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LIGHTEnUp Tool & Analysis Framework Lifecycle Industry GHgas, T echnology and Energy through the Use Phase Analysis Support for U.S. DOE, EERE, Advanced Manufacturing Office (AMO) Collaborative Research From: U.S. Department of Energy, EERE, AMO Lawrence Berkeley National Laboratory National Renewable Energy Laboratory Oak Ridge National Laboratory Argonne National Laboratory Northwestern University AMO Analysis Review May 28 th & 29 th Washington D.C. Presenter: William R. Morrow, III (LBNL) This presentation does not contain any proprietary, confidential, or otherwise restricted information.
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LIGHTEnUp Tool & Analysis Framework

Mar 21, 2022

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Page 1: LIGHTEnUp Tool & Analysis Framework

LIGHTEnUp Tool & Analysis Framework

Lifecycle Industry GHgas, Technology and

Energy through the Use Phase

Analysis Support for U.S. DOE, EERE, Advanced Manufacturing Office (AMO)

Collaborative Research From:

U.S. Department of Energy, EERE, AMO

Lawrence Berkeley National Laboratory

National Renewable Energy Laboratory

Oak Ridge National Laboratory

Argonne National Laboratory

Northwestern University

AMO Analysis Review

May 28th & 29th

Washington D.C.

Presenter: William R. Morrow, III (LBNL)

This presentation does not contain any proprietary, confidential, or otherwise restricted information.

Page 2: LIGHTEnUp Tool & Analysis Framework

Flow of Energy through the U.S. Economy

2

Page 3: LIGHTEnUp Tool & Analysis Framework

Presentation OVERVIEW

• WHAT DOES THIS ANALYSIS GIVE US?

– A consistent foundation for comparing prospective

impacts of technology deployment within the U.S.

– Predicated on publically available DOE Datasets

• WHAT QUESTION DOES THE ANALYSIS

ANSWER?

– How technology deployment scenarios might impact

future U.S. energy consumption.

– Scenario uncertainty bounded by existing DOE

datasets and forecasts

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Page 4: LIGHTEnUp Tool & Analysis Framework

Presentation Outline

• LIGHTEnUP Analysis Objectives

– What THE LIGHTEnUP Tool is & what it is not

– Datasets

• Developing Scenarios

– Distilling analysis to key variables

• Scenario Examples

– Illustrative

– Detailed

• Conclusions

4

Page 5: LIGHTEnUp Tool & Analysis Framework

LI

GH

TEn

UP

Development Objectives

Substantive yet Intuitive:

• Prospective Technology

Life-Cycle Analysis

• Intuitive

• Transparent

• Publically Available Datasets

Resilient:

• Evolves

• Harmonizes

• Repository

• Guide

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Page 6: LIGHTEnUp Tool & Analysis Framework

Advanced Manufacturing Office (AMO) LIGHTEnUP Tool Lifecycle Industry GH gas & Energy through the Use Phase

What it is: • Prospective analysis tool (projections out to 2050)

• Estimates energy and CO2 impacts of technology deployment across the U.S. economy

• Simple spreadsheet (Intuitive & Transparent)

• Based on publically available DOE Datasets

What it is not: • Optimization

• General Equilibrium

• Crystal Ball (Sadly)

What it is best at: • Developing scenarios

• Documentation & communication

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Page 7: LIGHTEnUp Tool & Analysis Framework

Typical scenario drivers:

• Technology Performance?

• Who adopts it? When?

• What does it replace?

• Indirect impacts?

• … etc.

LIG

HTE

nU

P

Developing Scenarios

!nalyst’s Homework

Documentation

Three Key Scenario Variables

Where?

(Sector & end-use)

What?

(Energy Impact)

When?

(Start & End years)

LIGHTEnUP 7

Page 8: LIGHTEnUp Tool & Analysis Framework

LI

GH

TEn

UP

Publically Available U.S. Energy

Consumption Data

0

20

40

60

80

100

2010 2015 2020 2025 2030 2035 2040 2045 2050

All

Pri

mar

y (Q

uad

BTU

s)

Industrial Commercial Residential Transportation

20 !EO† Tables covering 17 Modes x 13 Energy Sources

2 !EO† Tables covering 3 Building Types, 6 Energy Sources x 14 End-Use Types

2 !EO † Tables covering 11 Building Types, 5 Energy Sources x 10 End-Use Types

12 !EO† Tables 83 MECS†† Manufacturing Classifications, 6 Energy Sources x 22 End-Use Types

† Annual Energy Outlook (AEO) Tables †† Manufacturing Energy Consumption Survey 8

Page 9: LIGHTEnUp Tool & Analysis Framework

LIG

HTE

nU

P

Where? What? Industrial Energy to End Uses

AEO Sectors

AEO Industrial

AEO Energy Sources by MECS Share-weights

Commercial Industrial Residential Transportation

Food Paper Chemicals Steel Misc.

Grains Corn Sugar Dairy Tobac.

Boilers Process Machines Other

Electricity NG Pet Coal Steam Other

Reported in AEO

Disaggregated By MECS Share-weights

Disaggregated By MECS Share-weights

Disaggregated By MECS Share-weights

Where? Sub-Sectors

MECS Sub-Sub-Sectors

What?

MECS End-Use Of AEO Energy

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Page 10: LIGHTEnUp Tool & Analysis Framework

10

What Sector & End-Use? What Impact at End Year When?

Industrial Commercial Residential

Transportation

Sub-Sector End-Use Technical Adoption

Potential %

Relative Energy

Impact %

Growth Rate

Assumption

Start Year

End Year

Technical Adoption Potential (%) Relative Energy Impact (%)

Sect

or

& S

ub

-Sec

tor

& E

nd

-Use

Energy Impact

Eq. 1

Eq. 2

Equations: 1) E t=EY = E t=0 x GR 2) E (TP) t=EY = E t=EY x TAP % 3) E (RI) t=EY = E (TP) t=EY x REI %

Eq. 3

Base Year (2011)

Time

Energy

Growth

Where?

Start Year (SY) End Year (EY)

Page 11: LIGHTEnUp Tool & Analysis Framework

Replace all non-LED Lightbulbs with LED lightbulbs

In the Residential, Commercial, and Industrial Sectors in the U.S.

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Page 12: LIGHTEnUp Tool & Analysis Framework

-

LIGHTEnUP tool LED inputs

Impact Component

Sector Modeled

End Use

Technical Adoption

Potential %

Relative Energy

Impact %

Start Year

End Year

Traditional

light bulb

manufacturing

Manufacturing Electrical equipment, appliance, and component manufacturing

Fuel 100% -1.2% 2010 2030

Manufacturing Electrical equipment, appliance, and component manufacturing

Electricity 100% -1.2% 2010 2030

LED

manufacturing

Manufacturing Semiconductor Sector Fuel Impact Fuel 100% 66.2% 2010 2030

Manufacturing Semiconductor Sector Elec Impact Electricity 100% 66.2% 2010 2030

Transportation Transportation for LEDs – Freight Trucks

Diesel 100% 0.15% 2010 2030

Buildings

Use Phase LED lighting in Residential buildings

Other 70% -60% 2010 2030

Use Phase LED lighting in Commercial buildings

Lighting 98% -48% 2010 2030

Use Phase LED lighting in Manufacturing buildings

Facility Lighting

100% -44% 2010 2030

!nalyst’s Homework

Page 13: LIGHTEnUp Tool & Analysis Framework

LI

GH

TEn

UP

Detailed Example: LED Lighting replacement

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Page 14: LIGHTEnUp Tool & Analysis Framework

Replace titanium with Ultra-High-

Molecular-Weight polyethylene (UHMW-PE)

for U.S. Export LNG seawater heat exchangers

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Page 15: LIGHTEnUp Tool & Analysis Framework

-0.14

-0.12

-0.1

-0.08

-0.06

-0.04

-0.02

0

0.02

0.04

All

Pri

mar

y (P

J)IMI # 9: (Low) Replace titanium with UHMW-PE for U.S.

Export LNG seawater heat exchangers

UHMW-PE manufacturing embodied energy (HX life = 10 Yr)

TI manufacturing embodied energy (HX life = 20 Yr)

Net Energy

LIG

HTE

nU

P

U.S. LNG export sea water heat

exchangers: UHMW-PE displaces titanium

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Page 16: LIGHTEnUp Tool & Analysis Framework

Conclusions

• Objective is to have a consistent method for analyzing and projecting the energy impacts of emerging and advanced technologies.

• This requires careful attention to details – The LIGHTEnUP Tool is designed to help guide

scenario development

• The MFI & LUP Tools where developed in tandem and they cover different parts of the LCA perspective, but are designed to be integerated

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Page 17: LIGHTEnUp Tool & Analysis Framework

Thank You!

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