EMD E-unit
The EMD E-units were a family of streamlined passenger diesel-electric locomotives developed and manufactured by the Electro-Motive Corporation (EMC), a predecessor to the Electro-Motive Diesel (EMD) division of General Motors, primarily for high-speed express passenger train service across North American railroads.[1] Introduced in 1937 with the EA model, these locomotives featured a sleek, aerodynamic carbody housing two diesel engines—typically Winton 201 series V12s in early variants—driving generators that powered traction motors on A1A-A1A trucks (six axles total per unit, with the center axle unpowered for stability at high speeds).[2] Production spanned from 1937 to 1964, encompassing models such as the E1 through E9, with total output exceeding 1,300 units combining cab-equipped A-units and cabless B-booster units.[1] Horsepower ratings evolved from 1,800 hp in initial models to 2,250 hp in E8 variants and 2,400 hp in E9 variants, enabling top speeds over 100 mph and making E-units the backbone of iconic streamliner trains like the Santa Fe's Super Chief.[1] These locomotives marked a pivotal shift in railroading, accelerating the transition from steam to diesel power during the 1930s and 1940s by offering superior reliability, lower maintenance costs, and multiple-unit operation that reduced crew requirements compared to steam engines.[2] Post-World War II, E-units became synonymous with luxury passenger travel, powering services for major carriers including the Pennsylvania Railroad, Union Pacific, and Milwaukee Road, though their production waned by the early 1960s amid declining rail passenger volumes and the rise of competing transportation modes.[1] Today, several preserved examples operate in excursion service or are displayed in museums, underscoring their enduring legacy in American rail history.[1]Development and History
Origins
In the 1930s, U.S. passenger railroading underwent a significant transformation as railroads sought to modernize operations amid growing competition from automobiles and airplanes, leading to the gradual shift from steam locomotives to diesel-electric power. Steam engines, while powerful, were labor-intensive, required frequent maintenance, and produced smoke that clashed with the era's emphasis on speed and comfort. Diesels offered advantages in reliability, quicker starts, and reduced crew needs, aligning with the introduction of lightweight, aerodynamically designed "streamliner" trains that promised faster schedules and luxurious travel to attract riders. Iconic examples included the Chicago, Burlington & Quincy's Pioneer Zephyr in 1934, which set a record non-stop run from Denver to Chicago, and the Atchison, Topeka & Santa Fe's Super Chief in 1936, both powered by early EMC diesel units that demonstrated the viability of diesel for long-distance passenger service.[2][3] The Baltimore & Ohio Railroad emerged as a leader in this dieselization effort, becoming one of the first major carriers to experiment with diesel-electrics for mainline passenger trains. In 1935, the B&O placed EMC's experimental boxcab diesel No. 50 into service on the New York-Washington route, marking an early step toward replacing steam on key corridors. This initiative reflected broader industry trends, where railroads like the B&O invested in diesel technology to improve efficiency on routes such as the Capitol Limited, even as skepticism lingered about diesels' ability to handle heavy passenger loads over extended distances.[3][4] Electro-Motive Corporation (EMC), established in 1922 and acquired by General Motors in 1930, drove much of this innovation by adapting its proven freight locomotive designs to passenger needs. EMC's initial 1800 hp B-B freight units from the mid-1930s provided a foundation, but passenger service demanded a configuration that minimized track wear while maximizing speed and stability. By May 1937, EMC introduced A1A-A1A wheel arrangement designs specifically for streamliner hauling, featuring articulated trucks to distribute weight across six axles per unit and enable higher speeds on lighter rail infrastructure. This evolution built directly on EMC's experience with earlier passenger experiments, such as the diesel-powered streamliners of the mid-1930s.[5][2] The core of the E-unit series originated from EMC's twin-engine concept, which paired two Winton 201-A diesels to deliver a combined 1800 hp output suitable for pulling heavyweight passenger consists. This approach ensured redundancy and balanced power distribution, addressing the demands of accelerating long trains at sustained high speeds. The Baltimore & Ohio Railroad placed the inaugural orders for these EA (cab-equipped) and EB (booster) units in 1937, with the first EA prototype entering testing that year and influencing subsequent passenger diesel designs across the industry.[5] Central to this development was the longstanding collaboration between EMC and the Winton Engine Corporation, which GM had also acquired in 1930 to integrate advanced diesel engine expertise. Winton's reliable two-stroke engines, refined through joint projects like the 1934 Pioneer Zephyr, provided the powerplants that made the E-units feasible, enabling EMC engineers to focus on locomotive integration and streamlining. This partnership accelerated the commercialization of diesel passenger technology, setting the stage for broader adoption in the late 1930s.[2][6]Evolution and Production Timeline
The EMD E-unit series began production in 1937 with the introduction of the EA and EB models, marking the entry of Electro-Motive Corporation (EMC) into the passenger diesel locomotive market.[1] This was followed by the E1 in late 1937, and the E2 in 1937–1938, as EMC refined its initial designs for streamlined passenger service.[1] By 1939, the E3 entered production, continuing through 1940, amid growing demand for reliable diesel power amid the transition from steam.[1] Wartime restrictions during World War II limited civilian production, but the series saw a surge post-1945, with the E7 model introduced in 1945 and running until 1949.[1] A pivotal shift occurred in 1938 when EMC transitioned from Winton engines to its own in-house EMD 567 two-stroke diesel, enabling power outputs to increase from 1,800 horsepower in early models to 2,400 horsepower by the final variants.[7] This engine upgrade supported the evolution through intermediate models like the E4 through E6 (produced 1939–1942) and into post-war standardization efforts that emphasized modularity and higher performance.[1] Production peaked during the war years and the subsequent post-war economic boom, as railroads electrified their passenger fleets to replace aging steam locomotives.[1] The series progressed to the E8 in 1949, continuing until 1954, before culminating with the E9 from 1954 to 1964, incorporating refinements for efficiency and reliability.[1] In total, over 1,300 units were built across all E-unit models, reflecting their dominance in American passenger railroading.[1] Production ended in December 1963 with the final E9s, driven by the sharp decline in intercity passenger services and the rise of alternative transportation modes.[8] Over the decades, styling evolved from the sleek, rounded forms of early models to more robust, angular designs in later ones, adapting to operational needs.[1]Design Features
Engines and Power Systems
The EMD E-units initially employed twin Winton 201A V12 two-stroke diesel engines, each rated at 900 horsepower for a combined output of 1,800 horsepower in models from the EA through E2. These engines featured an 8-inch bore and 10-inch stroke, with uniflow scavenging and unit injection systems that marked an advancement in reliability for early diesel passenger service.[9] Each engine drove a separate direct-current main generator, which supplied power to two traction motors per truck in an A1A-A1A wheel arrangement, enabling smooth acceleration for streamliner trains. Beginning with the E3 in 1939, EMD shifted to the innovative 567 series two-stroke diesel engines, which became the backbone of subsequent E-unit power systems.[10] The E3 and early models like the E4 through E6 used two 12-567 V12 engines, each producing 1,000 horsepower for a total of 2,000 horsepower; these uniflow-scavenged engines displaced 567 cubic inches per cylinder with an 8.5-inch bore and 10-inch stroke, operating at 800 rpm.[11] The E7 retained this configuration with 12-567A variants at the same 1,000 horsepower per engine. Power generation followed the same dual-generator setup, with each main generator—typically a Westinghouse or GE model—coupled directly to its engine and feeding four GE 600-series nose-hung traction motors overall, rated for 600-volt DC operation to optimize high-speed passenger performance.[10] Later models advanced the 567 series for higher output and durability. The E8 incorporated two 12-567B engines at 1,125 horsepower each, yielding 2,250 horsepower total, while the E9 upgraded to 12-567C engines at 1,200 horsepower apiece for 2,400 horsepower, incorporating improvements like enhanced blowers and pistons for better brake mean effective pressure (92 psi).[12] Cooling systems across the series used water-to-air radiators mounted on the locomotive roof, with each engine requiring approximately 200 gallons of cooling water capacity and Roots-type blowers for scavenging and turbo-precharging in later variants. Fuel systems supported extended runs with standard capacities of 1,200 gallons per unit, though variations reached up to 2,400 gallons in configurations for railroads like Union Pacific to accommodate transcontinental service without frequent refueling.[13][14]Trucks and Suspension
The EMD E-unit locomotives featured a standardized A1A-A1A truck configuration, consisting of two three-axle trucks with powered outer axles and an unpowered center axle on each for enhanced stability during high-speed passenger operations.[15] This design, known as the Blomberg truck after its engineer Martin P. Blomberg, provided a 14-foot 1-inch wheelbase per truck, which contributed to a smooth ride quality essential for streamliner services.[16] The outer axles were equipped with traction motors, delivering power to four axles total across the locomotive while the center axles supported additional weight without propulsion.[17] The suspension system employed an equalized setup adapted from steam locomotive tender trucks, incorporating coil springs positioned above and beside the journal boxes for primary suspension, along with elliptical leaf springs and equalizer arms for secondary suspension to distribute loads evenly and absorb track irregularities.[16] Timken roller bearings were utilized in the journal boxes, reducing friction and enabling reliable performance at sustained speeds up to 117 mph, depending on gearing.[17] This combination ensured minimal wear and superior handling on curved tracks common in passenger routes.[15] Weight distribution emphasized adhesion on the powered axles, with approximately 15 tons per powered axle to optimize traction without exceeding track limits, while the total locomotive weight ranged from 315,000 to 360,000 pounds across models, accounting for variations in equipment and fuel capacity.[18] The Blomberg truck evolved from earlier EMC designs used in prototypes like the M-10000 and transitioned to a standardized form by the E3 model in 1940, replacing prior configurations for improved durability and maintenance access. This refinement marked a key advancement in passenger locomotive running gear, influencing subsequent E-unit production through the E9.[15]Carbody and Styling
The EMD E-units featured a distinctive carbody design that evolved to balance aerodynamics, aesthetics, and functionality for passenger service. Early models, such as the EA and E1, incorporated a sloping nose with a steep front angle to reduce air resistance, contributing to the streamlined appearance popularized in the late 1930s diesel era.[5] This design element was influenced by the era's emphasis on speed and efficiency for streamliner trains, with the slant-nose providing a sleek profile that integrated seamlessly with matching passenger cars. By the E2 and subsequent models, the nose transitioned to a more robust "bulldog" style, featuring a less angled front end that echoed the contemporary F-unit freight locomotives while maintaining a passenger-oriented elegance.[5] Carbody construction typically employed riveted mild steel for durability and cost-effectiveness, forming a monocoque-like structure that housed the dual power plants and supported the overall length of approximately 70 feet over buffers and 10 feet in width. These dimensions allowed for a spacious cab and engine compartments while adhering to standard railroad loading gauges. A notable variation occurred with the E5 units, built exclusively for the Chicago, Burlington & Quincy Railroad; these were clad entirely in polished stainless steel with fluted lower side panels to harmonize with the Zephyr streamliners, enhancing corrosion resistance and visual appeal.[19] Skirting along the lower sides and trucks further accentuated the streamlined silhouette, concealing running gear and promoting a smooth, wind-cutting form.[20] Headlight and grille arrangements varied across the production run to improve visibility and ventilation. Initial models used dual headlights mounted in the nose door and upper facade for better illumination during high-speed operations.[21] Later iterations, particularly the E8 and E9, adopted stainless-steel mesh grilles over side air intakes, which facilitated enhanced cooling for the prime movers by allowing greater airflow while maintaining a refined exterior.[22] These grilles, often positioned along the full length of the carbody sides, replaced earlier louvered designs and contributed to the units' modernized styling in the postwar period.[20]Electrical and Control Systems
The EMD E-units featured multiple-unit (MU) control systems that enabled synchronized operation of A-B-A consists, typically comprising up to three units where the lead cab controlled the trailing boosters and additional cab unit. This was achieved through a 27-point electrical jumper cable connecting the locomotives, transmitting control signals for throttle, braking, and engine functions from the lead unit to the others, ensuring uniform power distribution and responsiveness across the consist.[23][24] Dynamic braking was introduced as an option on the E7 and became more widely available on subsequent models like the E8 and E9, utilizing the traction motors as generators to produce retarding force by converting kinetic energy into electrical energy dissipated through roof-mounted resistor grids cooled by fans. This system provided smoother deceleration for passenger trains, reducing reliance on air brakes and minimizing wheel slide, with a maximum current of around 600 amperes before automatic cutoff via warning lights and relays.[13] In the cab, engineers operated an electro-pneumatic throttle lever with eight running notches plus idle and stop positions, which regulated engine speed from 275 to 800 RPM and load regulator output to maintain consistent horsepower. Braking controls included an independent brake valve (S-40-F type) for locomotive-only application and an automatic brake valve (24 RL type) for train-wide control, integrated with a K-2-A Rotair valve for precise pressure adjustments. Steam generator controls, typically Vapor-Clarkson units producing up to 1,200 pounds of steam per hour, were managed remotely via cab switches for fill, off, and run modes, with servo mechanisms automatically proportioning fuel, water, and air for efficient passenger car heating.[13][18] Later E-units incorporated innovations such as phase-selective signaling for improved track circuit compatibility and, in select E9 configurations, head-end power (HEP) options providing 480-volt AC output for modern passenger cars, replacing or supplementing steam heating systems.[13][20]Production Models
Early Models (EA–E3)
The early E-units marked Electro-Motive Corporation's (EMC) initial foray into streamlined passenger diesel locomotives, beginning with models powered by twin Winton 201-A diesel engines. These units featured A1A-A1A truck configurations for improved stability and ride quality on high-speed passenger services, with each engine rated at 900 horsepower for a total output of 1,800 horsepower per unit.[5] The design emphasized multiple-unit (MU) operation, allowing cab-equipped A-units to control cabless B-units, which doubled power when paired.[25] The EA and EB models, produced exclusively for the Baltimore & Ohio Railroad (B&O) in 1937, represented the first production run of these passenger diesels, with six EA cab units and six EB booster units built between May and July.[5] Numbered 51-56 for EA units and 51X-56X for EB units, they were deployed in paired sets to haul the B&O's new streamlined Royal Blue train, achieving a top speed of 116 mph and continuous tractive effort of 31,000 pounds.[5] These experimental configurations validated EMC's approach to diesel passenger power, though the Winton engines required frequent maintenance due to their four-cycle design.[26] Building on the EA/EB, the E1 followed in late 1937 as an order for the Atchison, Topeka and Santa Fe Railway, consisting of eight E1A cab units and three E1B boosters, all delivered by December.[5] These units incorporated refinements in cab controls for better operator ergonomics and visibility, while retaining the 1,800 horsepower setup and slant-nose streamlining to match the Santa Fe's Chief streamliner.[5] The E1's production highlighted EMC's growing standardization in passenger locomotive design, with a length of 70 feet and weights around 300,000 pounds per A-unit. The E2 served as a transitional model in 1937-1938, ordered by the Union Pacific Railroad with two E2A cab units and four E2B boosters completed by February 1938.[5] Notable for introducing a more rounded "bulldog" nose aesthetic—influenced by industrial designer Raymond Loewy—the E2 maintained the 1,800 horsepower rating and MU capabilities, powering UP's City of Los Angeles streamliner in sets of up to three units.[5] This model's production totaled just six units, underscoring its role as a bridge to more powerful designs amid evolving styling preferences. The E3, introduced in 1939, signified a major advancement as EMC's first passenger unit to employ the new two-cycle EMD 567 V12 engines, each delivering 1,000 horsepower for a combined 2,000 horsepower per unit.[11] Production spanned September 1938 to June 1940, yielding 17 E3A cab units and two E3B boosters, distributed among several railroads including the Santa Fe (one A and one B), Union Pacific (one A and one B), Chicago & North Western (two A and two B), and others such as the Atlantic Coast Line, Rock Island, Florida East Coast, Kansas City Southern, and Missouri Pacific.[11] An initial demonstrator E3A was built in 1938 and later sold to the Kansas City Southern, while the model's 71-foot length, 56,500-pound starting tractive effort, and 116 mph top speed supported operations on routes like the Santa Fe's Super Chief.[11] Unique A/B variants allowed flexible configurations for specific railroad needs, such as the paired sets for the Chicago & North Western's Flambeau 400. Production ended in June 1940.[11][6]Intermediate Models (E4–E7)
The intermediate models in the EMD E-unit series, spanning the E4 through E7, represented a transitional phase from pre-war experimentation to post-war standardization, produced between 1938 and 1949 amid evolving diesel technology and wartime constraints. These locomotives maintained the core A1A-A1A truck configuration and passenger-oriented design of their predecessors but incorporated refinements in power delivery and reliability, with output consistently at 2,000 horsepower from twin 12-cylinder 567 prime movers. Production volumes increased significantly, reflecting growing railroad confidence in diesel power for streamliner services, though World War II imposed adaptations such as halted passenger unit output from 1942 to 1945 due to material shortages in strategic metals like copper and steel, prioritizing military needs and freight locomotives.[27][28] The E4, introduced in 1938, with 19 units built exclusively for the Seaboard Air Line Railway to haul the inaugural Silver Meteor streamliner. These prototypes featured a slant-nose cab for aerodynamic efficiency and were tested extensively in high-speed passenger service along eastern routes, achieving reliable performance up to 110 mph despite initial teething issues with the new 567 engines. Unlike earlier Winton-powered models, the E4's design emphasized streamlined integration with lightweight trains, setting a template for subsequent E-units.[27] Building on the E4, the E5 was a custom variant produced from 1940 to 1941, with 11 A-units and 5 B-units tailored for the Chicago, Burlington & Quincy Railroad and its subsidiaries. These locomotives were clad in distinctive fluted stainless-steel sheathing to match the Zephyr fleet, including services like the Afternoon Zephyr and Nebraska Zephyr, and adopted a pronounced "slant nose" for enhanced visibility and styling harmony with Budd-built cars. The E5's 2,000 hp output proved ideal for midwestern routes, where its lightweight construction (around 315,000 pounds) contributed to fuel-efficient operations on moderate grades.[29] The E6, manufactured from 1940 to 1942, achieved the series' first mass production with 91 A-units and 26 B-units distributed across 16 railroads, including major operators like the Atlantic Coast Line (23 units) and New York Central. Delivering 2,000 hp, these units were valued for their versatility in powering long-distance streamliners such as the 20th Century Limited, with features like dual headlights and multiple-unit capability enabling consists of up to 10 cars at speeds exceeding 100 mph. Wartime restrictions curtailed further output after September 1942, but the E6's robust frame and improved cooling systems influenced post-war designs.[30] Resuming production after the war, the E7 emerged as the best-selling intermediate model, with 428 A-units and 82 B-units built from 1945 to 1949 for railroads including the Pennsylvania Railroad, Union Pacific, and Baltimore & Ohio. At 2,000 hp, it introduced dynamic braking as a standard option, using the traction motors to generate retarding force and reduce wear on mechanical brakes during downhill runs—a critical advancement for heavy passenger trains. The E7's "bulldog" nose and optional Blomberg trucks enhanced stability at high speeds, while steam generators supported car heating; its peak production reflected pent-up demand following wartime material shortages that had limited non-essential manufacturing.[31]Late Models (E8–E9)
The E8 marked the beginning of the late E-unit production era, entering service in August 1949 as an evolution of prior models with enhanced reliability and power output. Equipped with two 12-cylinder 567B prime movers, it delivered 2,250 horsepower, though units built starting in September 1953 incorporated upgraded 567C engines for 2,400 horsepower. Production spanned until December 1953, resulting in 421 E8A cab units and 39 E8B booster units. These locomotives featured dynamic braking as a standard option and dual or single large steam generators for passenger car heating, reflecting refinements for sustained high-speed service. Styling progressed through Phase III and IV variants, incorporating larger intake grilles for improved engine cooling and revised roof contours with enhanced ventilation intakes to manage heat from the more powerful prime movers.[32] The E9, introduced in April 1954, served as the final iteration of the E-unit line, standardizing the 2,400 horsepower rating with paired 12-cylinder 567C engines that included improved cooling systems and round hand-hole covers on the cylinder heads. A total of 100 E9A cab units and 44 E9B boosters were constructed, with the last example completed in December 1963 for the Southern Pacific Railroad. Externally akin to the E8, the E9 distinguished itself with flush-mounted headlight glass secured by gaskets, aiding in a sleeker appearance while maintaining the bulldog nose profile. Phase III and IV updates carried over, featuring expanded grilles and optimized roof designs for superior airflow and reduced thermal stress during extended runs.[12][33] Amid declining demand for dedicated passenger locomotives, several E9 units underwent conversions to the E9AM configuration, particularly by the Chicago, Burlington & Quincy Railroad (later Burlington Northern), where steam generators were removed to lighten the units and accommodate head-end power (HEP) compatibility for commuter operations. These rebuilds by Morrison-Knudsen in the early 1970s preserved the E9's core mechanical layout while adapting it for transitional service roles.[34][12]Operational History
Service with Major Railroads
The EMD E-units found extensive deployment across major U.S. railroads, powering flagship passenger trains and establishing themselves as the backbone of streamlined long-distance service from the late 1930s through the 1960s.[1] The Atchison, Topeka and Santa Fe Railway (AT&SF) was an early adopter, acquiring a pair of E1 units in 1937 specifically to haul its premier Super Chief between Chicago and Los Angeles, where they operated in A-B-A configurations to maintain high speeds over the 2,227-mile route.[5] Similarly, the Baltimore & Ohio Railroad (B&O) introduced six EA cab units and six EB boosters in 1937 for its Capitol Limited, running between New York and Washington, D.C., via Baltimore, marking one of the first all-diesel streamliner operations on an eastern trunk line.[35] The Pennsylvania Railroad (PRR), the largest buyer of E-units, acquired numerous E7s, E8s, and E9s to power its premier trains, including the Broadway Limited on the New York-Chicago route. Union Pacific Railroad (UP) heavily invested in E-units for its "City" fleet of trains, including the City of Los Angeles, deploying E2 sets in 1937 and later amassing 46 E8s and 69 E9s by the 1950s to pull consists through challenging western terrain.[21] The New York Central Railroad (NYC) integrated E-units into its luxury services, with E7s and subsequent models leading the 20th Century Limited on its 960-mile Chicago-New York run, often in matched sets that complemented the train's all-Pullman sleeping car makeup.[1] The Milwaukee Road used E-units on its Hiawatha streamliners between Chicago and the Twin Cities.[1] These railroads customized E-units with iconic paint schemes, such as AT&SF's red-and-silver "Warbonnet" livery on Super Chief power and UP's Armour Yellow for City trains, enhancing the visual appeal of their named services.[1] In operation, E-units typically formed A-B-A or A-A-A lashups delivering up to 6,000 horsepower to haul 10 to 15 lightweight cars at sustained speeds exceeding 100 mph, with onboard generators providing steam heat and electricity to the train.[21] On the California Zephyr, jointly operated by the Chicago, Burlington & Quincy, Denver & Rio Grande Western, and Western Pacific, E8 and E9 units powered sections of the route from the 1950s onward.[36] Following Amtrak's formation in 1971, surplus E-units from these carriers were sold to short lines and commuter operators, such as the Rock Island's acquisition of ex-UP E9s for Chicago-area service into the late 1970s.[1]Decline and Retirement
The decline of intercity passenger rail service in the United States during the 1950s and 1960s severely impacted the operational viability of EMD E-units, which were designed exclusively for high-speed passenger duties.[37] Competition from automobiles and airlines eroded ridership, with non-commuter passenger travel dropping 84 percent between 1945 and 1964, leading to annual industry losses exceeding $700 million by the mid-1950s.[38][37] Railroads responded by reducing passenger train frequencies and favoring more versatile locomotives, such as EMD's FP-series (FP7 and FP9), which were adapted F-unit freight designs equipped with steam generators for mixed passenger-freight operations.[39] As passenger volumes continued to plummet—intercity trains falling from around 300 in the early 1950s to 180 by 1965—E-units became surplus assets, prompting widespread retirements starting in the late 1960s.[37] The formation of Amtrak in 1971 accelerated this process, as the national carrier inherited aging E-units but prioritized newer power like the EMD SDP40F for its routes due to the latter's higher horsepower and improved reliability.[40] Most E-units were withdrawn from mainline service by the mid-1970s, though some remained in limited use on commuter and short-haul routes.[41] The final wave of retirements occurred in the late 1970s and early 1980s, with Amtrak phasing out its E-units in favor of the SDP40F and later F40PH models; the last Amtrak E-unit operations ended around 1980.[40] A few lingered in revenue service on short lines and for switching until as late as 1985, such as Union Pacific's E-units in yard duties.[17] Production of E-units had ceased in 1963 with the E9, leaving no new units to replace the aging fleet.[38] Of the more than 1,200 E-units built between 1937 and 1963, the vast majority—over 90 percent—were ultimately scrapped amid the passenger service collapse, often traded in for modern freight locomotives.[38] Some were rebuilt for non-passenger roles, including regearing for freight and mail trains on carriers like the Bangor & Aroostook and Union Pacific, extending their utility into the 1970s before final disposal.[38]Preservation
Surviving Units
Several EMD E-units have been preserved in static displays and storage, providing insight into the design and historical role of these passenger locomotives. These survivors represent a fraction of the thousands originally produced, with preservation efforts focused on museums and railway historical societies. Many units are cosmetically restored to reflect their original paint schemes but remain non-operational due to the age of their mechanical components.[42] Notable examples span early to late models, often highlighting specific railroads' contributions to passenger service. For instance, the sole surviving E3, Atlantic Coast Line No. 501, is on static display at the North Carolina Transportation Museum in Spencer, North Carolina, where it represents the transition to streamlined diesel power in the late 1930s.[43] Similarly, Chicago, Burlington & Quincy No. 9911A, the last preserved E5, is operational at the Illinois Railway Museum in Union, Illinois, underscoring the streamlined aesthetic of pre-World War II passenger diesels and hauling excursions such as the Nebraska Zephyr.[42][19] Later models like the E8 and E9 form the bulk of survivors, with units from major carriers such as the Southern Railway and Pennsylvania Railroad. Southern Railway No. 6901, an E8, is preserved at the Southeastern Railway Museum in Duluth, Georgia, in its original green and white livery.[42] At the Virginia Museum of Transportation in Roanoke, Virginia, Richmond, Fredericksburg & Potomac No. 1002 (an E8) stands as a static exhibit, cosmetically restored but not running.[42] A recent addition to preservation efforts is Canadian National No. 102, an E9AM rebuilt from an original E8A built in January 1950 as Chicago, Burlington & Quincy No. 9940A. Donated by Canadian National to the Monticello Railway Museum in Illinois in October 2023, it is currently on static display following years of storage.[44] The following table enumerates selected surviving units by model, focusing on those in static display or storage, with locations and conditions noted:| Model | Original Railroad & Number | Current Location | Condition/Notes |
|---|---|---|---|
| E3A | Atlantic Coast Line 501 | North Carolina Transportation Museum, Spencer, NC | Static display, cosmetically restored |
| E5A | Chicago, Burlington & Quincy 9911A | Illinois Railway Museum, Union, IL | Operational, restored for excursion service |
| E6A | Louisville & Nashville 770 | Kentucky Railway Museum, New Haven, KY | Static display |
| E7A | Pennsylvania Railroad 5901 | Railroad Museum of Pennsylvania, Strasburg, PA | Static display, only surviving E7 |
| E8A | Baltimore & Ohio 92 | West Virginia Railroad Museum, Elkins, WV | Under restoration as of 2025 |
| E8A | Southern Railway 6901 | Southeastern Railway Museum, Duluth, GA | Static display, cosmetically restored |
| E8A | Richmond, Fredericksburg & Potomac 1002 | Virginia Museum of Transportation, Roanoke, VA | Static display |
| E9AM | Canadian National 102 (ex-CB&Q 9940A) | Monticello Railway Museum, Monticello, IL | Static display, donated 2023 |