Jacobs® cylinder deactivation technology returns 2.76% fuel saving on highway test route

View of truck's front dashboard

Cummins Valvetrain Technologies reports positive results from further on-road testing of its Jacobs® cylinder deactivation (CDA) technology, which is designed to improve the environmental and economic performance of heavy-duty road vehicles.

Fuel savings of 2.76 percent were returned in the first SAE J1321 (Society of Automotive Engineers) standardized fuel consumption testing of Jacobs® CDA, using fully loaded comparison trucks on a highway route in North America. Similar tests on a distribution route returned fuel savings of two percent.

Impending emissions legislation in North America (EPA 27) and Europe (Euro 7), which covers both NOx and CO2 emissions, are pushing engine designers harder than ever before in the search for greater efficiencies. Working from a 2019 baseline, the EU will require a vehicle-by-vehicle 45 percent reduction in CO2 by 2030, a 56 percent reduction by 2035 and a 90 percent reduction by 2040.

The CDA system uses Jacobs’ expertise in valve control to automatically shut down selected cylinders in low engine load conditions by leaving their inlet and exhaust valves closed throughout the four-stroke cycle, while their fuel injectors are deactivated. This reduces fuel consumption. When additional engine braking is required, the same components that deactivate the cylinders are repurposed to provide vehicle retardation using the latest 1.5-stroke High Power Density® version of the Jake Brake® compression release engine brake.

Toxic emissions are also reduced because CDA optimizes the efficiency of exhaust after-treatment systems through thermal management as CDA increases exhaust temperatures at part loads. It also eliminates cooling during engine motoring, where tests also revealed a reduction in parasitic drag when the engine is in over-run, saving fuel. Shorter journey times were also reported.

The tests were conducted using a 2018 International LT625 6x4 tractor unit with a 13-liter Navistar A26 450 hp diesel engine and Eaton Endurant 12-speed overdrive AMT gearbox, both with a gross vehicle weight of 66,000lbs. Tests were conducted over 12,000 miles in Q4 of last year according to the SAE J1321 standard fuel economy protocol. The truck was run multiple times both with and without CDA active via a dashboard switch. The truck recorded an average speed of 51 mph on the highway route, and 38 mph on the distribution route.

Every run saw the test truck accompanied by a comparable control vehicle with its fuel consumption also recorded, to provide a baseline to account for variations caused by external factors such as weather and traffic conditions.

The on-road, real-world results from a fully loaded truck follow the reporting by Jacobs of initial fuel economy improvements of up to 20% in dynamometer-based lab testing of an engine in idle mode in 2020. In that same lab test, 77 percent reduction in NOx was recorded on a low load cycle with a 2018 aftertreatment system. While NOx emissions testing was not a focus for this latest road test, the test trucks had the same calibration compliance to EPA 2018 standards, and we expect these results to further improve for future emissions requirements where the benefits of CDA thermal management are further utilized.

Saving fuel and reducing emissions

CDA saves fuel by reducing the number of active cylinders to match the driver's real-time torque demand. The active cylinders have higher loads and temperatures, while the inactive cylinders have reduced parasitic losses. The reduced airflow, and air-fuel ratio in the remaining active cylinders, help maintain exhaust system temperatures above the critical 250 degrees C mark to allow efficient NOx conversion by the selective catalytic reduction module and continued passive regeneration of the exhaust PM filter.

On the highway tests without CDA, temperatures in the truck’s SCR unit fell below 250 degrees C for over 15 percent of the journey time, but when CDA was used in concert with the Jacobs Engine Brake®, SCR temperatures fell below 250 degrees C only during the scheduled stops and trailer swaps. On the distribution route, the mean temperature of the SCR unit was 243 degrees C with CDA engaged; 16 percent above the figure recorded without cylinder deactivation.

Time spent with the SCR operating under 250 degrees C was reduced by over 21 percent, and SCR temperature with CDA only fell below 200 degrees C for under two percent of the time compared to over 10 percent of the time in 6-cylinder mode.

Cummins’ on-road testing confirmed that, with optimized engine and cab mounts, NVH was equivalent to the non-CDA-equipped standard engine and vehicle while at 600 rpm in idle, as measured at the driver’s seat.

Cummins Valvetrain Technologies has deployed CDA systems into over 20 development programs, with engines ranging from 2-liter to 16-liter. A number of programs have moved into the vehicle testing stage.

Cummins Components Business Unit

Components Business Unit

Cummins Custompaks are being used for water management as Thailand struggles with its water crisis

CustomPak on site

Water crisis

Sixty Cummins Inc. CustomPaks are in service in Thailand as part of a critical water management plan aimed at easing the country’s water crisis – a crisis that has caused enormous economic and social damage and stirred conflict among communities.

Over the past several decades, Thailand has continually faced water problems caused by severe drought. Water reserves in dams and reservoirs are insufficient while water resources are often contaminated with toxins caused by urban communities and the industrial and agricultural sectors.

Severe flooding is a threat, too, at a time when the realities of climate change are hanging over the country.

As a result, the allocation of precious water resources, which must be shared among various stakeholders including new and existing industry, large and small agriculture, and cities and villages has become a flashpoint.

Kittithanapat Engineering Co. (KTP), has been involved in the water management system since 1996, working closely with authorities such as the Royal Irrigation Department, Department of Water Resources, Bangkok Metropolitan Authority and others.

CustomPaks on site

600 hp CustomPaks

To help KTP meet its often urgent requirements, Cummins DKSH (Thailand) has recently supplied 60 Australian-built CustomPaks – 45 powered by Cummins’ X15 engine rated at 600 hp, and 15 powered by the QSL9 rated at 325 hp. These fully self-contained powerpacks are emissions certified to Tier 3.

The CustomPaks are coupled to hydraulically-driven, large-volume submersible water pumps sourced by KTP from US company Moving Water Industries (MWI); KTP is the exclusive distributor in Thailand for these MWI Hydroflo pumps.

Prior to Cummins’ involvement, KTP was using another diesel engine brand but service support wasn’t up to the standard required.

Long-serving KTP engineer Kittisak Thanasoot says Cummins DKSH’s reputation for technical and aftersales support along with the reliability of the Cummins product were a key reason behind KTP’s decision to specify the CustomPaks for the Royal Irrigation Department.

The ability of Cummins DKSH to respond to short delivery times was also important.

“Supplying large quantities of high horsepower diesel engines for emergency situations such as flash flooding can be a challenge for KTP,” says Kittisak Thanasoot.

“Responding to the needs of the government agencies to manage such problems in a timely manner and with least impact on communities, KTP has found the answer in our partnership with Cummins DKSH.”

Power, pride and passion

Parked semi truck

The switch back to Cummins power has been beneficial for iconic New Zealand company Uhlenberg Haulage. It's all about whole-of-life costs.

Uhlenberg Haulage is closing in on 60 years in business, having been founded in 1966 by Mike and Carol Uhlenberg.

Based in Eltham, Taranaki, in New Zealand’s North Island, the operation is today owned and operated by their sons Chris, Daryl and Tony Uhlenberg.

Describing the Uhlenbergs as “old school family truckies”, Daryl talks about the company’s time-honored journey with a definite tone of pride, especially the work of his parents in laying the foundations for what is today an iconic fleet in its own right.

Cummins Inc. made its debut in the Uhlenberg fleet in 1971 with an NH250 powering a second-hand Kenworth K923 used in logging. A second Kenworth, a new W924 with a Cummins NTC335, followed soon after hauling an LPG tanker.

The Uhlenberg operation today comprises 40 prime movers and a variety of trailing gear to cater for the myriad of a jobs the fleet is involved in.

A number of Peterbilts feature in the fleet although Kenworth is now the brand of choice with six new units to be delivered over the next 12 months to cater for business growth.

Cummins’ X15 Euro 5 engine rated at 550 or 600 hp is the preferred power specification, with 18 red engines currently in the fleet.

Uhlenberg family in front of truck

Whole-of-life support

“The switch to Cummins has been a very good experience for us. We have nothing but praise for the Cummins organization,” says Daryl.

“The whole-of-life picture is the key thing for us and we’ve got that nailed with the support we get from Cummins – parts availability, scheduled maintenance, life expectancy and in-frame rebuilds.

“So the red engines turn up, we run them to life, which is 900,000 to 1.2 million kilometers, and then Cummins does an in-frame overhaul in a timely manner. If there’s an issue, parts and support are close by.

“The support we get from Cummins Palmerston North is fantastic, second to none.”

Daryl recently looked under a Kenworth that was in the workshop for a service and was surprised to see no oil leaking from the one-million-kilometer X15. “I remember when I was a fitter we had to wear a raincoat when working under a truck,” he jokes.

Fuel agnostic

Acknowledging that the push to decarbonize is now “very real”, Daryl likes the idea of Cummins’ fuel agnostic concept where one base internal combustion engine, optimized to run on diesel, can also be customized to run on ultra-low and zero-carbon fuels like renewable natural gas and hydrogen.

“My father was a pioneer of linehaul trucking in New Zealand and he always embraced new technology. He was never scared of it,” he says.

“I tend to be a little more cautious but I can see where a 500 hp natural gas or hydrogen engine would work for us in short haul applications,” he admits. “We’re certainly willing to look closely at these alternative fuel technologies when suitable infrastructure is in place.”

Redirecting to
cummins.com

The information you are looking for is on
cummins.com

We are launching that site for you now.

Thank you.