Introductory technical guidance for mechanical and electrical engineers interested in control systems for steam and hot water boilers. Here is what is discussed: 1. TYPES OF CONTROLS 2. GENERAL REQUIREMENTS 3. PANEL INSTRUMENTS 4. LOCAL DEVICES AND INSTRUMENTATION 5. RECOMMENDED BOILER INSTRUMENTATION 6. CONTROL LOOPS.
Introductory technical guidance for mechanical engineers and construction managers interested in boiler controls. Here is what is discussed: 1. GENERAL 2. CONTROL LOOP TYPES 3 AIR TO FUEL-RATIO 4. BOILER DRUM LEVEL 5. MULTIPLE BOILERS 6. REFERENCES.
This book is for anyone who works with boilers: utilities managers, power plant managers, control systems engineers, maintenance technicians or operators. The information deals primarily with water tube boilers with Induced Draft (ID) and Forced Draft (FD) fan(s) or boilers containing only FD fans. It can also apply to any fuel-fired steam generator. Other books on boiler control have been published; however, they do not cover engineering details on control systems and the setup of the various control functions. Boiler Control Systems Engineering provides specific examples of boiler control including configuration and tuning, valve sizing, and transmitter specifications. This expanded and updated second edition includes drum level compensation equations, additional P&ID drawings and examples of permissive startup and tripping logic for gas, oil, and coal fired boilers. It also covers different control schemes for furnace draft control. NFPA 85 Code 2007 control system requirements are included, with illustrated examples of coal fired boilers, as well as information on the latest ISA-77 series of standards.
Introductory technical guidance for mechanical and electrical engineers interested in control systems for steam and hot water boilers. Here is what is discussed:1. TYPES OF CONTROLS2. GENERAL REQUIREMENTS3. PANEL INSTRUMENTS4. LOCAL DEVICES AND INSTRUMENTATION5. RECOMMENDED BOILER INSTRUMENTATION6. CONTROL LOOPS.
Introductory technical guidance for mechanical engineers and construction managers interested in boiler controls. Here is what is discussed:1. GENERAL2. CONTROL LOOP TYPES3 AIR TO FUEL-RATIO4. BOILER DRUM LEVEL5. MULTIPLE BOILERS6. REFERENCES.
Boiler Control Systems provides definitive information on the design, implementation, maintenance, & operation of large-scale control systems for boilers. It forms a bridge between the disciplines of the electronics engineer & the plant engineer to enable each to understand the issues involved. The book deals first with plant engineering issues, then moves on to consider control systems themselves, & finally a wide range of practical considerations such as commercial aspects, measurements & site considerations. Boiler Control Systems will be of immense use to boiler designers, systems engineers in process control, plant owners, operators, & maintenance staff.
This course provides an introduction to criteria for the design of heating plant instrumentation. A heating plant may contain one or more boilers. The plant may be an individual plant serving a single building or a compact group of buildings, or a central plant serving many buildings and facilities through an extensive distribution system. The heating plant instrumentation discussed is, in general, for a saturated steam power boiler heating plant. The information provided may also be applicable to Low, Medium, and High Temperature Hot Water heating plants, but does not cover all of the requirements of those plants, such as control of water pressurization and circulation systems. The information may also be applicable to superheated-steam power plants, but does not cover the all of the requirements of those plants, such as steam extraction, reheating, steam turbine control, and cooling water controls.
Introductory technical guidance for mechanical and electrical engineers interested in boiler control systems. Here is what is discussed: 1. INTRODUCTION 2. PANEL INSTRUMENTS 3. LOCAL DEVICES AND INSTRUMENTATION 4. RECOMMENDED BOILER INSTRUMENTATION 5. REFERENCES.
Introductory technical guidance for mechanical and electrical engineers interested in boiler control systems. Here is what is discussed: 1. INTRODUCTION 2. PANEL INSTRUMENTS 3. LOCAL DEVICES AND INSTRUMENTATION 4. RECOMMENDED BOILER INSTRUMENTATION 5. REFERENCES.
Introductory technical guidance for mechanical engineers and other professional engineers and construction managers interested in boiler control systems. Here is what is discussed: 1. INTRODUCTION, 2. PANEL INSTRUMENTS, 3. LOCAL DEVICES AND INSTRUMENTATION 4. RECOMMENDED BOILER INSTRUMENTATION, 5. REFERENCES.