Main Fuel Tank, Fuel Lines | Kohler 20--2800 kW specs

	2		4
	1		3
			TP-5700-6
1.	Generator set skid	3.	Subbase fuel tank
2.	Side view	4.	End view

Figure 6-2 Subbase Fuel Tank

6.2 Main Fuel Tank

All main tanks should be vented so that air and other gases can escape to the atmosphere. The vent must prevent dust, dirt, and moisture from entering the tank. Return lines should be spaced as far away from the pick-up or fuel dip tube as possible. If this is not done, air bubbles could be drawn into the fuel supply line and cause erratic engine operation. Also, fuel returning from the engine will be warmed from passing through the engine. This returning fuel, if hot enough, can cause a reduction in the power of the engine. At least 5% capacity should be allowed in a diesel main tank for expansion of the fuel. If the main tank is to be located overhead, a fuel shutoff solenoid should be used to prevent hydraulic lock or tank overflowing due to excessive pressures caused by static head of fuel.

Codes requiring standby power often specify minimum on-site fuel supply. Such requirements are included in NFPA 70, National Electrical Code; and NFPA 99, Standard for Health Care Facilities. Diesel fuel will deteriorate if stored for more than a year, so the tank should not be oversized to the point that its contents cannot be used in one year of regular exercising. If there are no applicable code requirements, a tank sized for eight hours operation at rated load is suggested. Refer to the specification sheet for fuel consumption data.

Most diesel engines will operate satisfactorily on #2 domestic burner oil as furnished in most parts of the United States. The engine can be supplied from the same tank used for heating oil if both use the same fuel. This is desirable both because of the cost savings and

the added advantage that fuel will be used and replaced regularly, ensuring a fresh fuel supply for the engine. Dual usage of the fuel can be done provided the fuel oil meets the engine manufacturer’s minimum requirements for such properties as wax point, pour point, and cetane number. These factors influence cold weather starting and power output of the engine/generator. Where more than one engine or an engine and another appliance(s) are fueled from the same main tank, each engine should have its own supply line.

6.3 Fuel Lines

Fuel lines should be constructed of Schedule 40 black iron pipe or copper tubing. Galvanized pipe, fittings, or tanks should never be used with diesel fuel systems. The fuel will react chemically with the galvanized coating, causing it to peel and clog fuel filters and damage fuel injection components.

Fuel line sizes should be the minimum required to deliver the volume necessary to the equipment within an acceptable pressure drop—1 psi (0.07 kg/cm2). The use of excessively large piping increases the chance that air will be introduced into the system, and that fuel pumps will be damaged by operating dry when priming the system.

26 Section 6 Fuel Systems

TP-5700 7/93

20--2800 kW specifications

The Kohler 20-2800 kW generator series is renowned for its exceptional performance and reliability, making it a prime choice for various industrial and commercial applications. Designed for continuous and backup power generation, these generators are capable of providing robust energy solutions for facilities that demand high capacity and efficiency.

One of the standout features of the Kohler 20-2800 kW series is its advanced technology integration. Kohler utilizes the latest in digital control systems, ensuring precise monitoring and management of generator functions. The generator's control panel provides real-time data on power output, fuel consumption, and operating conditions, allowing operators to make informed decisions quickly.

In terms of fuel efficiency, the Kohler generators are engineered to minimize operational costs while maximizing performance. The series includes options for both diesel and natural gas, offering flexibility depending on user requirements and availability. The efficient fuel consumption not only supports cost savings but also aligns with environmental standards, reducing emissions during operation.

Durability and reliability are key characteristics of this generator series. Kohler buildings are constructed using high-quality materials and components that withstand harsh environmental conditions. System redundancy features and robust cooling systems ensure that the generators can operate continuously without failure, making them ideal for critical power needs.

The Kohler 20-2800 kW series also includes noise-reducing technology, making them suitable for installations in noise-sensitive environments. With options for acoustic enclosures, these generators comply with local noise regulations while delivering powerful performance.

Safety features are integrated into the generator design, including automatic shutdown systems for over-speed, low oil pressure, and high water temperature, ensuring that the equipment operates safely during emergencies.

The modular design of the Kohler 20-2800 kW allows for easy installation and maintenance. Access points for service and diagnostics are strategically placed for convenience, reducing downtime and improving efficiency in upkeep.

Overall, the Kohler 20-2800 kW generator series stands out as a dependable powerhouse, combining advanced technology, fuel efficiency, durability, and safety features to meet the demands of various industries. Whether for data centers, manufacturing facilities, or large commercial buildings, Kohler's commitment to quality and innovation makes these generators an exemplary choice for reliable power generation.