This year marks 100 years of diesel engine development and production for Cummins, which is today listed as a Fortune 500 company, employing 54,600 people worldwide. As EU Stage V emission compliance comes into effect, here we look at past and present Cummins innovations.
Even though the implementation of emission regulations for off-highway vehicles has been less visible to the public than the clean-up procedure for diesel-powered cars and commercial vehicles, diesel engine emission compliance has been a core consideration for engine manufacturers for almost four decades.
Throughout this time, UK farmers have seen the introduction of a range of new technologies, including electronically controlled engine devices and control systems, but what was innovation in the decades before emission control?
Cummins was founded in 1919 by a 31-year-old farmer’s son from Indiana named Clessie Cummins, supported by banker W.G. Irwin.
Mr Cummins was a visionary, who recognised the benefits of using technology developed by Rudolph Diesel at the end of the 19th century. The 6hp single-cylinder Hvid was Cummins first engine, which was manufactured under licence and included Mr Cummins’ improved ignition control. A mainstay for farm pumps and workshops across the USA, more than 2000 Hvid engines were manufactured at Cummins’ historic Cerealine Mill.
Although agriculture was the foundation for Cummins engines, Mr Cummins soon began innovating for on-road vehicles.
In 1929, the Cummins Model U engine was installed into a Packard Limousine; the first car in the USA to have a diesel engine and one of the earliest diesel-powered cars in the world.
The Packard drove more than 800 miles from Indianapolis to New York in the first ever long distance diesel trip in the USA.
Fast forward to the 1930s and it was the Cummins Model U engine which powered the first diesel agriculture crawler tractor in the USA, a six-ton Allis Chalmers Monarch 50. Known as ‘Neverslip’, due to its strong traction over difficult ground, the crawler tractor was used for farming, logging and road work.
In another first, Cummins Number 8 race car became the first diesel-powered vehicle to reach 100mph, running at Daytona Beach, Florida, with a race-modified Model U four-cylinder 85hp engine.
In the late 1950s, Cummins 8.1-litre and 12.2-litre engines were successfully installed in the world’s first articulated tractor, the Wagner TR. With power to all wheels, higher traction enabled faster work for larger farms.
In 1958, Mr Cummins filed a patent for the famous Pressure Time fuel system. The patent detailed ‘two cam-driven plungers, one for timing the fuel charges into and out of a fuel pumping plunger chamber’. It would be the foundation for today’s common rail fuel systems.
Throughout the decades, Cummins became renowned for its innovative partnerships, and 1977 brought the 600hp 19-litre Cummins-powered ‘Big Roy’ prairie tractor. Manufactured by Versatile, the 8x8 articulated drive was the world’s biggest tractor for prairie farming.
Today, there are more than 20 agricultural equipment manufacturers around the world that specify Cummins engines, which the company offers in capacities ranging from 2.8 litres up to 19 litres for agricultural applications.
Evolving to become a global power solutions leader, Cummins has invested heavily into hybrid technology, with the purchase of lithium-ion battery manufacturers Brammo Inc and Johnson Matthey Battery Systems, as well as Efficient Drivetrains, a Silicon Valley-based electric and hybrid powertrain company.
This has enabled Cummins to integrate its engines with batteries to develop new transmission and control systems.
The first example of this technology for the off-highway market was revealed in April 2018, when Cummins introduced its Hybrid Power Plug-In (HPP) power- train concept.
Operated by a 3.8-litre engine driving a generator and modular battery packs, the HPP (formerly REEV), is suitable for a wide range of agriculture and construction equipment.
This kind of ‘hybrid’ technology is well accepted in automotive circles, but are we likely to see electric or HPP-powered tractors on UK farms in the near future? The answer, according to Mr Nendick, is that it will most likely depend on the duty cycle.
He says: “While electrification has tremendous promise, it is arguably not suitable for all applications. The major considerations when deciding on the right powertrain technology are duty cycle, battery capacity and charging capability.
“It is likely we will see fully electrified power used in lighter duty machines, at least in the short-term. For example, mini excavators rather than power intensive farm equipment at peak harvest.
“Hybrid technology, such as the HPP, offers the advantage of electrified power with an ultra-clean diesel back-up.
“Blending energy use between the engine-generator and the battery to best suit needs means the concept can be applied to a wider variety of equipment.”
Cummins’ immediate priority is to continue working with various trac- tor manufacturers to develop power solutions which are suitable for specific customer applications. Cummins is clear diesel engines are here to stay for the foreseeable future, complemented by alternative technologies.
Mr Nendick says: “Diesel is the most energy dense liquid fuel available and adv- ances in engines, emissions control technology and cleaner diesel fuels have led to some remarkable environmental gains.
“In the past 25 years, for example, there has been a 95 per cent reduction in nitrogen oxide emissions, a key contributor to smog.
“Diesel engines are also proving to be a good platform for hybrid powertrains and we could see their integration with other types of fuel and/or propulsion sources.”
As customers adopt different power solutions for different applications, Cummins is uniquely prepared to help manage their fleets through a range of power solutions and its global service and support network.
One thing is clear: Cummins and its customers will continue to challenge the impossible for the next 100 years.