in the 1980s. In contrast to mechanically driven fans, electric fans can be fully controlled by the engine management system. Variable-speed, pulse-modulated, electric cooling fans are just another item in the engineer’s toolbox for controlling coolant flow and underhood temperatures.

MODERN ENGINE TRENDS

Now we can get to the changes in modern cooling system design. In addition to reducing rotating friction, reducing the swept area of the cylinders and the exposed area of the combustion chamber reduces the thin layer of unburned hydrocarbons (HC) clinging to the cylinder’s metallic surfaces, which creates boundary-layer exhaust emissions.

With the aid of computerized engine management systems, exhaust-driven turbocharging is responsible for producing small-displacement ICEs with very high torque outputs.  Aided by gasoline-direct fuel injection (GDI), variable valve timing (VVT) and up to 14:1 compression ratios, these small-displacement ICEs not only produce higher power outputs with lower exhaust emissions, but, on a more critical economic plane, they also require less underhood space than their high-displacement counterparts. Since cooling capacity is based on horsepower rather than engine displacement, the cooling system must exchange as much heat as a large-displacement engine.

PROGRAMMABLE COOLING SYSTEMS

Increasing the mechanical compression ratio of an ICE increases power output and fuel economy. But, with the increase of compression ratio, nitrogen oxide (NOx) emissions also increase. Higher compression ratios also require more expensive, high-octane gasoline to prevent destructive detonation, which is the fuel self-igniting around the circumference of the piston under intense cylinder pressure.

While keeping the cylinder head cool is a requisite for preventing detonation at high engine torque, keeping the cylinder head hot is a requisite for increasing fuel economy at low engine torque. Some manufacturers have tried reverse-flow cooling that transports relatively cool coolant from the lower radiator directly to the cylinder head. I don’t have any data to support the results of reverse cooling in normal usage, but the theory is sound. Nevertheless, cylinder head temperature control remains a primary goal of good coolant management in today’s engines.

ELECTRIC THERMOSTATS

Cylinder head temperature control is not a steady-state condition. In theory, if cylinder head temperatures can be electronically reduced, compression ratios can be increased. The flip side of that statement is that, if coolant temperatures are excessively reduced, fuel economy and exhaust emissions suffer because gasoline fails to vaporize fast enough to produce efficient fuel combustion. Since the ICE develops its best fuel economy at high cooling system temperatures and under low-torque conditions, it follows that actually changing engine coolant temperatures to conform with engine operating conditions improves engine torque and increases fuel economy, which is why we see computer-controlled electric thermostats in some Euro applications.

ELECTRIC WATER PUMPS

Electric water pumps aren’t new. They’re currently used in hybrid applications and in some high-end luxury vehicles. But it stands to reason that a computer-controlled, pulse-modulated electric water pump can operate on-demand and at variable speeds as opposed to the belt-driven centrifugal water pump that constantly runs at maximum capacity. Another advantage of an electric water pump is that it can be remotely located, which is a plus in today’s crowded engine compartments.

Currently, electric water pumps are used as auxiliary water pumps in some conventional powertrains. This allows engineers to reduce the parasitic drag of a belt-driven pump by reducing its pumping capacity. In this configuration, an electric pump augments water flow during high-demand situations. The electric pump can also be configured to increase or reduce the speed of coolant circulation in response to operating conditions. In any case, we’re probably going to see more electronically controlled water pumps and thermostats in future vehicle powertrains. 

You May Also Like

Servicing EV Tires

While wheel and tire maintenance is important for any vehicle, it’s critical for EVs.

Communicate with Your Customers & Convert Challenges into Opportunities

ardly a week goes by without hearing about the transition to electric vehicles (EVs). Almost as frequent are explanations why this may not happen as quickly as predicted.

Regardless, with manufacturers pouring literally trillions of dollars into EV development, you can be sure they’re coming, at some point, in some quantity. It’s time to start learning about EV tires.

Why Is My Check Engine Light On?

One of the toughest components to sell as a maintenance item, or even a replacement item, is an oxygen sensor.

Keeping Cars Clean & Sanitized During Cold & Flu Season

Providing that certified, clean feel to customers’ vehicles is sure to make weekly carpools and commutes more enjoyable.

Tackling Inventory Issues with Recon Technology

Inventory issues make recon more important than ever. Learn how Florence Toyota has succeeded with its new recon partnership.

Wheel Bearing Analysis: What Creates Noise, Endplay?

Wheel bearings support massive amounts of a vehicle’s weight for the relatively small size of their surfaces.

Other Posts

Remembering Distributors

Selling distributor components can mean big profit, and the key to it is understanding the distributor.

Successful Outbound Call Tips for Service

Learn how dealership service and internet managers can optimize outbound calling to bolster results, improve CSI.

An Unlimited Source for Pre-Owned Inventory: The Service Drive

Why are used vehicles in higher demand than other pre-owned vehicles in the market?

An Unlimited Source for Pre-Owned Inventory: The Service Drive
Throttle-By-Wire Diagnostics

Throttle-by-wire systems proactively manage the air and fuel going into the combustion chamber.