The first steam generator has been removed from the containment building and placed in the storage building that was erected to house the steam generators. From here on all that is needed is to take out the other two that are ready for lifting and install the three new steam generators.
* Each of them is 22m tall, with a diameter of 4.5m and 3.5m and they each weigh over 320 Tons.
* Performing the 6 critical welds that join the steam generators to the primary system piping.
Original Press Release:
March 21 -- Eskom Holdings SOC Ltd. issued the following news release:
A major milestone has been achieved towards the completion of the steam generator replacements on Koeberg Power Station’s Unit 1. The first steam generator has been removed from the containment building and placed in the storage building that was erected to house the steam generators. This is a significant accomplishment for the Koeberg team, the contractor and the numerous local and international subcontractors involved in the project. It is a great relief to have reached this milestone as the steam generator replacement project has experienced numerous false starts in previous outages and some unexpected challenges during the execution in the current outage to get to this point in the project.
The logistics of moving the steam generators from their installed position (vertical), out of containment (horizontal at an elevation of 20m) to placing them on a flatbed transporter (horizontal) can only be appreciated if one understands the size and weight of each steam generator. Each of them is 22m tall (that’s a 6 story building), with a diameter of 4.5m (top half) and 3.5m (bottom half) and they each weigh over 320 Tons (a Boeing 747 only weighs between 150 and 220 tons depending on its configuration).
From here on all that is needed, is to take out the other two that are ready for lifting and install the three new steam generators. It sounds simple but it involves the following sequence of activities:
* Rigging the remaining two steam generators out from their positions inside containment.
* Rigging the three new steam generators into their exact position inside the containment building.
* Performing the 6 critical welds (2 per steam generator) that joins the steam generators to the primary system piping.
* Perform radiography on the welds to ensure they meet the code requirements.
* Re-installing all the access platforms that enable people to work all the way up the steam generators (seven stories of permanent structures and temporary scaffolding).
* Reinstall all the other piping connections (steam pipe at the top, feedwater pipe, and all the other smaller sampling and instrumentation connections) once access is available. In all cases performing the required level of quality control.
* Install new thermal insulation over the whole steam generator surface and all the pipes that were worked on (around 120 tons was removed).
* Remove all the temporary equipment that was required to be installed to allow the work to be done safely (scaffolding (85 tons), lead shielding (70 tons), electrical supplies (22 distribution boards and 1 km of cabling), etc).
After which we still need to complete the maintenance activities scheduled for the outage, commission all the systems, refuel the reactor, and return the unit to service. Due to the delays that have already been experienced, the original return to service date for the unit is no longer achievable. Although every effort is being made to reduce the impact, we are currently running a few weeks late. The Generation production plan is being optimised to minimise as far as possible the impact of the projected delay on the system.
Unit 2 which continues to operate safely while Unit 1 is in this extended outage, will undergo a similar long outage to replace its three steam generators starting in the later part of this year.
In accordance with the safety analysis that was performed and submitted to the National Nuclear Regulator in support of the application to extend the plant life by 20 years, the steam generators are the last large component replacements that are needed to ensure Koeberg can operate safely for the requested additional period of operation. Thus, Eskom sees this milestone as an important step on the path to safely extending the life of Koeberg.
Source: Eskom Holdings SOC Ltd.
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