Gas Fireplace Installation

1.Fireplace should be fully assembled. See Assembling Fireplace in fireplace owner’s manual.

2.Place mantel base close to installation location. See fire- place owner’s manual for installation clearances. Leave enough room to insert fireplace from back of mantel.

3.Install gas line. See Connecting to Gas Supply in fireplace owner’s manual. Remember to leave access to the gas shutoff valve somewhere on the base or where it is ac- cessible to the user.

4.Check for leaks. See Checking Gas Connections in fire- place owner’s manual.

5.Position fireplace inside mantel (see Figure 4). Care- fully position gas lines. IMPORTANT: Use caution when positioning fireplace on base. Base may scratch easily. Make sure fireplace is in proper position within mantel opening before continuing with installation.

6.Fireplace with louver door: Lower bottom louver door. Use two screws provided in hardware package and attach fireplace to wooden base. Close louver door.

Fireplace with fixed louver: Before installing logs or burner assembly (see owner’s manual) remove screws securing floor to assembly. Lift floor for access to bot- tom of fireplace. Use two screws provided in fireplace hardware package and attach fireplace base to wooden base. Reinstall floor with screws removed previously.

7.Carefully push mantel and base into position against wall.

Electric Fireplace Installation

This mantel can be used with DESA Heating, LLC electric fireplaces. Electric fireplaces install from the front of mantel. To install electric fireplace see fireplace instruction manual.

Figure 4 - Installing Gas Fireplace

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Desa W32TO, W32TU installation instructions Gas Fireplace Installation

W32TO, W32TU specifications

Desa W32TO and W32TU are prominent technologies in the modern landscape of software development and deployment, particularly in the realm of web services and cloud applications. Their architectural designs focus on scalability, flexibility, and ease of integration, making them valuable for enterprises looking to enhance their operations through digital transformation.

One of the core features of Desa W32TO is its robust service-oriented architecture (SOA), allowing developers to create modular applications that can easily communicate with one another. This modularity enables teams to work on different components simultaneously, promoting parallel development and reducing the time required to bring products to market. Furthermore, W32TO incorporates microservices, which divide applications into small, independent services that can be deployed, updated, and scaled independently. This granularity helps in maintaining high availability and reducing downtime during updates.

Similarly, Desa W32TU introduces cutting-edge technologies such as containerization and orchestration. Utilizing platforms like Docker and Kubernetes, W32TU allows developers to package applications and their dependencies into containers, ensuring consistency across various environments. This not only simplifies the deployment process but also facilitates easier scaling, as containers can be effortlessly replicated as demand increases.

Another notable characteristic of both W32TO and W32TU is their support for APIs, which are crucial for enabling communication between different software applications. These APIs allow for seamless integration with third-party services, fostering an ecosystem where businesses can leverage existing tools and platforms to enhance their offerings. The RESTful API design philosophy is particularly emphasized, promoting stateless interactions and improving the performance of web services.

Security is a fundamental aspect of both technologies, with built-in features to ensure data protection and compliance with industry standards. Encryption, authentication, and authorization protocols are implemented to safeguard sensitive information and prevent unauthorized access, a critical requirement in today’s data-driven age.

In conclusion, Desa W32TO and W32TU represent the forefront of technological innovation in software development. Their emphasis on modular architecture, containerization, API integration, and security makes them appealing choices for organizations striving for agility and efficiency in their operations. As digital landscapes continue to evolve, these technologies will undoubtedly play a significant role in shaping the future of enterprise software solutions.