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Process Data set: Steam/hot water/other ; Biomass fuel ; Layer burning furnace ; All sizes; NESPS2 (en) en zh

Key Data Set Information
Location CN
Reference year 2019
Name
Steam/hot water/other ; Biomass fuel ; Layer burning furnace ; All sizes; NESPS2
Use advice for data set This dataset is derived from the Pollution Source Census Report and contains information on pollution emissions and related products. However, it does not include data on energy or chemical consumption, nor does it provide information on waste or co-product generation. When utilizing this dataset, please supplement the missing data based on actual conditions before use
Technical purpose of product or process 所描述的工业过程涉及使用所有规模的生物质燃料层燃炉,生成蒸汽、热水或其他热输出。这个过程代表了使用可再生生物质材料进行能量生成的常见做法。数据集还描述了用于减少燃烧过程中排放的废气、二氧化硫、颗粒物(PM2.5 - PM10)以及氮氧化物(NOx)的各种末端处理管理技术。这些技术包括单筒和多筒旋风机、文丘里管、离心水膜、喷雾塔/水冲击浴方法、静电除尘、布袋过滤器、电布复合除尘器、湿式喷雾,以及与选择性非催化还原(SNCR)或选择性催化还原(SCR)结合的低氮氧化物燃烧策略。这些技术的效率范围从0%到99.7%,表明了它们在污染控制中的有效性。
Classification
Class name : Hierarchy level
  • ILCD: Reference Parameters / Energy carriers and technologies / Renewable fuels
General comment on data set the Technical of end-of-pipe management technology for pollution sulfur dioxideis/,Its Technical efficiency of end-of-pipe management0
Copyright No
Owner of data set
Quantitative reference
Reference flow(s)
Technological representativeness
Technology description including background system the Technical of end-of-pipe management technology for pollution sulfur dioxideis/,Its Technical efficiency of end-of-pipe management0
LCI method and allocation
Type of data set Unit process, single operation
Data sources, treatment and representativeness
Deviation from data treatment and extrapolations principles / explanations None
Data source(s) used for this data set
Completeness
Completeness of product model No statement
Validation
Type of review
Dependent internal review
Reviewer name and institution
Data generator
Data set generator / modeller
Publication and ownership
UUID 4f5070ae-34dc-45f0-8413-586e9419a951
Date of last revision 2024-04-15T22:05:22.740785+08:00
Data set version 00.01.005
Permanent data set URI https://lcadata.tiangong.world/showProcess.xhtml?uuid=4f5070ae-34dc-45f0-8413-586e9419a951&version=01.00.000&stock=TianGong
Owner of data set
Copyright No
License type Free of charge for all users and uses

Inputs

Type of flow Classification Flow Location Mean amount Resulting amount Minimum amount Maximum amount
Product flow
Energy carriers and technologies / Renewable fuels 1000.0 kg1000.0 kg
General comment nan

Outputs

Type of flow Classification Flow Location Mean amount Resulting amount Minimum amount Maximum amount
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.001499999999999986 kg0.001499999999999986 kg
General comment the Technical of end-of-pipe management technology for pollution particles (PM2.5 - PM10)isBag filter,Its Technical efficiency of end-of-pipe management99.7
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.001499999999999986 kg0.001499999999999986 kg
General comment the Technical of end-of-pipe management technology for pollution particles (PM2.5 - PM10)isElectric-bag composite precipitator,Its Technical efficiency of end-of-pipe management99.7
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.015 kg0.015 kg
General comment the Technical of end-of-pipe management technology for pollution particles (PM2.5 - PM10)isElectrostatic precipitation,Its Technical efficiency of end-of-pipe management97
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.065 kg0.065 kg
General comment the Technical of end-of-pipe management technology for pollution particles (PM2.5 - PM10)isCentrifugal water film,Its Technical efficiency of end-of-pipe management87
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.065 kg0.065 kg
General comment the Technical of end-of-pipe management technology for pollution particles (PM2.5 - PM10)isSpray tower/water shock bath,Its Technical efficiency of end-of-pipe management87
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.065 kg0.065 kg
General comment the Technical of end-of-pipe management technology for pollution particles (PM2.5 - PM10)isVenturi,Its Technical efficiency of end-of-pipe management87
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.065 kg0.065 kg
General comment the Technical of end-of-pipe management technology for pollution particles (PM2.5 - PM10)isWet spraying,Its Technical efficiency of end-of-pipe management87
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.15 kg0.15 kg
General comment the Technical of end-of-pipe management technology for pollution particles (PM2.5 - PM10)isMulti-tube cyclone dust removal,Its Technical efficiency of end-of-pipe management70
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.2 kg0.2 kg
General comment the Technical of end-of-pipe management technology for pollution particles (PM2.5 - PM10)isSingle cylinder (multiple cylinders in parallel) cyclone,Its Technical efficiency of end-of-pipe management60
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.2142 kg0.2142 kg
General comment the Technical of end-of-pipe management technology for pollution Nitrogen oxidesisLow NOx combustion + SCR,Its Technical efficiency of end-of-pipe management79
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.306 kg0.306 kg
General comment the Technical of end-of-pipe management technology for pollution Nitrogen oxidesisSCR,Its Technical efficiency of end-of-pipe management70
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.5 kg0.5 kg
General comment the Technical of end-of-pipe management technology for pollution particles (PM2.5 - PM10)is/,Its Technical efficiency of end-of-pipe management0
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.55692 kg0.55692 kg
General comment the Technical of end-of-pipe management technology for pollution Nitrogen oxidesisLow NOx combustion + SNCR,Its Technical efficiency of end-of-pipe management45.4
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.7140000000000001 kg0.7140000000000001 kg
General comment the Technical of end-of-pipe management technology for pollution Nitrogen oxidesisLow NOx combustion,Its Technical efficiency of end-of-pipe management30
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.7956 kg0.7956 kg
General comment the Technical of end-of-pipe management technology for pollution Nitrogen oxidesisSNCR,Its Technical efficiency of end-of-pipe management22
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 1.02 kg1.02 kg
General comment the Technical of end-of-pipe management technology for pollution Nitrogen oxidesis/,Its Technical efficiency of end-of-pipe management0
Product flow
Materials production / Inorganic chemicals 6240.0 m36240.0 m3
General comment the Technical of end-of-pipe management technology for pollution Exhaust gasis/,Its Technical efficiency of end-of-pipe management0
Product flow
Materials production / Inorganic chemicals 6240.0 m36240.0 m3
General comment the Technical of end-of-pipe management technology for pollution Exhaust gasisWith terminal treatment technology,Its Technical efficiency of end-of-pipe management0
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 0.0 kg0.0 kg
General comment Pollutant indicator of sulfur dioxide end-of-pipe treatment technology is /, its efficiency is 0. The original document describes the pollutant category as exhaust gas, the pollutant indicator of sulfur dioxide, here to match it to the LCAflow library in the face of the most compatible flow, pollutant indicator note for sulfur dioxide, production coefficient note for the production coefficient of the sulfur dioxide in the production coefficient of the sulfur dioxide production coefficient table in the form of sulfur content (S%), where sulfur content (S%) expressed as a form, please modify the corresponding emissions according to the notes themselves. The form of sulfur content (S%), where sulfur content (S%) refers to the fuel received base sulfur content, expressed in the form of mass percent. For example, if the sulfur content (S%) of the fuel is 0.1%, then S=0.1. The production coefficient described in the original article is 17 S. Please modify the corresponding emissions according to the notes after calculating by yourself.