PROTERRA, INC. Download PDF Report
Proterra, Inc. submitted a model BE-35, electric-powered 38 seat (including the driver) 35-foot bus, for a 12 yr/500,000 mile STURAA test. The odometer reading at the time of delivery was 832 miles. Testing started on April 25, 2011 and was completed on March 5, 2012. The Check-In section of the report provides a description of the bus and specifies its major components.
The primary part of the test program is the Structural Durability Test, which also provides the information for the Maintainability and Reliability results. The Structural Durability Test was started on June 13, 2011 and was completed on February 17, 2012.
The interior of the bus is configured with seating for 38 passengers including the driver. Free floor space will accommodate 27 standing passengers resulting in a potential load of 65 persons. At 150 lbs per person, this load results in a measured Gross Vehicle Weight (GVW) of 37,320 lbs. Note: at Gross Vehicle Load (GVL) the weight of the front axle is 1,270 lbs over the front GAWR, 390 lbs over the rear GAWR and 1,660 lbs over the GVWR. The first segment of the Structural Durability Test was performed with the bus loaded to a GVW of 37,320 lbs. The middle segment was performed at a seated load weight of 33,320 lbs and the final segment was performed at a curb weight of 27,680 lbs. Durability driving resulted in unscheduled maintenance and failures that involved a variety of subsystems. A description of failures, and a complete and detailed listing of scheduled and unscheduled maintenance is provided in the Maintainability section of this report.
Effective January 1, 2010 the Federal Transit Administration determined that the total number of simulated passengers used for loading all test vehicles will be based on the full complement of seats and free-floor space available for standing passengers (150 lbs per passenger). The passenger loading used for dynamic testing will not be reduced in order to comply with Gross Axle Weight Ratings (GAWR’s) or the Gross Vehicle Weight Ratings (GVWR’s) declared by the manufacturer. Cases where the loading exceeds the GAWR and/or the GVWR will be noted accordingly. During the testing program, all test vehicles transported or operated over public roadways will be loaded to comply with the GAWR and GVWR specified by the manufacturer.
Accessibility, in general, was adequate, components covered in Section 1.3 (Repair and/or Replacement of Selected Subsystems) along with all other components encountered during testing, were found to be readily accessible and no restrictions were noted.
The Shakedown Test produced a maximum final loaded deflection of 0.165 inches with a permanent set ranging between -0.001 to 0.005 inches under a distributed static load of 23,325 lbs. The Distortion Test was completed with all subsystems, doors and escape mechanisms operating properly. Water leakage was observed throughout the test at the small, lower window on the front door, the window on the rear door and at the driver’s sliding window.
The Static Towing Test was performed using a target load (towing force) of 33,216 lbs. All four front pulls were completed to the full test load with no damage or deformation observed. The Dynamic Towing Test was performed by means of a front-lift tow. The towing interface was accomplished using a hydraulic under-lift wrecker. The bus was towed without incident and no damage resulted from the test. The manufacturer does not recommend towing the bus from the rear, therefore, a rear test was not performed. The Jacking and Hoisting Tests were also performed without incident. The bus was found to be stable on the jack stands, and the minimum jacking clearance observed with a tire deflated was 3.2 inches.
A Fuel Economy Test was run on simulated central business district, arterial, and commuter courses. Refer to Section 6 Fuel Economy Test data.
A series of Interior and Exterior Noise Tests was performed. These data are listed in Section 7.1 and 7.2 respectively.