Some standard content:
TC5 27.040
National Standard of the People's Republic of China
CB/T 151352002
1$1351
Gas Turbine
Gas Inrhineg.-..Vorabulary
(1S0)113s5.1S96.M0)
2002-12-31Promulgated
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China
2003-06-01Implementation
Gas Turbine
Gas Turbine
Gas Turbine
Gas Turbine
Gas Turbine
Gas Turbine
Gas Turbine||tt| |Types and chamber types
Structure…
Auxiliary equipment abandoned equipment review
Poetry
Performance appraisal
Types and types
Auxiliary equipment and auxiliary control
General information
Operation and test
Steam engine
Compressor
Compressor
Gas engine
Confirmation of auxiliary equipment and parts
Performance and test
Combustion chamber and heater
Combustion chamber and heater
Combustion air and heater
Combustion vehicle and heater
Combustion chamber heating
Regenerative heat transfer line
Heat exchanger
Regenerative heat exchanger
Regenerative heat transfer
Regenerative heat exchanger
Types and models
Equipment and equipment
--Test meeting
Performance and test
Various types of heat transfer||t t||Auxiliary equipment and accessories
General inquiry
Performance and cost
Combined cycle and heat and power generation
Appendix (material appendix)
Appendix (informative appendix)
Current data sheet C (current normative appendix)
Record efficiency data sheet)
Chinese element introduction
Sugar gas turbine system example
Combine cycle system example
Gas turbine terminology
Nuclear literature
R/T 15135--2002
... 22
GB/T15135—2002
This standard is based on the static revision of G3/T15135-934 Gas Turbine Terminology 3. This standard further modifies the following: 1) 105S:1G Gas Turbine Terminology. The main modification is to add an appendix to the GB15135-1991 Gas Turbine Technical Specification 3 listed at the end of 15011086. It is useful to the gas turbine industry. All the terms are included in the standard as a typical appendix. In order to meet the needs of China's service gas turbine industry, "synonyms" are added to the individual clauses of the standard. This standard is GB: 115135-13316 Gas Turbine Technical Specification 3. The appendix A and Appendix 1 of this standard are informative appendices. The appendixes at the end of this standard are standard specifications. The standard was proposed by China Gas Turbine Industry Association. This standard was submitted to China Gas Turbine Standardization Technical Committee II. The drafting units of this standard are: Nanjing Gas Turbine Research Institute, China University of Petroleum, Xi'an Jiaotong University, Industrial Power Generation Equipment Complete Design Institute, Beijing Institute of Automatic Technology and Construction, and the main drafters are: Ma Bao, Liu Shang, San Shiping, Lin Chengjie, Gan Yier, Chang Liping. The quality version of the standard replaced by this standard is: GBT15135199 replaces GB2930.1710R. GD/T 15135—2002
For ease of use, the definitions of this international standard are summarized in the classification table and the European interpretation of the definition. Examples of gas turbine systems specified in ISO 39-7 are provided, and the appendix provides examples of combined cycle systems. For reference, the definitions appearing in 18023.4 and 1505277 have been included in this standard. In order to achieve uniformity in the definition table, the format of the definitions has been modified. The definitions of gas turbines in S2314 and ISO 57? are not universal. The gas turbine engine is defined as a separate unit of a gas turbine engine in 2.1. 1 Scope Gas turbine B/TT5135-2002 This standard proposes the terms and definitions used in the field of gas turbines. This standard applies to open cycle (using a combustion system), primary cycle, closed cycle and combined cycle gas turbines. 2 Gas turbine types and models Slurbine turbine (single unit) Converts heat into engine resistance The power of a light machine, including compressors, heating equipment such as combustion and traction, can be supplemented by control systems.
, gas energy system examples can be found in the following table, 2.2
gas turbine power plant aslurhineperplant requires a gas turbine to start and produce a small amount of useful power (such as electricity, chain energy or heat energy). Synonyms: gas turbine must be
open-cycle
the working fluid enters the gas turbine with the atmosphere, and then 2.4
Closed-cycle
1. A thermal cycle in which the working fluid is not discharged into the atmosphere, 2.5
Semiclosed-cycle
A thermal cycle in which the working fluid is discharged into the atmosphere, part of the working fluid enters the recirculation, and part of the working fluid is discharged into the atmosphere, 2.6
Internal combustion gas turbineinternal combustion gas turbineHasturbineA gas turbine in which combustion is carried out in the exhaust gas as the working fluid. 2.7
External combustion gas turbineexternal combustion gas turbineA gas turbine in which combustion is carried out in the exhaust gas as the working fluid and heat is transferred to the working fluid. 2. 8
simple cycle
Thermodynamic cycle composed of H compression, combustion and repair process, 2. 3
Reheat cycle\egeneralivecycle
Thermodynamic cycle of waste heat recovery: It includes the heating, combustion, heat recovery and heat recovery of the liquid gas (non-gas gas). The intermediate cooling cycle (intercooling cycle) is a thermal cycle that cools the working fluid before the successive compression. 2.11
Reheat cyclereheat cycle
in the shadow of the working fluid heat cycle
combined cycle camhinedeycle
gas turbine cycle and heat flow or other fluid Lang convex filling not combined thermal indicators. Note 1: the gas turbine also produces steam in the Lang back cycle, Note 2: this cycle is not a good performance ratio of you can not rely on the heat indicators,: the natural light machine can add heat under high temperature, and the heat loss in the school under the critical conditions of Shun, 2. 13
Single-shaft gas turbine Single-slunft gas turbine A gas turbine that is mechanically connected to a turbine through a gas turbine load so that they can rotate effectively. A gas turbine that transmits power to the turbine.
Multi-shaft gas turbine T-haft gas turbine
A gas turbine with two or more turbine shafts that rotate independently on the engine. Note: A multi-shaft gas turbine can be a gas turbine with only multiple cylinders and shafts, and a single compressor-selectable gas turbine.
Stationary gas turbines are used as a fixed power source, and are gas turbines that are inconvenient to move. 2. 15
Mobile gas turbine
uobileguslurbine
Used as a fixed power source, but the power is convenient for gas turbines, 2.17
Freepistoneastorhine
Freepistoneastorhine
A magnetic gas turbine that uses its own power to generate hot high-pressure gas source, 2.18
Extraction gas turbineextracliongasurblne/bledgasturbineA gas turbine that outputs part of the energy from the fuel in the form of a fuel. 3 Gas turbine structure
Jinpingturbfme
A gas turbine that uses the expansion of the fuel to generate mechanical power. This tr): turbine
compressor ramp5nr
Uses the compressor to increase the pressure of the working fluid, and has a temperature rise to heat the gas turbine components. 3.3
combustion egg combustlon chamber
reaction with two substances (heat source), the temperature of the gas turbine components, working fluid enhancer Workingfluidheater heat in which the temperature of the working fluid is indirectly increased, such as the equipment for evenly increasing the working temperature, gas generator pasgeneralar
produces high-temperature high-pressure gas, which is transmitted to the gas turbine component of the gas turbine or the small turbine of the gas turbine. CB/T151352002
let, it is a gas turbine, a working fluid related to the potential sound, a A turbine that powers the engine, controls the flow and basic heat exchangers.
regenerator
A heat exchanger that transfers heat from one fluid to another by heating and cooling the third fluid (medium). Precooler
preeuukr
A heat exchanger or evaporative cooler that reduces the temperature of the fluid before it starts to cool. Intercooler
fnterennlen
A heat exchanger or evaporative cooler that reduces the temperature of the fluid between stages of compression. cueler
cooling suppression
through the water spray heat generation to reduce the working medium temperature adjustment equipment, 4 gas turbine auxiliary equipment and accessoriesbzxz.net
load gearbox (main gearbox) maincar gas turbine output shaft source speed increase gear box. 4. 2
turning device turninggen
after you run the machine, use the power to make the rotor assembly rotate at a low speed to prevent the rotor from bending and unbalanced drive assembly caused by insufficient cooling. The following can be expressed by twisting the rotor to start the static operation plan. The speed state: 4.3
starting equipment starlinyuipmea
for the gas turbine to rotate without torque, it can make it connect to the ignition seat, and then let it run self-sustaining 4. 4
Control Systemeurtrulsysten
The overall system used to control, protect, monitor and report the status of the gas turbine in a line-by-line manner: it includes the automatic control system, the regulator and fuel control system, the transmission display, the power supply, the power supply and other sequenced start, operation, shutdown and abnormal operation of the machine. 4. 5
Regulating system gureningsystem
Control elements provided for controlling relevant parameters (speed, endurance, power, thrust, clearance, etc.): 2.6
Micro-controller fuel tank ... 4.9
Gas flow controller astemperalareonlrullen refers to a control system or air quality control system: a device used to adjust the temperature of the specified section by any component.
Fuel flow control valvefuelftnwcatrolvaleA valve used to control the fuel supply of a gas turbine, and other devices used as combustion sensors to measure the final combustion. 4.11
Protection systemprateetinsylem
A system that protects the gas turbine from any dangerous situation caused by the control system, for example, a fire protection system. 4. 12
Overspeed control device
Overspeed shutoff deviceneriaexlripceve
A control or shutoff component that can immediately trigger an overspeed protection system when the speed reaches the set value. 4.13
fuelshnt-offwalve
when triggered, cuts off the flow of all fuel to the system. 4. 14
overtemperature control deviceovertemperature detectorovertemperature detectora protective device to limit the temperature of the chain to a certain minimum value. 4. 15
overtemperature detector
a device that responds directly to temperature. When the delay is not estimated, the protection system is immediately acted on through the said amplifier or converter:
The flame-ultratripping device takes effect within the predetermined time, and the faster the failure is eliminated, the faster the start-up procedure is interrupted. 4. 17
The flame-ultripping device is in operation. When the combustion system is struck, the re-ignition control system cuts off the fuel entering the combustion system. 4. 18
The lubricating oil rate system is a total system that regulates and supplies the lubricating oil circuit, pumping bearings and other equipment that make the oil run smoothly: column! This system supports, filter fingers, film force control device, amount control device, etc. 4. 19
Fuel processing equipment
Furltrealmenieguipment
T0/T15135—2002
It is used to process and/or trap the components in the fuel (that is: solids, sodium, lead, cleaning agent, etc.) about the section equipment, Note: This and the meeting can be combined with equipment, fuel state dosing system, cleaning system, etc. 4.20
Fuel supply systemFel8pply5ystrm
The system that supplies fuel to the gas engine:
It can be composed of fuel pre-release, fuel system, fuel distributor, follow-up flash and other components. 4.21
Fuel injection pump
Main high pressure pump for supplying gas turbine with gas material: 4.22
Intake ductalrintakeduet
The pipe that brings the working fluid into the gas turbine. There are various ducts such as exhaust duct, exhaust duct, etc.
Exhaustduct
The duct that guides the working fluid from the gas turbine to the exhaust of the gas or heat recovery device or precooler. Note: The air supply is limited to the central type, the dry type, the price or the process type. 4.25
Silencerkilenrer||t t||Forget the device to reduce the noise of the air grab machine,
tairchargingsystcm
air charging system
to connect the positive force value of the cabinet environment,
Note: In the half-term certification of the air energy environment, the air charging system is used to expand the environment and also provide the supercharged air. In the old air energy machine, the air charging system is used to control the size of the environment. The air is controlled outside the control device,
the air is discharged quickly by the non-flowing rest of the reading or other decay devices. Note that in the heat return, the heat transfer card is used to prevent the occurrence of excessive air. 4.28
plastic enelosmres
month to protect personnel and equipment from environmental influences, including fire and noise attenuation. 4.29
Steam/water injection equipmentsteam/aerate injectionequipment is used to inject water or steam into the working fluid to achieve control and improve or increase power design. It is used to control non-objective objects. The slow ratio point is in the combustion zone. It is used to increase power. The injection point can be the fuel tank, combustion chamber or demand plant.
GB/T15135—2002
Dual fuel systemdual Foelsygtelm
Allows gas turbine to fuel two different fuel systems, such as gas or sensitive fuel, 5 gas turbine one boat system
drectianor rotation
direction of rotation
direction of motion of the working fluid, the direction of the torque generated by the turbine, for example, clockwise,
self-sustaining speed
selrsutainlngspeed
the minimum speed at which the turbine rotor can operate normally, at which no external force is required to maintain the normal operation of the gas turbine or to avoid rotation.
cnastant temperature aperatlonconstant temperature operation
the operation method of a gas turbine with the whole temperature kept constant. 5, 4
Constant power operationcunslantpireroperatinnOutput supply constant turbine operation method5.5
Cooling down
Cening down
When the gas turbine is hot, it will cause thermal shock damage to the hot parts and cut off the cooling of the gas turbine operation method: 5. E
Starting characteristic diagramstarlirgchanacleristiesdisagrHmGas complete machine must be purchased with the correct information before purchasing the engine. 5.
Starting sluri
The gas turbine and the equipment driven by it can be prepared for the starting state. Note: For some applications, it is necessary to make additional preparations for the start-up of the gas turbine, such as gas turbine consumption and medical treatment.
Normal start
It is carried out within the maintenance period according to the manufacturer's recommended method to start the gas turbine. 5.9
Quick start Pasl start
·A gas turbine starting method with a shorter start-up time than the normal starting method. This method may have an adverse effect on the maintenance and/or life of the gas turbine.
Black start
Starting the gas turbine with an external power supply, i.e. the power inside the gas turbine: 5.11
igaition
The action of energizing the igniter,
General ignition
The time required for normal combustion in the combustion system. 5. 13
Start time startlagtme
The time required for the gas turbine to get from the initial state to the ready-to-load state. For certain applications, this time varies greatly depending on the input of the driven engine. 5.14
Loading time loadlngtime
The time required for the gas turbine to get from the initial state to the fully loaded state. 5.15
Starting time starts
gas turbine! To the total number of starts defined in 5, 5. 16
Purge
CB/T 15135—2002
Before preparing to start or re-start the gas turbine, the gas turbine is purged and cleared of the natural products of the gas system.
Bypass control is a control method that allows part of the fluid system to pass through the controlled device while the remaining fluid continues to pass through the device. 5.18
Bypass control is a control method that uses a part of the working air flow to be sent to the pre-pregnant device to control the success rate of the closed cycle gas turbine. 5 .19
Pressure control preasulevelcanlnl
A method of controlling the gear ratio in a closed-loop gas turbine. Note: The ratio is proportional to the gear ratio and can be controlled by filling or drawing the gear ratio in the combustion chamber. 5.20
Combustion chamber inspectionimhustorinspectinnInspection of the combustion chamber of a gas turbine (including the transition section; to determine whether the components can operate normally within the specified period, or whether they meet the specified specifications and whether they need to be repaired and/or replaced.5.21
Hot channel inspectionhul 5.22 Inspection of key (components) Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.23 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.24 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.25 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.26 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.27 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.28 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.29 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.2 eulput
The gas turbine is defined as being in "new and clean" condition when operating at the nominal or certified output power. 6.2
New and clean condition (the gas turbine's installed state when all its components comply with the specified specifications) 6.3
New and clean condition (the gas turbine's installed state when all its components comply with the specified specifications) When it is new (normal operation for 100h, the equipment is deemed to have been inspected and calibrated for any obvious deficiencies that have been found in the equipment. 1. If all related parts are in good condition, the equipment is deemed to have been in new and clean condition. 6.4
Standard test powerstandanratednntpmThe nominal guaranteed output power of a gas turbine when it is running under standard conditions (5°C, fuel, intake temperature and relative humidity) and in a clean state: The nominal guaranteed output power of a gas turbine when it is running under standard conditions and in a clean state is as follows: The gas is positive and the power is guaranteed. The whole list is for the generator and the power items are for the generator. Except for the auxiliary loads and the delay in the plan, the formula should be explained in detail by the industry. G.5
AuxiliaryLoads
All loads required by the gas turbine power system, excluding the gas fuel compressor. 6.6
Site rated output powersiteratedauitputThe nominal or guaranteed output power of a gas turbine when it is running under the specified on-site operating conditions and in a clean state (the dispatch rate is reduced by the sequence value after the load is increased). 6. 7
Peak load rated output peakInnlrnteitnutptThe nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state.
The standard actual peak value refers to the nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state. 8
Base load rated output baseloadratedoutputThe nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state. Standard or guaranteed output power.
: Standard customized to this load, safe operation and start times per year. 6.9
Standby load rated full power (emergency variable load rated full power) Gas turbines are under the specified conditions and the rated temperature of the monthly peak load, and are in a new and clean state. Standard or guaranteed output power. Secondary:
: The rated output power of the standard public elevator is 6.10
Half base load rated output power (intermediate rated output power: srmi-bas-lulraledipt84
Constant power operationcunslantpireroperatinnOutput supply constant turbine operation method5.5
Cooling down
Cening down
When the gas turbine is hot, it will cause thermal shock damage to the hot parts and cut off the cooling of the gas turbine operation method: 5. E
Starting characteristic diagramstarlirgchanacleristiesdisagrHmGas complete machine must be purchased with the correct information before purchasing the engine. 5.
Starting sluri
The gas turbine and the equipment driven by it can be prepared for the starting state. Note: For some applications, it is necessary to make additional preparations for the start-up of the gas turbine, such as gas turbine consumption and medical treatment.
Normal start
It is carried out within the maintenance period according to the manufacturer's recommended method to start the gas turbine. 5.9
Quick start Pasl start
·A gas turbine starting method with a shorter start-up time than the normal starting method. This method may have an adverse effect on the maintenance and/or life of the gas turbine.
Black start
Starting the gas turbine with an external power supply, i.e. the power inside the gas turbine: 5.11
igaition
The action of energizing the igniter,
General ignition
The time required for normal combustion in the combustion system. 5. 13
Start time startlagtme
The time required for the gas turbine to get from the initial state to the ready-to-load state. For certain applications, this time varies greatly depending on the input of the driven engine. 5.14
Loading time loadlngtime
The time required for the gas turbine to get from the initial state to the fully loaded state. 5.15
Starting time starts
gas turbine! To the total number of starts defined in 5, 5. 16
Purge
CB/T 15135—2002
Before preparing to start or re-start the gas turbine, the gas turbine is purged and cleared of the natural products of the gas system.
Bypass control is a control method that allows part of the fluid system to pass through the controlled device while the remaining fluid continues to pass through the device. 5.18
Bypass control is a control method that uses a part of the working air flow to be sent to the pre-pregnant device to control the success rate of the closed cycle gas turbine. 5 .19
Pressure control preasulevelcanlnl
A method of controlling the gear ratio in a closed-loop gas turbine. Note: The ratio is proportional to the gear ratio and can be controlled by filling or drawing the gear ratio in the combustion chamber. 5.20
Combustion chamber inspectionimhustorinspectinnInspection of the combustion chamber of a gas turbine (including the transition section; to determine whether the components can operate normally within the specified period, or whether they meet the specified specifications and whether they need to be repaired and/or replaced.5.21
Hot channel inspectionhul 5.22 Inspection of key (components) Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.23 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.24 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.25 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.26 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.27 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.28 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.29 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.2 eulput
The gas turbine is defined as being in "new and clean" condition when operating at the nominal or certified output power. 6.2
New and clean condition (the gas turbine's installed state when all its components comply with the specified specifications) 6.3
New and clean condition (the gas turbine's installed state when all its components comply with the specified specifications) When it is new (normal operation for 100h, the equipment is deemed to have been inspected and calibrated for any obvious deficiencies that have been found in the equipment. 1. If all related parts are in good condition, the equipment is deemed to have been in new and clean condition. 6.4
Standard test powerstandanratednntpmThe nominal guaranteed output power of a gas turbine when it is running under standard conditions (5°C, fuel, intake temperature and relative humidity) and in a clean state: The nominal guaranteed output power of a gas turbine when it is running under standard conditions and in a clean state is as follows: The gas is positive and the power is guaranteed. The whole list is for the generator and the power items are for the generator. Except for the auxiliary loads and the delay in the plan, the formula should be explained in detail by the industry. G.5
AuxiliaryLoads
All loads required by the gas turbine power system, excluding the gas fuel compressor. 6.6
Site rated output powersiteratedauitputThe nominal or guaranteed output power of a gas turbine when it is running under the specified on-site operating conditions and in a clean state (the dispatch rate is reduced by the sequence value after the load is increased). 6. 7
Peak load rated output peakInnlrnteitnutptThe nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state.
The standard actual peak value refers to the nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state. 8
Base load rated output baseloadratedoutputThe nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state. Standard or guaranteed output power.
: Standard customized to this load, safe operation and start times per year. 6.9
Standby load rated full power (emergency variable load rated full power) Gas turbines are under the specified conditions and the rated temperature of the monthly peak load, and are in a new and clean state. Standard or guaranteed output power. Secondary:
: The rated output power of the standard public elevator is 6.10
Half base load rated output power (intermediate rated output power: srmi-bas-lulraledipt84
Constant power operationcunslantpireroperatinnOutput supply constant turbine operation method5.5
Cooling down
Cening down
When the gas turbine is hot, it will cause thermal shock damage to the hot parts and cut off the cooling of the gas turbine operation method: 5. E
Starting characteristic diagramstarlirgchanacleristiesdisagrHmGas complete machine must be purchased with the correct information before purchasing the engine. 5.
Starting sluri
The gas turbine and the equipment driven by it can be prepared for the starting state. Note: For some applications, it is necessary to make additional preparations for the start-up of the gas turbine, such as gas turbine consumption and medical treatment.
Normal start
It is carried out within the maintenance period according to the manufacturer's recommended method to start the gas turbine. 5.9
Quick start Pasl start
·A gas turbine starting method with a shorter start-up time than the normal starting method. This method may have an adverse effect on the maintenance and/or life of the gas turbine.
Black start
Starting the gas turbine with an external power supply, i.e. the power inside the gas turbine: 5.11
igaition
The action of energizing the igniter,
General ignition
The time required for normal combustion in the combustion system. 5. 13
Start time startlagtme
The time required for the gas turbine to get from the initial state to the ready-to-load state. For certain applications, this time varies greatly depending on the input of the driven engine. 5.14
Loading time loadlngtime
The time required for the gas turbine to get from the initial state to the fully loaded state. 5.15
Starting time starts
gas turbine! To the total number of starts defined in 5, 5. 16
Purge
CB/T 15135—2002
Before preparing to start or re-start the gas turbine, the gas turbine is purged and cleared of the natural products of the gas system.
Bypass control is a control method that allows part of the fluid system to pass through the controlled device while the remaining fluid continues to pass through the device. 5.18
Bypass control is a control method that uses a part of the working air flow to be sent to the pre-pregnant device to control the success rate of the closed cycle gas turbine. 5 .19
Pressure control preasulevelcanlnl
A method of controlling the gear ratio in a closed-loop gas turbine. Note: The ratio is proportional to the gear ratio and can be controlled by filling or drawing the gear ratio in the combustion chamber. 5.20
Combustion chamber inspectionimhustorinspectinnInspection of the combustion chamber of a gas turbine (including the transition section; to determine whether the components can operate normally within the specified period, or whether they meet the specified specifications and whether they need to be repaired and/or replaced.5.21
Hot channel inspectionhul 5.22 Inspection of key (components) Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.23 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.24 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.25 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.26 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.27 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.28 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.29 Inspection of all related components of a gas turbine to determine whether the turbine can continue to operate normally within the specified period, or whether it is necessary to repair or replace components to meet the specifications. 5.2 eulput
The gas turbine is defined as being in "new and clean" condition when operating at the nominal or certified output power. 6.2
New and clean condition (the gas turbine's installed state when all its components comply with the specified specifications) 6.3
New and clean condition (the gas turbine's installed state when all its components comply with the specified specifications) When it is new (normal operation for 100h, the equipment is deemed to have been inspected and calibrated for any obvious deficiencies that have been found in the equipment. 1. If all related parts are in good condition, the equipment is deemed to have been in new and clean condition. 6.4
Standard test output standanratednntpm The nominal guaranteed output power of a gas turbine when it is running under the standard conditions of fuel, intake air temperature and relative humidity (5°C, 10°C, 15°C, 20°C, 30°C, 70°C, 80°C, 100°C, 80°C, 70°C, 80°C, 80°C, 80°C, 70°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C 7
Peak load rated output peakInnlrnteitnutptThe nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state.
The standard actual peak value refers to the nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state. 8
Base load rated output baseloadratedoutputThe nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state. Standard or guaranteed output power.
: Standard customized to this load, safe operation and start times per year. 6.9
Standby load rated full power (emergency variable load rated full power) Gas turbines are under the specified conditions and the rated temperature of the monthly peak load, and are in a new and clean state. Standard or guaranteed output power. Secondary:
: The rated output power of the standard public elevator is 6.10
Half base load rated output power (intermediate rated output power: srmi-bas-lulraledipt813
start timestartlagtme
The time required for the gas turbine to get from the zero-start state to the ready-to-load state. For certain applications, this may vary greatly depending on the driven input. 5.14
load timeloadlngtime
The time required for the gas turbine to get from the low-start state to the fully loaded state. 5.15
starting timenunher nf starts
the gas turbine! 5.16
Purge
CB/T 15135—2002
Before starting or re-starting the gas turbine, the gas turbine is purged and cleaned of the gas products.
Bypass control is a control method that allows part of the fluid to pass through the controlled device while the remaining fluid continues to pass through the device. 5.18
Bypass control is a method of controlling the switching success rate of a closed-cycle gas turbine by sending part of the working air flow to the pre-pressure device. 5.19
Pressure control preasulevelcanlnl
A method of controlling the gear ratio used in a closed-cycle gas turbine. Note: The rate is proportional to the business account, and the business can control the plan by adding people or removing workers. 5.20
Combustion chamber inspectionInspection of the combustion chamber of the gas turbine (including the transition section; to determine whether the components can continue to operate normally within the specified period, or whether they need to be repaired and/or replaced to meet the specified specifications.5.21
Hot channel inspectionInspection of the combustion and turbine components of the gas turbine to determine whether these parts can continue to operate normally within the specified period, or whether they meet the specifications and/or need to be replaced.5.22
Key (component) inspectionInspection of all related components of the gas turbine to determine whether the gas turbine can continue to operate normally within the specified period, or whether they need to be repaired and/or replaced to meet the specifications.5.23
Major overhaul and replacement of necessary parts to ensure that the gas turbine can operate to the required standard under specified conditions. CB/T15135-2002. 6 Gas turbine performance and test results Rated output power The rated output power of the gas turbine when it is in a "new and clean" state is the nominal or certified output power when it is running. 6.2 New and clean state (the state of the gas turbine when all the parts that affect the operation of the gas turbine meet the requirements of this specification) 6.3 New and clean state canditik no equipment) when the new (normal operation 100h, change the planned environment> items for the obvious defects found in the south has been checked and calibrated 1 make all the support zero design in good condition, then the equipment is not in a clean and clean state. 6.4
Standard test power standanratednntpm gas turbine under the special conditions of avoiding theft, fuel, intake temperature and relative pressure of the gas point as the standard (death 5, under the condition of ten and clean state of the nominal output power guaranteed: continental emergency policy indication and training, gas positive power, the whole output G.5
AuxiliaryLoads
All loads required by the gas turbine power system, excluding the gas fuel compressor. 6.6
Site rated output power siteratedauitput The rated or guaranteed output power (the rated output power is the value after the load is increased) of the gas turbine when it is in the state of new deduction under the specified on-site operating conditions. 7
Peak load rated output power peakInnlrnteitnutpt The rated output power of the gas turbine under the original conditions and at half peak load, when it is in the new state, the nominal output power guaranteed to be at the rated output power
: The standard actual peak value refers to the rated output power of the gas turbine under the specified conditions and at the rated temperature, and it can reach the rated output power of 20G and start 3 times when it is fully operated. 8
Base load rated output power baseloadratedoutput The rated output power of the gas turbine under the specified conditions and at the rated temperature, and it is in the new state, the nominal output power guaranteed to be at the rated output power
: The standard actual peak value refers to the rated output power of the gas turbine under the specified conditions and at the rated temperature, and it can reach the rated output power and start 3 times when it is fully operated. 6.9
Standby rated full power output (emergency variable load rated full power output) Gas turbines are under the specified conditions and the rated temperature of the monthly peak load, and are in a new and clean state. The rated output of the main structure or the guaranteed output is:
: The rated output of the standard public elevator is 6.10
Half the basic load rated output power (intermediate rated output power: srmi-bas-lulraledipt813
start timestartlagtme
The time required for the gas turbine to get from the zero-start state to the ready-to-load state. For certain applications, this may vary greatly depending on the driven input. 5.14
load timeloadlngtime
The time required for the gas turbine to get from the low-start state to the fully loaded state. 5.15
starting timenunher nf starts
the gas turbine! 5.16
Purge
CB/T 15135—2002
Before starting or re-starting the gas turbine, the gas turbine is purged and cleaned of the gas products.
Bypass control is a control method that allows part of the fluid to pass through the controlled device while the remaining fluid continues to pass through the device. 5.18
Bypass control is a method of controlling the switching success rate of a closed-cycle gas turbine by sending part of the working air flow to the pre-pressure device. 5.19
Pressure control preasulevelcanlnl
A method of controlling the gear ratio used in a closed-cycle gas turbine. Note: The rate is proportional to the business account, and the business can control the plan by adding people or removing workers. 5.20
Combustion chamber inspectionInspection of the combustion chamber of the gas turbine (including the transition section; to determine whether the components can continue to operate normally within the specified period, or whether they need to be repaired and/or replaced to meet the specified specifications.5.21
Hot channel inspectionInspection of the combustion and turbine components of the gas turbine to determine whether these parts can continue to operate normally within the specified period, or whether they meet the specifications and/or need to be replaced.5.22
Key (component) inspectionInspection of all related components of the gas turbine to determine whether the gas turbine can continue to operate normally within the specified period, or whether they need to be repaired and/or replaced to meet the specifications.5.23
Major overhaul and replacement of necessary parts to ensure that the gas turbine can operate to the required standard under specified conditions. CB/T15135-2002. 6 Gas turbine performance and test results Rated output power The rated output power of the gas turbine when it is in a "new and clean" state is the nominal or certified output power when it is running. 6.2 New and clean state (the state of the gas turbine when all the parts that affect the operation of the gas turbine meet the requirements of this specification) 6.3 New and clean state canditik no equipment) when the new (normal operation 100h, change the planned environment> items for the obvious defects found in the south has been checked and calibrated 1 make all the support zero design in good condition, then the equipment is not in a clean and clean state. 6.4
Standard test power standanratednntpm gas turbine under the special conditions of avoiding theft, fuel, intake temperature and relative pressure of the gas point as the standard (death 5, under the condition of ten and clean state of the nominal output power guaranteed: continental emergency policy indication and training, gas positive power, the whole output G.5
AuxiliaryLoads
All loads required by the gas turbine power system, excluding the gas fuel compressor. 6.6
Site rated output power siteratedauitput The rated or guaranteed output power (the rated value after the load is increased) of the gas turbine when it is in the state of new deduction under the specified on-site operating conditions. 7
Peak load rated output power peakInnlrnteitnutpt The rated output power of the gas turbine under the original conditions and under the rated degree of half peak load, when it is in the new state, the nominal output power guaranteed to be
: The standard actual peak value refers to the rated output power of the gas turbine under the specified conditions and under the rated temperature, and it can reach the rated output power of 20G and start 3 times when it is fully operated. 8
Base load rated output power baseloadratedoutput The rated output power of the gas turbine under the specified conditions and under the rated temperature, and it is in the new state, the nominal output power guaranteed to be
: The standard is customized to the standard, and it can reach the rated output power and start times per year. 6.9
Standby rated full power output (emergency variable load rated full power output) Gas turbines are under the specified conditions and the rated temperature of the monthly peak load, and are in a new and clean state. The rated output of the main structure or material guarantee is:
: The rated output of the standard public elevator is 6.10
Half the basic load rated output power (intermediate rated output power: srmi-bas-lulraledipt84
Standard test powerstandanratednntpmThe nominal guaranteed output power of a gas turbine when it is running under the standard conditions of fuel, intake temperature and relative humidity (5°C, 10°C, 15°C, 20°C, 30°C, 70°C, 80°C, 100°C, 80°C, 70°C, 80°C, 80°C, 70°C, 80°C, 80°C, 80°C, 70°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 7
Peak load rated output peakInnlrnteitnutptThe nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state.
The standard actual peak value refers to the nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state. 8
Base load rated output baseloadratedoutputThe nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state. Standard or guaranteed output power.
: Standard customized to this load, safe operation and start times per year. 6.9
Standby load rated full power (emergency variable load rated full power) Gas turbines are under the specified conditions and the rated temperature of the monthly peak load, and are in a new and clean state. Standard or guaranteed output power. Secondary:
: The rated output power of the standard public elevator is 6.10
Half base load rated output power (intermediate rated output power: srmi-bas-lulraledipt84
Standard test powerstandanratednntpmThe nominal guaranteed output power of a gas turbine when it is running under the standard conditions of fuel, intake temperature and relative humidity (5°C, 10°C, 15°C, 20°C, 30°C, 70°C, 80°C, 100°C, 80°C, 70°C, 80°C, 80°C, 70°C, 80°C, 80°C, 80°C, 70°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 80°C, 7
Peak load rated output peakInnlrnteitnutptThe nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state.
The standard actual peak value refers to the nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state. 8
Base load rated output baseloadratedoutputThe nominal output of a gas turbine under the original conditions and rated speed of half peak load, when in a new and clean state. Standard or guaranteed output power.
: Standard customized to this load, safe operation and start times per year. 6.9
Standby load rated full power (emergency variable load rated full power) Gas turbines are under the specified conditions and the rated temperature of the monthly peak load, and are in a new and clean state. Standard or guaranteed output power. Secondary:
: The rated output power of the standard public elevator is 6.10
Half base load rated output power (intermediate rated output power: srmi-bas-lulraledipt8
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