outdoorkitchen essentials

Free Standing Patio Heaters

It’s great to have a portable heat source that you can move seasonally or when your outdoor landscaping changes. The DCS Free Standing Patio Heater easily goes where it will be most useful. With 40,000 Btu’s, it provides up to a 20-foot circle of heat, and features an adjustable heat control knob and a safety shut-off. Available for natural gas or liquid propane fuel types and features a weighted base, access door and two wheels for easy moving.

ADDITIONAL FEATURES:

• Durable, weatherproof stainless steel construction

• Available for natural gas or liquid propane fuel types

• Electronic spark ignition

PHFS-P4Free Standing Patio Heater (as shown)

Built-in Patio Heaters

DCS-DRH-48NBuilt-in Patio Heater (as shown)

An outdoor heater in your favorite restaurant always makes a dinner more enjoyable. You can have the same warm experience in your outdoor kitchen with the DCS Built-in Patio Heater. DCS has a long history of producing safe, efficient and high-performance outdoor heaters for restaurants and hotels, and applied this knowledge to produce heaters for residential outdoor settings. The attractive wall-mounted heater features 56,000 Btu’s of comfortable heat up to 15 feet away that extends the season for dining outdoors. Our Built-in Patio Heaters feature durable, weatherproof stainless steel construction and are available for natural gas only.

ADDITIONAL FEATURES:

Mounts easily to eaves

Includes extension mounting kit

Available for natural gas only

Remote control on-off accessory available

(DRH-RMT)

50

Summer 2008

Summer 2008

50

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DCS PHFS-P4 manual Outdoorkitchen essentials, Free Standing Patio Heaters, Built-in Patio Heaters, Additional Features

PHFS-P4 specifications

The DCS PHFS-P4 is a cutting-edge hybrid power and propulsion system designed specifically for maritime applications. Adopting advanced technologies, this system is engineered to enhance the efficiency, flexibility, and sustainability of naval vessels.

At its core, the DCS PHFS-P4 incorporates a combination of traditional diesel engines and electric propulsion. This hybrid configuration allows for an optimized performance under varying operational conditions. The use of diesel generators ensures reliable and robust performance, particularly during high-demand scenarios, while electric propulsion offers quiet operation and reduced fuel consumption during low-speed maneuvering.

One of the standout features of the DCS PHFS-P4 is its ability to seamlessly switch between the two power modes, allowing vessels to maximize efficiency based on mission requirements. This flexibility not only enhances operational versatility but also contributes to lowering the overall carbon footprint of maritime operations.

The system employs advanced energy management technologies that monitor and control the power output from both the diesel and electric components. This smart energy management system ensures that the most efficient energy source is utilized at any point in time, thereby improving fuel efficiency and reducing operational costs.

Another key characteristic of the DCS PHFS-P4 is its compact design, which facilitates ease of installation on various ship types, from large naval combatants to smaller support vessels. The modular nature of the system also means that it can be scaled according to specific vessel requirements, making it a flexible solution for shipbuilders and operators alike.

In terms of maintenance, the DCS PHFS-P4 emphasizes ease of access and reliability. The configuration minimizes the need for extensive downtime, allowing for more operational availability. Additionally, predictive maintenance features help identify potential issues before they become critical, enhancing the overall reliability of the system.

Safety is a primary consideration in the design of the DCS PHFS-P4. The hybrid system includes robust safety protocols and redundancies that ensure operations can continue smoothly even in the event of a component failure.

Overall, the DCS PHFS-P4 represents a significant advancement in naval power and propulsion technology, combining efficiency, flexibility, and environmentally friendly practices to meet the challenges of modern maritime operations. It is poised to play a critical role in the future of naval engineering and operations.