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Process Data set: Pyraclostrobin ; Phenylhydrazine, hydrazine hydrate, toluene, dimethyl sulfate, methyl chloroformate ; Condensation ; All sizes; NESPS2 (en) en zh

Key Data Set Information
Location CN
Reference year 2019
Name
Pyraclostrobin ; Phenylhydrazine, hydrazine hydrate, toluene, dimethyl sulfate, methyl chloroformate ; Condensation ; 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 该吡唑醚菌酯生产过程包括苯肼、水合肼、甲苯、硫酸二甲酯和氯甲酸甲酯的缩合反应,适用于农业领域杀菌剂的所有规模生产。生产过程中产生的废水和废气排放采用末端治理技术进行处理。
Classification
Class name : Hierarchy level
  • ILCD: Reference Parameters / Materials production / Organic chemicals
General comment on data set the Technical of end-of-pipe management technology for pollution Exhaust gasis/,Its Technical efficiency of end-of-pipe management0,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
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 Exhaust gasis/,Its Technical efficiency of end-of-pipe management0,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
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 2c44f7a7-f318-4237-80eb-0714833fd729
Date of last revision 2024-04-15T22:04:25.122732+08:00
Data set version 00.01.005
Permanent data set URI https://lcadata.tiangong.world/showProcess.xhtml?uuid=2c44f7a7-f318-4237-80eb-0714833fd729&version=01.00.000&stock=TianGong
Owner of data set
Copyright No
License type Free of charge for all users and uses

Inputs

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 0.05599999999999682 kg0.05599999999999682 kg
General comment the Technical of end-of-pipe management technology for pollution volatile organic compoundisRTO,Its Technical efficiency of end-of-pipe management99.9
Product flow
Materials production / Organic chemicals 1000.0 kg1000.0 kg
General comment nan
Elementary flow
Emissions / Emissions to air / Emissions to air, unspecified 1.68 kg1.68 kg
General comment the Technical of end-of-pipe management technology for pollution volatile organic compoundis(Absorption + diversion) + (adsorption + steam desorption)/(adsorption + nitrogen/air desorption),Its Technical efficiency of end-of-pipe management97,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
0.00496 0.00496
General comment the Technical of end-of-pipe management technology for pollution Ammonia NitrogenisChemical precipitation + activated sludge process,Its Technical efficiency of end-of-pipe management84,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
0.00496 0.00496
General comment the Technical of end-of-pipe management technology for pollution Ammonia NitrogenisRedox process + chemical coagulation method + electrolysis + activated sludge process,Its Technical efficiency of end-of-pipe management84,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
0.006200000000000001 0.006200000000000001
General comment the Technical of end-of-pipe management technology for pollution Ammonia NitrogenisBiological filter,Its Technical efficiency of end-of-pipe management80,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
0.00868 0.00868
General comment the Technical of end-of-pipe management technology for pollution Ammonia NitrogenisShaped anaerobic reactor + A/O process,Its Technical efficiency of end-of-pipe management72,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
0.009300000000000001 0.009300000000000001
General comment the Technical of end-of-pipe management technology for pollution Ammonia NitrogenisAnaerobic hydrolysis + biofilm process + redox process,Its Technical efficiency of end-of-pipe management70,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
68000.0 68000.0
General comment the Technical of end-of-pipe management technology for pollution Waste wateris/,Its Technical efficiency of end-of-pipe management0,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual normal operating hours of dust removal equipment (hours) / production system annual production operating hours (hours)
Elementary flow
Emissions / Emissions to water / Emissions to water, unspecified 0.211 kg0.211 kg
General comment the Technical of end-of-pipe management technology for pollution Nitrogen, organic boundisShaped anaerobic reactor + A/O process,Its Technical efficiency of end-of-pipe management90,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
Elementary flow
Emissions / Emissions to water / Emissions to water, unspecified 0.44310000000000005 kg0.44310000000000005 kg
General comment the Technical of end-of-pipe management technology for pollution Nitrogen, organic boundisAnaerobic hydrolysis + biofilm process + redox process,Its Technical efficiency of end-of-pipe management79,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
Elementary flow
Emissions / Emissions to water / Emissions to water, unspecified 0.4642 kg0.4642 kg
General comment the Technical of end-of-pipe management technology for pollution Nitrogen, organic boundisRedox process + chemical coagulation method + electrolysis + activated sludge process,Its Technical efficiency of end-of-pipe management78,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
Elementary flow
Emissions / Emissions to water / Emissions to water, unspecified 0.633 kg0.633 kg
General comment the Technical of end-of-pipe management technology for pollution Nitrogen, organic boundisBiological filter,Its Technical efficiency of end-of-pipe management70,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
Elementary flow
Emissions / Emissions to water / Emissions to water, unspecified 1.0339 kg1.0339 kg
General comment the Technical of end-of-pipe management technology for pollution Nitrogen, organic boundisChemical precipitation + activated sludge process,Its Technical efficiency of end-of-pipe management51,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))
Elementary flow
Emissions / Emissions to water / Emissions to water, unspecified 1.32 kg1.32 kg
General comment the Technical of end-of-pipe management technology for pollution chemical oxygen demandisRedox process + chemical coagulation method + electrolysis + activated sludge process,Its Technical efficiency of end-of-pipe management99
Elementary flow
Emissions / Emissions to water / Emissions to water, unspecified 5.28 kg5.28 kg
General comment the Technical of end-of-pipe management technology for pollution chemical oxygen demandisAnaerobic hydrolysis + biofilm process + redox process,Its Technical efficiency of end-of-pipe management96
Elementary flow
Emissions / Emissions to water / Emissions to water, unspecified 9.24 kg9.24 kg
General comment the Technical of end-of-pipe management technology for pollution chemical oxygen demandisChemical precipitation + activated sludge process,Its Technical efficiency of end-of-pipe management93,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual normal operating hours of wastewater treatment equipment (hours) / annual operating hours of production system (hours)
Elementary flow
Emissions / Emissions to water / Emissions to water, unspecified 14.52 kg14.52 kg
General comment the Technical of end-of-pipe management technology for pollution chemical oxygen demandisShaped anaerobic reactor + A/O process,Its Technical efficiency of end-of-pipe management89,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual normal operating hours of dust removal equipment (hours) / production system annual production operating hours (hours)
Elementary flow
Emissions / Emissions to water / Emissions to water, unspecified 26.400000000000002 kg26.400000000000002 kg
General comment the Technical of end-of-pipe management technology for pollution chemical oxygen demandisBiological filter,Its Technical efficiency of end-of-pipe management80,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual normal operating hours of dust removal equipment (hours) / production system annual production operating hours (hours)
Product flow
Materials production / Inorganic chemicals 33800.0 m333800.0 m3
General comment the Technical of end-of-pipe management technology for pollution Exhaust gasis/,Its Technical efficiency of end-of-pipe management0,The formula for calculating the actual operation rate (k-value) of the end-of-pipe treatment facility is k = annual power consumption of equipment (kWh) / (equipment power (kW) × annual operating hours (hours))