CompetitiveTechnologiesforCO2

Reduction

in

Ethylene

Plants乙烯裝置具有競爭力的CO2減排技術(shù)Information

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Technology和/或其附屬公司的保密和/或?qū)Ｓ行畔ⅰＫ写祟愋畔⑹苣?、您的雇主?或其關(guān)聯(lián)公司以及Lummus

Technology或其關(guān)聯(lián)公司之間的相關(guān)協(xié)議保護(hù)，包括保密和限制使用協(xié)議。此處的信息只能根據(jù)這些協(xié)議使用，未經(jīng)Lummus

Technology許可，不得向未授權(quán)方披露廣東惠州，

Huizhou,Guangdong,

PRC.2025年11月，

November2025LUMMUSTECH

N

O

LOGY?Developstechnologysolutionsthat

make

modern

lifepossibleand

focusona

moresustainable,

low

carbonfuture開發(fā)技術(shù)解決方案使生活現(xiàn)代化，

聚焦更加可持續(xù)發(fā)展的低碳未來

?Oneofthe

largeststand-alonetechnology

licensingorganizations是最大的獨立技術(shù)許可組織之一?Offering

includesprocesstechnologiesincleanfuels,

renewables,

petrochemicals,

polymers,gas

processingandsupplylifecycleservices,catalysts,

proprietaryequipmentanddigitalization可提供清潔燃料、可再生、石化、聚合物、氣體處理等工藝技術(shù)，并提供全生命周期的服務(wù)、催化劑、專有設(shè)備和數(shù)字化?

Acquiredin2020

by

leadingprivateequityfirms,

The

Chatterjee

Groupand

Rh?ne

Capital2020年被領(lǐng)先的私人股本公司查特吉集團(tuán)和羅訥資本收購Technologies技術(shù)160+LicensedUnits

許可的裝置2,500+Patents專利4,100+Yearsof

IndustryLeadership業(yè)界領(lǐng)導(dǎo)地位的時間110+ASnapshotofLummusTechnology魯瑪斯技術(shù)公司概覽ByTheNumbers從成就看LUMMUSTE

CH

N

O

LOGY1?Ethyleneplantsarethecore

unit

in

most

petrochemicalcomplexes乙烯裝置是大多數(shù)石化一體化項目的核心單元

In2024theglobalethylenecapacityis233.8millionmetrictons.2024年乙烯全球產(chǎn)能約為2.338億噸

theestimatedglobalethylenecapacitybyendof2025is246.8million

metrictons.預(yù)計至2025年底，這一數(shù)據(jù)將增長到2.468億噸*DatacomefromSCI99.com數(shù)據(jù)來自卓創(chuàng)資訊?Sinceethyleneproductionisaccomplishedbythermalcracking

ofvariousfeeds

energy

consumption

is

high

由于乙烯生產(chǎn)是通過各種原料的熱裂解來完成，具有能耗高的特點

CO2emissionsarethereforeamongstthelargestinthepetrochemicalindustry因此產(chǎn)生的二氧化碳是石化行業(yè)中最大的二氧化碳排放量之一

250+milliontonsofCO2eq

annualemissions(*)每年二氧化碳排放當(dāng)量超2.5億噸

（*）

Thirdlargestemitter(afterNH3

&CH3OH)

inthepetrochemical

industry是石化行業(yè)中的第三大排放源(僅次于合成氨和甲醇)?TechnologytolowertheCO2

productioniscurrentlyavailable

and

technologyto

advanceto

a

netzero

position

is

underdevelopment

目前已有技術(shù)可應(yīng)用于降低二氧化碳的排放，

且二氧化碳零排放技術(shù)正在開發(fā)中?DifferentroutesareemergingforlowCarbon

Intensity

(CI)

Ethylene各種低碳強(qiáng)度(CI)的乙烯生產(chǎn)路徑正在涌現(xiàn)?Wewillfocusontwodemonstratedtechnologiesandone

readyforcommercializationtechnologythat

when

integrated

with

the

ethylene

plantcanreduceCO2

by

morethan

50%我們將專注于兩項示范技術(shù)和一項商業(yè)化技術(shù)，與乙烯裝置整合，可以減少50%以上的二氧化碳?Useofmetathesischemistryfortheproductionofpropylene烯烴轉(zhuǎn)化在丙烯生產(chǎn)中的應(yīng)用?Useofisomerization&metathesischemistryforthe

productionof

butene1&

hexene-1

comonomers

異構(gòu)化和歧化反應(yīng)在生產(chǎn)1-丁烯和2-丁烯共聚單體中的應(yīng)用?UtilizationofOxidativeCouplingofMethane

(OCM)

in

the

Ethylene

Plant

甲烷氧化耦合

(OCM)在乙烯裝置中的應(yīng)用InnovationApplied.

PerformanceDelivred.

Ethylene

Industry-

Responsibleforasignificantshare乙烯產(chǎn)業(yè)擁有可觀的碳排放占比LUMMUSTE

CH

N

O

LOGY(*)

NexantECA2022?Ethyleneisproducedbythermalcrackingof

hydrocarbons

mixedwith

dilutionsteam

at

hightemperatures(750-900oC)

in

fired

heaters

at

lowpressuresintubularreactors乙烯是在管式反應(yīng)器中，在低壓高溫(750-900℃)下，通過混合稀釋蒸汽的烴的裂解進(jìn)行生產(chǎn)的?Reactionis

highlyendothermic(Consumes

heat)

反應(yīng)過程高度吸熱(消耗熱量)?Specificenergy(energyperunitweightofethylene)increasesfromethanetogasoil

從乙烷到柴油，比能(每單位乙烯的能量消耗)隨之增加?Ethyleneyieldperunitweightoffeeddecreasesfromethanetogasoil

從乙烷到柴油，每單位重量原料的乙烯產(chǎn)率隨之降低?Allenergysuppliedinthefiredheaterisnot

usedfor

reactionthoughthermalefficiency

>95%.

Excess

energy

suppliedabovethe

reaction

duty

isusedtopreheatfeedandtogenerateSHPsteam,which

isusedinthe

recovery

section盡管熱效率>95%，但裂解爐中供應(yīng)的所有能量并未用于反應(yīng)。

超過反應(yīng)所需的多余能量用于預(yù)熱進(jìn)料并產(chǎn)生回收部分所用的SHP蒸汽。?ThecrackingheatersarethelargestcontributorofCO2

productionin

the

ethylene

plant

裂解爐是乙烯裝置中產(chǎn)生二氧化碳的最大來源?PotentialCO2

reductionmethods

include

潛在的二氧化碳減排方法包括

Maximizingtheenergytoreaction(andminimizingsteamproduction);

最大化用于反應(yīng)的能量(并最小化蒸汽產(chǎn)量)；

Changingthechemistrybytheuseofmetathesis

通過烯烴轉(zhuǎn)化來改變化學(xué)組成

AlternateFuelsandheatingmethods(couplingexothermicwithendothermic

;

OCM)替代燃料和加熱方式(吸放熱耦合；甲烷氧化耦合)CurrentStatus

onCO2

Emissionand

Reduction

MethodsforOlefin

Production烯烴生產(chǎn)中的二氧化碳排放現(xiàn)狀及減排方法InnovationApplied.

PerformanceDelivered.

3LUMMUSTE

CH

N

O

LOGYApproachesforCO2

REDUCTIONfrom

Ethylene

Plants減少乙烯裝置二氧化碳排放的途徑LUMMUSTECHNO

LOGY4LUMMUSTE

CH

N

O

LOGYInnovationApplied.

PerformanceDelivered.

碳捕集前燃燒純氧燃燒壓縮機(jī)驅(qū)動電氣化降低能耗利用綠色能源燃?xì)馔钙郊杉淄檠趸詈狭呀鉅t采用

電加熱烯烴轉(zhuǎn)化-烯烴轉(zhuǎn)化和共聚單體生產(chǎn)技術(shù)氫燃料裂解爐的空氣預(yù)熱技術(shù)多途徑減少溫室氣體排放CONFIDENTIAL后燃燒5LUMMUSTE

CH

N

O

LOGYInnovationApplied.

PerformanceDelivered.

Many

PathstoGreenhouseGas

ReductionReducedEnergyConsumptionUse

ofGreenEnergyCarbonCapturePre-CombustionCrackingHeaterCombustionAirPreheatElectrificationofCompressorDriversOxy-CombustionPost-CombustionGasTurbineExhaustIntegrationMetathesis:

OCT

&

CPTOxidativeCouplingofMethaneHydrogen

FiringElectrificationofCrackingHeatersCONFIDENTIAL

6Gas

Turbine

Integration

燃?xì)馔钙郊?/p>

Gasturbinegenerateselectricityandexhaust

is

usedascracking

heatercombustion

air.

燃?xì)廨啓C(jī)發(fā)電，廢氣被用作裂解加熱爐的燃燒空氣。 Steamgenerationincreasesandspecificenergydecreasesbyupto30%;

蒸汽發(fā)生量增加，能量單耗降低達(dá)30%； Reducedenergyconsumptionresultsinreducedemissions降低能耗意味著碳排放降低 Commerciallyproven,availabletoday已經(jīng)商業(yè)化驗證，可以技術(shù)轉(zhuǎn)讓

Reducedenergyconsumptionresultsinreducedemissions降低能耗從而減少碳排放

Metathesis-Olefins

ConversionTechnology

andComonomer

Production

Technology歧化-烯烴轉(zhuǎn)化和共聚單體生產(chǎn)技術(shù) Energyneutralroutetopropyleneorcomonomerfrombutenesorpentenes利用碳四碳五烯烴采用能量中性路線生產(chǎn)丙烯或共聚單體 UpgradesC4sandC5stopropyleneorcomonomerat

lowerenergycost

than

recycle

cracking

or

dimerization

較于循環(huán)裂解和二聚更低能耗的升級碳四碳五為丙烯和共聚單體 Reducedenergyconsumptionresultsinreducedemissions降低能耗進(jìn)而降低碳排放 Commerciallyproven,availabletoday已經(jīng)商業(yè)化驗證，可以技術(shù)轉(zhuǎn)讓Oxidative

Coupling

of

Methane

甲烷氧化耦合 Excesssteamcrackermethaneorimportedmethanefuelisconvertedto

ethylene

and

propylene

將蒸汽裂解的多余甲烷或外購甲烷轉(zhuǎn)化為乙烯和丙烯 Heatfromoxidationreactionprovidesenergytoreduceemissionsfromthecracker氧化反應(yīng)放出的熱量可提供能量以減少乙烯裝置的排放 Olefinsproducedfrommethaneatlowenergycost以較低能耗成本利用甲烷生產(chǎn)烯烴LummusSustainabilitySolutions魯瑪斯可持續(xù)性方案Technologies

for

a

Greener

Future–

Reduced

Energy

Consumption

綠色技術(shù)的未來-減少能量消耗Innovation

Applied.

Performance

Delivered.

CONFIDENTIAL

7LUMMUSTE

CH

N

O

LOGY

Hydrogen

Firing

氫燃料 Greenhydrogencanprovidethefuelforcrackingheaterswith

noCO2fromcombustion采用綠氫為裂解爐燃料，無二氧化碳排放 Upto

100%hydrogencanbefiredwithcurrentlyavailable

burners

目前的燒嘴技術(shù)可以采用高達(dá)100%的氫 Zeroemissionswith

100%hydrogenfuel

100%氫燃料，碳排放為零 Availabletodayforretrofitorgrassroots技術(shù)可用于改造或新項目 ElectrificationofCrackingHeaters裂解爐電氣化 Greenelectricitycanreplacefossilfuelfiringasthesourceofheatrequiredforsteamcracking

reactions 采用綠電代替化石燃料作為蒸汽裂解反應(yīng)的熱源 Eliminatesallstackemissions消除所有煙道排放 SRT-ecommercialdemonstrationunitsuccessfullystartedup

inApr.2025

電裂解爐商業(yè)示范裝置于2025年4月成功開車” Cracking

HeaterCombustionAir

Preheat裂解爐燃燒空氣預(yù)熱技術(shù) Heat

recoveredintheconvectionsectionthatiscurrently

usedforsteamsuperheat

and

generationcan

be

used

to

preheat

combustion

air目前在對流段回收的用于產(chǎn)生和過熱蒸汽的熱量可用來預(yù)熱燃燒空氣 Firing

reductionofupto25%arepossible可以降低25%的燃燒 Reducedfuelfiredresultsinreducedstackemissions減少燃料消耗意味著煙道氣排放減少 Retrofitpossiblewithout

majorconvectionsectionmodifications

可以在不需要對流段大幅改變的情況下進(jìn)行改造 Readyforimplementation,currentlyinconsiderationforcrackerexpansion

project具備實施條件，目前考慮用于改擴(kuò)建項目上 ElectrificationofCompressorDrivers壓縮機(jī)驅(qū)動電氣化 Largevariablespeedmotorscanbeusedtodrive

main

compressors大型變頻電機(jī)可以用來驅(qū)動主壓縮機(jī) Motorsupto75

MWalreadyin

use

inthe

petrochemical

industry在石油化工工業(yè)上采用的最大電機(jī)為75MW Greenelectricitycanbeusedtodrivethe

motors,eliminatingtheemissions

fromfossilfuelfiringto

producesteam

采用綠電驅(qū)動電機(jī)，消除了用化石能源燃燒產(chǎn)生蒸汽導(dǎo)致的碳排放LummusSustainabilitySolutions魯瑪斯可持續(xù)性方案Technologies

for

a

Greener

Future–Use

of

Green

Energy

綠色技術(shù)的未來-利用綠色能源Innovation

Applied.

Performance

Delivered.

CONFIDENTIAL

8LUMMUSTE

CH

N

O

LOGYPreCombustion燃燒前減碳措施 HydrogenfromhydrocarbonviaSMRor

ATR通過蒸汽甲烷重整(SMR)或者

甲烷自熱重整（ATR）

用烴制氫氣 CO2fromshiftreactorcapturedwithconventionalaminesolvents利用傳統(tǒng)的胺吸收捕集來自變換反應(yīng)器的二氧化碳

Bluehydrogen

藍(lán)氫OxyCombustion純氧燃燒 Highpurityoxygenforcombustion(97+%)increasesCO2concentration

采用高純度氧氣（>97%）增加二氧化碳的濃度 Amine,membrane,oradsorptionnotrequiredforrecovery回收過程不需要胺吸收或膜分離或吸附劑 Reducedfluegasvolumereducesequipmentsize

降低煙道氣體積流量，減小設(shè)備尺寸Depending

upon

localdemandandsiteconditions

potential

usesforcapturedCO2are根據(jù)當(dāng)?shù)匾蠛同F(xiàn)場條件，可采用的碳捕集方法有

EnhancedOil

Recovery提高石油采收率 Sequestration封存

利用 Syngas,

Fertilizer,

Methanol,FoodGradeCO2,OxidativeCouplingof

Methane

(after

methanation)PostCombustion燃燒后減碳措施 90+%captureofcarbonfromstack可以捕獲90%以上煙道氣中的碳 Aminebasedsystemsarecommerciallyproven胺吸收系統(tǒng)已經(jīng)得到商業(yè)化驗證 Membraneandadsorptiontechnologiesindevelopment

膜分離和吸附技術(shù)正在開發(fā)中LummusSustainabilitySolutions魯瑪斯可持續(xù)性方案Technologies

for

a

Greener

Future–Carbon

Capture

綠色技術(shù)的未來-碳捕集Innovation

Applied.

Performance

Delivered.

CONFIDENTIAL

9Utilization合成氣、化肥、甲醇、食品級二氧化碳，甲烷氧化耦合（甲烷化后）LUMMUSTE

CH

N

O

LOGYCO2

Reduction

BenefitsofMetathesisto

ProducePropylene采用烯烴轉(zhuǎn)化生產(chǎn)丙烯技術(shù)，達(dá)到二氧化碳減排LUMMUSTECHNO

LOGY10SpecificEnergyand

Relative

FiredDutyatConstant

Ethylene

Production單位乙烯產(chǎn)量下的比能和相對燃燒負(fù)荷Innovation

Applied.

PerformanceDelivered.

11EthaneLPGNaph-High

Naph-Low乙烷

液化石油氣

輕石腦油

重石腦油EthaneLPGNaph-High

Naph-Low乙烷

液化石油氣

輕石腦油重石腦油SpecificEnergyper

unitwt.ofC2H4單位重量乙烯的比能Relative

FiredDuty

perunit

C2H4單位乙烯的相對燃燒負(fù)荷1.71.61.51.41.31.21.11.00.90.81.71.61.51.41.31.21.11.00.90.8LUMMUSTE

CH

N

O

LOGYRelativeSpec

ific

Fired

DutyRelativeSpecificEnergy相對燃燒負(fù)荷相對比能Cases案例Ethylene

Plant乙烯裝置Ethylene

Plant+

OCT

乙烯裝置+OCTAllvaluesin

kta

所有數(shù)值單位為千噸/年UltimateP/E

丙烯/乙烯0.650.65CrackingSeverity裂解強(qiáng)度0.650.53Feedstock(Naphtha)進(jìn)料（石腦油）4,8394,630-4%Products,

kta產(chǎn)品Hydrogen+

FuelGas氫+燃?xì)?80787PG

Ethylene(E)聚合級乙烯1,5001,500PG

Propylene(P)聚合級丙烯9729721,3

Butadiene(BD)丁二烯280246Isobuteneproduct異丁烯產(chǎn)品156116Benzene(BZ)

苯273304

+11%Other

Aromatics,C7+

其他芳烴529382C9++PGO+PFOC9重芳烴+裂解汽柴油+裂解燃料油349323Total

合計4,8394,630Total

Net

E+

P凈乙烯+丙烯合計2,4722,472Total

High-value

E+P+

BD+BZ

Products

高價值乙烯+丙烯+丁二烯+苯產(chǎn)品合計3,0253,022Total

HeaterEffluent裂解爐總產(chǎn)出6,0025,319

-11%InnovationApplied.

PerformanceDelivered.

12Feedand

ProductswithOCTIntegration烯烴轉(zhuǎn)化技術(shù)（OCT）整合下的進(jìn)料和產(chǎn)品LUMMUSTE

CH

N

O

LOGYOCT

Integration-

Lower

CO2

Footprint烯烴轉(zhuǎn)化技術(shù)整合-減少碳足跡?

EstimatedreductioninCO2

emission85KTA

估計二氧化碳排放量減少85，000噸/年?Equivalentspecific

reduction

in

CO2

perTonof

Ethylene–

0.056Ton

perTonof

Ethylene每噸乙烯的二氧化碳當(dāng)量比減少量–0.056噸?

4to5%

net

CO2

reduction

二氧化碳凈減排4至5%MetathesischemistryintegratedwithCrackerlowersCarbonfootprint烯烴轉(zhuǎn)化與裂解爐整合，減少碳足跡Innovation

Applied.

PerformanceDelivered.

13CO2

Reduction

BenefitsofComonomerProductionTechnology采用共聚單體技術(shù)實現(xiàn)二氧化碳減排LUMMUSTECHNO

LOGY Hydrogen

氫 Fuel

Gas

燃?xì)?Ethylene

乙烯

1500KTA Innovation

Applied.

PerformanceDelivered.

15Ethylene

Plant-

BaseConfiguration乙烯裝置-基本配置

PGO

+

PFO裂解汽柴油+裂解燃料油ComonomerProduction共聚單體生產(chǎn) Propylene

丙烯972KTABenzene

苯C7+80KTA

Butene-1Butadiene

丁二烯Polyethylene

Unit

聚乙烯單元Pygas

Hydro+

BZ裂解汽油加氫+苯RaffI

抽余液

IRaw

Mixed

C4s混合碳四Ethylene

PlantC6

NA

Recycle碳6

非芳循環(huán)C5+

Pygas碳五+

裂解汽油PE

聚乙烯1500KTA Isobutene

異丁烯Recycle

C5s

碳五回收LUMMUSTE

CH

N

O

LOGYButadiene

Extraction丁二烯抽提IsobuteneRemoval異丁烯脫除乙烯裝置Naphtha石腦油抽余液

IIRaff

IICases案例Ethylene

Plant乙烯裝置Ethylene

Plant+

CPT

乙烯裝置+CPTAllvaluesin

kta

所有數(shù)值單位為千噸/年Feedstock(Naphtha)進(jìn)料（石腦油）4,8394,920

+2%Products,

kta產(chǎn)品Hydrogen+

FuelGas氫+燃?xì)?80782PG

Ethylene(E)聚合級乙烯1,5001,500PG

Propylene(P)聚合級丙烯9729781,3

Butadiene(BD)丁二烯280275Isobuteneproduct異丁烯產(chǎn)品156158Benzene(BZ)

苯273275Butene-1丁烯085Other

Aromatics,C7+其他芳烴，

C7+529535C9++PGO+PFOC9重芳烴+裂解汽柴油+裂解燃料油348334Total

合計4,8394,920Total

Net

E+

P凈乙烯+丙烯

合計2,4722,478Total

High-value

E+P+

BD+BZ+

Butene-1

Products

高價值乙烯+丙烯+丁二烯+苯+丁烯產(chǎn)品合計3,0253,112Total

Polyethylene

聚乙烯合計1,5001,585

+6%Total

HeaterEffluent裂解爐總產(chǎn)出6,0026,013

+0.2%Innovation

Applied.

PerformanceDelivered.

16Feedand

ProductswithCPT

Integration共聚單體技術(shù)整合下的進(jìn)料和產(chǎn)品LUMMUSTE

CH

N

O

LOGYCPT

Integration-

Lower

CO2

footprintCPT整合-減少碳足跡?

EstimatedreductioninCO2

emission78KTA

預(yù)計二氧化碳排放量減少78，000噸/年?Equivalentspecific

reduction

in

CO2

perTonof

Ethylene–

0.050Ton

perTonof

Ethylene每噸乙烯的單位二氧化碳減少量–0.050噸?

3to4%net

CO2

reduction

二氧化碳凈減排3至4%Innovation

Applied.

PerformanceDelivered.

17MetathesischemistryintegratedwithCrackerlowersCarbonfootprint烯烴轉(zhuǎn)化與裂解爐整合，減少碳足跡CO2

Reduction

BenefitsofOxidativeCouplingof

Methane甲烷氧化耦合帶來的二氧化碳減排益處LUMMUSTECHNO

LOGY?Ethylene

is

produced

bythermallycrackinghydrocarbons

mixedwithdilution

steam

at

hightemperatures乙烯是在管式反應(yīng)器中，

在裂解爐低壓高溫(750-900℃

)下，通過混合稀釋蒸汽的烴熱裂解產(chǎn)生?Reactionis

highlyendothermic

(Consumes

heat)

反應(yīng)過程高度吸熱(消耗熱量)?Inan

Ethylene

Plantalmostall

CO2

isgenerated

in

the

fired

heaters

在乙烯裝置中，幾乎所有的二氧化碳都通過加熱爐產(chǎn)生

Burning

methane

byproductfromcracking燃燒裂解產(chǎn)生甲烷副產(chǎn)品?Potential

Reduction

Method

潛在減排方法

Couplinganexothermic

processwithendothermiccracking–

OCM

放熱過程和吸熱裂解耦合-甲烷氧化耦合?

Oxidative

Coupling

of

Methane

Reaction

甲烷氧化耦合反應(yīng)

2CH4

+O2

C2

H4

+2H2O

+

heat

加熱?

Gemini

TMOCM

process

by

Lummus

魯姆斯擁有的GeminiTM

OCM工藝Innovation

Applied.

PerformanceDelivered.

19(750-900oC)

in

fired

heaters

at

low

pressures

in

tubular

reactorsEthylene

PlantCO2

Emissions乙烯裝置二氧化碳排放LUMMUSTE

CH

N

O

LOGYInnovationApplied.

PerformanceDelivered.

20SCU

FuelGas蒸汽裂解富甲烷氣Oxygen氧氣C2

/C3

Recycle

碳2/碳3回收METHANATOR甲烷化器OCM

REACTOR甲烷氧化耦合反應(yīng)器HEATRECOVERY熱回收Recycle

heaterreplacedby

OCM

reactor,reducing

firing循環(huán)爐被甲烷氧化耦合反應(yīng)器取代，減少燃燒負(fù)荷CO2

recoveredandconvertedto

products二氧化碳被回收并轉(zhuǎn)化為產(chǎn)品PGCOMPR.壓縮CO2REMOVAL二氧化碳脫除WaterinsteadofCO2

emission排放水而不是二氧化碳OCM

Block

Flow甲烷氧化耦合流程框圖C2+

ProductSCU碳二+去蒸汽裂解產(chǎn)品WaterEffluent出水CO2

Recycle

二氧化碳循環(huán)LUMMUSTE

CH

N

O

LOGYC1

Recycle碳1循環(huán)CRYOSEPS低溫分離DRYING干燥OCM

Integration-

Lower

CO2

footprint甲烷氧化耦合整合-減少碳足跡?OCM

replacesthe

recycle

heatercracking

甲烷氧化耦合代替循環(huán)裂解

Converting92

kta

of

fuel

gas

可轉(zhuǎn)化92,000噸/年燃?xì)?/p>

Reduces

CO2

emission

from

firing

248kta,

12%減少燃燒產(chǎn)生的二氧化碳排放量24.8萬噸/年，12%OCMchemistryintegratedwithCrackerlowers

Carbon

footprint甲烷氧化耦合與裂解裝置整合，減少碳足跡?OCM

produces

57kta

more

ethylene

from

the

excess

fuel

gas,

reduces

CO2

4%

甲烷氧化耦合從過剩燃料氣中生產(chǎn)了額外5.7萬噸/年乙烯，減少了4%的二氧化碳?Reduction

in

specific

CO2

per

Ton

of

Ethylene

–

0.16Ton

per

Ton

of

Ethylene

–

12.3%

of

the

total

ethyleneproductionCO2

footprint每噸乙烯的單位二氧化碳排放量減少——0.16噸——占乙烯生產(chǎn)總二氧化碳排放量的12.3%InnovationApplied.

PerformanceDelivered.

21LUMMUSTE

CH

N

O

LOGYSummary總結(jié)LUMMUSTECHNO

LOGY?

Generationofhydrogentoincreasethefuelfiredinthecracking

heaters

to

100%

hydrogen

產(chǎn)生氫氣以將裂解爐中燃燒的燃料替換為100%氫氣?Totalelectrificationoftheethylene

plantincludingalldrivers

andthe

cracking

heaters.This

cannot

be

put

into

practiceyet

butcommercializationofthefirstSRT-efurnaceisnearlyready包括所有驅(qū)動器和裂解爐在內(nèi)的乙烯裝置全部電氣化。目前尚不能付諸實踐，但第一臺SRT-e爐的商業(yè)化已接近完成?

RecoveryofCO2

fromthecrackingheaterfluegasanddisposalofthe

recovered

CO2

eitherbysequestrationor

conversion

to

methaneforuseinthe

OCM

process從裂解爐煙道氣中回收二氧化碳，并通過封存或轉(zhuǎn)化成用于甲烷氧化耦合工藝的甲烷來處理回收的二氧化碳?Combustion

AirPreheating燃燒空氣預(yù)熱?

Ethyleneplantpartialelectrification

乙烯裝置部分電氣化?AdditionofOCMchemistrytothecomplex在聯(lián)合裝置中增加甲烷氧化耦合裝置?AdditionofOCT/CPTchemistrytothecomplex在聯(lián)合裝置中增加烯烴轉(zhuǎn)化技術(shù)/共聚單體技術(shù)CO2

emissions

can

be

reduced

or

eliminated

from

ethylene

plants

乙烯裝置排放的二氧化碳可以減少或消除CO2

canbereducedby

以下方法可減少二氧化碳：InnovationApplied.

PerformanceDelivered.

23LowerCO2

EmissionsSummaryofKey

Points二氧化碳減排關(guān)鍵點總結(jié)CO2

canbeessentiallyeliminatedby

以下方法可基本消除二氧化碳：LUMMUSTE

CH

N

O

LOGYLowCarbon

Emission

PXCrystallizationTechnology低碳排放的PX結(jié)晶分離技術(shù)Information

contained

herein

is

confidential

and/or

proprietaryto

Lummus

Technology

and/or

its

affiliates.All

such

information

is

protected

bythe

relevant

agreements,

including

confidentiality

and

limited

use

agreements,

between

you,

your

employer

and/or

its

affiliates,

and

LummusTechnologyor

itsaffiliates.

The

information

herein

mayonly

be

used

in

accordance

with

those

agreements,

and

is

not

to

be

disclosed

to

unauthorized

parties

without

permission

of

Lummus

Technology.本信息是Lummus

Technology和/或其附屬公司的保密和/或?qū)Ｓ行畔ⅰＫ写祟愋畔⑹苣?、您的雇主?或其關(guān)聯(lián)公司以及Lummus

Technology或其關(guān)聯(lián)公司之間的相關(guān)協(xié)議保護(hù)，包括保密和限制使用協(xié)議。此處的信息只能根據(jù)這些協(xié)議使用，未經(jīng)Lummus

Technology許可，不得向未授權(quán)方披露廣東惠州，

Huizhou,Guangdong,

PRC.2025年11月，

November2025LUMMUSTECH

N

O

LOGY?CommercialExperience

業(yè)績?Overall

ProcessScheme

總流程?Geel

PXOverview基爾PX工廠概覽?Benefits

Summary優(yōu)勢總結(jié)WhySelectDouble

ReslurryCrystallization為何選擇兩段重漿化結(jié)晶工藝InnovationApplied.

PerformanceDelivered.

25Agenda議程LUMMUSTE

CH

N

O

LOGYContinuouslyimprovedforover50years

50多年對技術(shù)不斷改進(jìn)和完善Lowestcapex,opexandenvironmentalemissions最低的投資、操作成本和環(huán)境排放Energyefficient低能耗Abilitytodebottleneckorexpand可用于現(xiàn)有裝置去瓶頸或擴(kuò)建Reliable可靠性高Doublereslurrycrystallization

istheCLEAR

choice兩段重漿化結(jié)晶是最佳選擇InnovationApplied.

PerformanceDelivered.

26LUMMUSTE

CH

N

O

LOGY?2022.2Theexecutionguidelineforupgradingtheprojects

in

majorareas

ofenergy-intensive

industriestosaveenergyandreducecarbonemission

issuedby

NDRCwheretheattachment3forPX

indicatesencouragingthedevelopmentandapplicationofthedoublereslurrycrystallizationprocess.2022.2國家發(fā)改委頒布《高耗能行業(yè)重點領(lǐng)域節(jié)能降碳改造升級實施指南》,其中關(guān)于PX的附件3提到“加大兩段重漿化結(jié)晶工藝技術(shù)研發(fā)應(yīng)用”。?2022.8ImplementationPlanforCarbon

Peaking

inthe

Industrial

Field

issued

whichmentionspromotingelectrificationofi