Remove the bottom hinge by removing the screws and leveling leg.
Remove the right door stop and install the left door stop (WR13X10274), packed separately, on the opposite side.
Remove the leveling leg and spacer on the opposite side and install it on the right side.
Install the bottom hinge, with the screws and leveling leg, on the left side.
Stand the wine chiller upright.
Open and close the door, checking the alignment of the door to the cabinet. If necessary, loosen the screws attaching the top hinge to the cabinet, realign the door and retighten the screws.
Place the top cover on the cabinet and reconnect the power connections.
Slide the top cover back in place and replace the two screws. 
Plug in the wine chiller. Reset the controls to the desired setting.
3504502P327 specifications
The GE 3504502P327 is a robust and versatile gas turbine control system designed for industrial applications. As part of General Electric's extensive lineup of advanced turbine technologies, the 3504502P327 is specifically engineered to optimize efficiency, improve reliability, and enhance operational flexibility in gas turbine operations.One of the key features of the GE 3504502P327 is its advanced control architecture, which employs digital technology to provide real-time monitoring and control of turbine operations. This allows for precise adjustments to be made to key parameters, ensuring that the turbine operates within optimal performance ranges. The control system is capable of handling various operating conditions, from load transients to steady-state operation, ensuring a seamless response to changes in demand.
The system utilizes sophisticated algorithms and predictive analytics to enhance performance and uptime. By continuously analyzing operational data, the GE 3504502P327 can identify potential issues before they become critical, allowing for proactive maintenance and reducing the likelihood of unplanned outages. This feature is particularly valuable in today’s competitive energy market, where reliability and efficiency are paramount.
Incorporating state-of-the-art communication protocols, the GE 3504502P327 ensures seamless integration with a variety of supervisory control and data acquisition (SCADA) systems. This interoperability enables operators to visualize and control turbine operations from a centralized location, improving decision-making capabilities and streamlining operational workflows.
The GE 3504502P327 also emphasizes user-friendly interfaces. Its intuitive design allows operators to easily navigate and manage the system, reducing the learning curve and improving overall operational effectiveness. Furthermore, the system supports remote monitoring, enabling operators to oversee turbine performance from anywhere, providing flexibility and convenience in management.
In terms of hardware, the GE 3504502P327 is built with high-quality components that enhance durability and reduce maintenance requirements. The robust design ensures that it can withstand the harsh conditions often encountered in industrial environments, contributing to the long-term reliability of the turbine system.
Overall, the GE 3504502P327 represents a cutting-edge solution for operators seeking to maximize their gas turbine's performance. Its combination of advanced control technology, predictive maintenance capabilities, and user-friendly design makes it a preferred choice for industrial gas turbine applications. This system not only enhances the efficiency and reliability of gas turbines but also supports the evolving demands of the energy sector.