See previous e-log for phase 1: e-log 134

Phase 2 of the bridge lift mechanism refurbishment was completed. The scope of work for this phase includes replacement of the hydraulic pump (including dump valve) and associated controls hardware, plus some portion of the hydraulic tubing which interfaces with the pump itself. Work was completed by Hyseco under work permit C2024-10-02-2.

The pump was integrated such that existing operator control functionality was maintained, except for one difference: with the new system, the pump does not run all the time when the operator turns the "pump on" switch on. Rather, the pump is turned on during the action of raising/lowering. This was deemed acceptable by operators.

During installation, flow rates were adjusted by Hyseco techs to achieve the desired performance in terms of raising and lowering speed. It has been noted that raised appears to be slightly more smooth and even than previously. Lowering behaves similarly to previous. Furthermore, the new pump is much quieter.

Due to the relative simplicity of this system, a full commissioning report was not created, but the following commissioning tests were performed multiple times between 2024-10-14 and 2024-10-15:

• Turn pump enable on
• Raise bridge to maximum upper limit and confirm it stops automatically
• Lower bridge to rest on centre post support stand
• Dump to fully disengage cylinders

These tests were successfully completed and witnessed by A. Newsome, T. Cave, R. Sykes, J. Zhang, N. Jorgenson, M. Dalla Valle, and the Hyseco techs. Therefore, the system is considered commissioned and operational. Some minor wiring cleanup remains to be done and the system will be tested again multiple times prior to shutdown. A maintenance manual will be requested from the vendor.

The old pump will be kept for ~3 years as a spare.

Update 2024-10-21 [AN]:

For reasons unknown, the system is no longer functioning. There are two issues, which may be related or may not be:

1. Previously during the aforementioned testing the hydraulic pump motor was powered via 120 VAC wall outlet. Now it is being powered from our Carrier (ultimately from the blue power supply box in B2 level). There are large line losses associated with this. We measure approximately 35 VAC drop at the input to the pump when attempting to run the system. Because of this, the 24V supply located in the pump's control box used for enabling the motor and for the relays is dropping out, which turns the pump off immediately and causes chattering. When this 24VDC supply is separately powered from wall outlet, it does not drop out, but still the large line loss voltage issue remains for the pump motor. Based on an estimate of around 100 ft long wiring, the line losses measured suggest an inrush current of approximately 50A. This seems relatively high given the pump's FLA of 10A. This should be investigated further. Perhaps it is related to the second issue listed below, or perhaps the motor should be switched to 240 VAC, or perhaps the wiring should be changed from 14 AWG to 10 AWG to reduce losses.

2. When pressing the "down" button, the system moves up. There is no way to move down aside from dumping. Even when disconnecting the control signals entirely from the valves and manually pushing them in, both valves cause upward motion. Suspect an issue with hydraulic line plumbing or the valves themselves.

Hyseco engineer will be contacted and further troubleshooting will take place this week. This log will be updated accordingly.

Update 2024-10-29 [NJ]

The issue of the system moving up when pressing down is resolved. Hyseco engineer returned to repair. It was determined the the relief valves by nature have some leakage and because the flow control valves were so tight more fluid was travelling through the leakage than the control valve. The relief valve was moved to be before the flow control valve, which seemed to resolve the issue.  Additionally one of the pressure gauges was replaced.