Standby Generator Sets

Table of Contents

SECTION

PAGE

SAFETY RULES

1-1

INTRODUCTION

1-3

Read this Manual Thoroughly

1-3

Operation and Maintenance

1-3

How to Obtain Service

1-3

IDENTIFICATION RECORD

2-1

Data Label

2-1

EQUIPMENT DESCRIPTION

3-1

Equipment Description

3-1

Engine Oil Recommendations

3-1

Coolant Recommendations

3-1

ENGINE PROTECTIVE DEVICES

4-1

High Coolant Temperature Switch

4-1

Low Coolant Level Sensor

4-1

Low Oil Pressure Switch

4-1

Overcrank Shutdown

4-1

Overspeed Shutdown

4-1

RPM Sensor Loss Shutdown

4-1

DC Fuse

4-1

FUEL SYSTEMS

5-1

Fuel Requirements

5-1

Natural Gas Fuel System

5-1

Propane Vapor Withdrawal Fuel System

5-1

LP Fuel System

5-1

SPECIFICATIONS

6-1

Generator

6-1

Engine

6-1

Cooling System

6-1

Fuel System

6-1

Electrical System

6-1

Cold Weather Kit

6-2

Reconfiguring the Fuel System

6-2

GENERAL INFORMATION

7-1

Generator AC Lead Connections

7-1

Four-lead, Single-phase Stator

7-1

Alternator Power Winding Connections

7-1

3-phase Alternators

7-1

INSTALLATION

8-1

Installation

8-1

Preparation Before Start-up

8-1

Transfer Switch

8-1

Fuel System

8-1

Generator Set Lubrication

8-1

Prior to Initial Start-up

8-1

Engine Coolant

8-1

Belt Tension

8-1

Electrical System

8-1

Initial Inspection for QT Genset Start-up

8-1

Start-up Checklist

8-2

Preparation for Start-up

8-2

Start-up Inspection

8-2

OPERATION

9-1

Generator Control and Operation

9-1

Operating Unit with Manual Transfer Switch

9-1

Engine Start-up and Transfer

9-1

Retransfer and Shutdown

9-1

Operating Unit with Automatic Transfer Switch

9-1

MAINTENANCE

10-1

Maintenance Performed.....................................................by Authorized

10-1

Service Facilities

Every Three Months

10-1

Once Every Six Months

10-1

Once Annually

10-1

First 100 Operating Hours

10-1

Every 500 Operating Hours

10-1

Every 800 Operating Hours

10-1

Exhaust Manifold Procedure

10-1

Intake Manifold Procedure

10-1

Cylinder Head Procedure

10-1

Cooling System

10-2

Overload Protection....................................................for Engine DC

10-2

Electrical System

Checking Fluid Levels

10-2

Check Engine Oil

10-2

Battery Fluid

10-2

Engine Coolant

10-2

Maintenance Owner/Operator Can Perform

10-3

Check Engine Oil Level

10-3

Check Battery

10-3

Exercise System

10-3

Inspect Cooling System

10-3

Check Engine Coolant Level

10-3

Perform Visual Inspection

10-3

Inspect Exhaust System

10-3

Check Fan Belt

10-3

Inspect Engine Governor

10-3

Changing Engine Oil

10-3

Changing the Engine Air Cleaner

10-3

Spark Plugs

10-4

Coolant Change

10-4

Miscellaneous Maintenance

10-4

Cleaning the Generator

10-4

Battery

10-4

Battery Maintenance

10-4

Battery Replacement

10-5

SERVICE SCHEDULE

11-1

TROUBLESHOOTING

12-1

Troubleshooting Guide

12-1

NOTES

 

EXPLODED VIEWS & PARTS LISTS

 

WIRING DIAGRAMS & SCHEMATICS

 

WARRANTY

 

09/05

0 .Rev Content004

Page 2
Image 2
Siemens SG035 owner manual Standby Generator Sets Table of Contents

SG035 specifications

The Siemens SG035 is a versatile and innovative solution designed for the modern industrial landscape. As a significant model within Siemens’ range of power generation equipment, the SG035 delivers reliable performance, advanced technology, and a commitment to sustainability. This article explores the main features, technologies, and characteristics that set the Siemens SG035 apart from its competitors.

One of the primary features of the Siemens SG035 is its impressive power output. It is engineered to provide a substantial amount of energy, making it ideal for a wide range of applications, from industrial to commercial settings. The unit is equipped with a state-of-the-art generator that ensures maximum efficiency and minimal energy losses.

The SG035 incorporates cutting-edge technology that enhances its operational capabilities. For instance, it utilizes advanced control systems that allow for real-time monitoring and adjustments, ensuring optimal performance under varying load conditions. These control systems are designed with user-friendly interfaces, making it easier for operators to manage the equipment.

In terms of design, the Siemens SG035 boasts a compact and modular architecture. This allows for easy integration into existing energy systems, saving valuable space on facilities. Furthermore, its modular design facilitates rapid installation and maintenance, reducing downtime and operational costs.

Another significant characteristic of the SG035 is its focus on sustainability. It has been engineered to meet stringent environmental standards, including low emissions and high energy efficiency. The use of environmentally friendly materials in its construction further underscores Siemens’ commitment to sustainable practices.

The Siemens SG035 also prioritizes safety and reliability. It is built with robust components designed to withstand harsh operating conditions. Additionally, extensive safety features are integrated into the system to protect both the equipment and the personnel operating it.

Overall, the Siemens SG035 stands out in the field of power generation equipment due to its powerful performance, advanced technologies, compact design, and commitment to environmental sustainability. As industries continue to evolve and require more efficient energy solutions, the Siemens SG035 positions itself as a reliable choice for meeting contemporary energy demands while prioritizing safety, efficiency, and the environment. This makes it a significant player in the move towards a more sustainable future in energy production.