ALTERNATIVE FUEL INFRASTRUCTURE
lr CORRIDOR COALITION

MEDIUM- AND HEAVY-DUTY ALTERNATIVE FUEL INFRASTRUCTURE
^''^^SSSS^STRATEGIC DEVELOPMENT/PLAN

MARCH 2020

CALSTART

48 S. Chester Ave., Pasadena, CA

Primary Authors: Alycia Gilde, Jonathan Norris, Campbell Scott
Kasey Okazaki, and Jonathan Gordon

Disclaimer: This document captures a snapshot in time and should be considered as an initial,
possible framework for medium and heavy-duty alternative fuel infrastructure investments. The
West Coast Collaborative believes that the infrastructure development project proposals listed
in this document cover a small percentage of the demand for medium and heavy-duty
alternative fuel infrastructure on the West Coast, and it welcomes feedback on additional
infrastructure needs not reflected in this document.

www.westcoastcollaborative.org



&





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WEST COAST COLLABORATIVE

A public-private partnership to reduce diesel emissions

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This Medium and Heavy-Duty Alternative Fuel Infrastructure Strategic Development Plan was commissioned by the
West Coast Collaborative Alternative Fuel Infrastructure Corridor Coalition (WCC AFICC). This document was
prepared by CALSTART for the purposes of identifying potential diesel emission reduction strategies in California,
Oregon, and Washington. This document captures a snapshot in time and should be considered as an initial, possible
framework for medium and heavy-duty (MHD) alternative fuel infrastructure investments, not a prescriptive list of
specific projects that must be endorsed for funding, or implementation. The information and recommendations
presented herein do not represent the views of any individual WCC AFICC Steering Team Member, WCC AFICC
Workgroup Member, or other WCC Partners.

WCC AFICC Steering Team Member Organizations

California Air Pollution Control Officers Association

California Air Resources Board

California Association of Councils of Government

California Department of Transportation

California Energy Commission

California Environmental Protection Agency

California Governor's Office of Business and Economic Development

California Public Utilities Commission

CALSTART

Columbia-Willamette Clean Cities Coalition

Discovery Institute: West Coast Corridor Coalition

Oregon Department of Energy

Oregon Department of Environmental Quality

Oregon Department of Transportation

Oregon Metro

Port of Portland

Port of Seattle

Port of Tacoma

Puget Sound Clean Air Agency

Puget Sound Regional Council

Rogue Valley Clean Cities Coalition

Ross Strategic: Pacific Coast Collaborative

United States Department of Energy, National Energy Technology Laboratory

United States Department of Energy, Vehicle Technologies Office

United States Department of Energy, National Renewable Energy Laboratory

United States Department of Transportation, Federal Highway Administration

United States Department of Transportation, Volpe National Transportation Systems Center

United States Environmental Protection Agency, Region 9

United States Environmental Protection Agency, Region 10

Washington State Department of Commerce

Washington State Department of Ecology

Washington State Department of Transportation

Western Washington Clean Cities Coalition

Guidance for Submitting Additional Infrastructure Project Proposals After Release of this Plan

This plan contains MHD alternative fuel infrastructure project proposals submitted by fleets and fuel providers who
participated in the 2016-2019 WCC AFICC alternative fuel infrastructure needs assessment for MHD fleet operations
in California, Oregon, and Washington. Following publication of this report, the WCC intends to create an AFICC
submission form on its website to solicit additional MHD alternative fuel infrastructure project proposals from
partners seeking funding assistance and partnerships to support implementation elsewhere in the WCC states and
territories, including: Alaska, Arizona, California, Hawaii, Idaho, Nevada, Oregon, Washington, Tribal Lands, and the
U.S. Pacific Islands: American Samoa, Guam, and Northern Mariana Islands (www.westcoastcollaborative.org).

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EXECUTIVE SUMMARY

This document presents the Strategic Development Plan of the West Coast Collaborative Alternative Fuel
Infrastructure Corridor Coalition (WCC AFICC) for medium and heavy-duty (MHD) alternative fuel
infrastructure in California, Oregon, and Washington. The West Coast Collaborative (WCC) is a United
States Environmental Protection Agency (EPA) led public-private partnership including representatives
from federal, state, local, and tribal governments, as well as the private sector, academia, and
environmental groups, all with a stated goal to reduce diesel emissions. In 2017, the WCC formed the
Alternative Fuel Infrastructure Corridor Coalition (AFICC), a partnership committed to accelerating the
modernization of West Coast transportation corridors by deploying alternative fuel infrastructure for
medium- and heavy-duty vehicles (MHDVs). Consistent with the United States Department of
Transportation Federal Highway Administration's (FHWA's) Alternative Fuel Corridor Program; the fuels
covered under this effort include plug-in electric vehicle charging (EV), hydrogen (H2), propane (LPG), and
compressed and liquefied natural gas (CNG and LNG). Since its formation, the AFICC has focused its efforts
on evaluating regional priorities within West Coast states for MHD alternative fuel infrastructure,
understanding MHD infrastructure investment needs, and identifying projects suitable for funding when
it is available to support MHD alternative fuel corridor development.

To help states and industry partners improve coordination and prioritization for infrastructure
development, this strategic plan provides important context for policies and programs aimed at
supporting deployment of alternative fuels in the three West Coast states. Secondly, AFICC's engagement
process to collect feedback on infrastructure needs is carefully described and shares best practices and
methods to evaluate infrastructure projects depending on maturity and development readiness. Lastly,
recommendations are provided to help AFICC partners meet MHD alternative fuel infrastructure
expansion goals on the West Coast. This strategic plan is intended as a living document to highlight the
strong evidence of projects in need of funding, and ways the Coalition can continue to advance solutions
for MHD alternative fuel transportation corridors. California, Oregon, and Washington State Departments
of Transportation and Metropolitan/Regional Transportation Planning Organizations (MPOs/RTPOs) are
encouraged to use this Strategic Development Plan to help advance MHD alternative fuel infrastructure
development and implementation in their jurisdictions. The WCC also encourages other regions of the
U.S. to replicate this project by developing their own partnerships to assess local demand for MHD
alternative fuel infrastructure development.

As the market for alternative fuel vehicles (AFVs) grows, so does the need for alternative fuel
infrastructure, and vice versa. Currently, diesel-fueled vehicles make up the majority of MHDVs on the
road in the United States. However, market forces and state policies, such as mandates to drastically
reduce mobile source emissions for purposes of National Ambient Air Quality Standards (NAAQS)
attainment, toxic air contaminant exposure reduction, and climate change mitigation are increasing
demand for MHD AFVs. This projected increase in demand, and the goals to reduce emissions from
transportation on the West Coast, serve as key drivers for the WCC AFICC's efforts to understand MHD
alternative fuel infrastructure investment needs in California, Oregon, and Washington.

CALSTART, a national clean transportation non-profit organization, was selected through a competitive
solicitation to facilitate the WCC AFICC and assist the Coalition in conducting a regional infrastructure

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needs assessment and drafting a strategic plan outlining near-term development opportunities along
West Coast corridors. There are six core AFICC objectives to advance a strategy and effort to expand
alternative fuel corridors in California, Oregon, and Washington:

1.	Convene a stakeholder coalition focused on MHD alternative fuel infrastructure development.

2.	Conduct stakeholder workgroups and targeted outreach to identify a subset of desired and/or
unfunded MHD alternative fuel stations.

3.	Synthesize stakeholder input into a plan document.

4.	Provide a platform for sharing MHD alternative fuel infrastructure investment needs.

5.	Use the plan as the basis for joint applications to competitive funding programs.

6.	Obtain funding assistance to help implement MHD alternative fuel infrastructure in California,
Oregon, and Washington.

The efforts presented in this strategic plan represent those conducted to meet objectives (1), (2), (3) and
(4) in preparation for pursuing objectives (5) and (6).

To start the strategic planning process, AFICC facilitated numerous workgroup sessions for WCC Partners
and other stakeholders in California, Oregon, and Washington. Through these workgroup sessions, AFICC
collected feedback on which research questions would help to identify viable MHD alternative fuel
infrastructure projects for development. These workgroup sessions were attended by stakeholders with
varying perspectives, including but not limited to federal, state, and local government agencies, private
sector entities such as fleets, infrastructure providers, original equipment manufacturers (OEMs), Clean
Cities Coalitions, utilities, port authorities, and environmental groups. With the feedback obtained from
these sessions, AFICC started its next step in conducting an infrastructure needs assessment.

AFICC developed project readiness criteria which served as guiding considerations for evaluating
infrastructure project proposals. The readiness criteria helped AFICC develop two surveys to obtain
information on infrastructure needs from fleets and fuel providers. Both surveys sought to understand
MHD alternative fuel infrastructure needs, required funding for MHD infrastructure development, and
proposals on where to locate infrastructure that benefit MHD fleets most. Once developed, AFICC
distributed the surveys to a wide audience using the combined networks of WCC partners.

The surveys yielded responses from 26 fleets and 31 fuel providers from organizations in all three states.
This included responses from MHD fleets across a variety of vocations, including but not limited to food
and beverage distribution, drayage, transit, cargo handling, and school districts. Along with MHD
infrastructure project proposals received through responses to these two surveys, the AFICC received
additional proposals through follow-up outreach to various partners outside of the surveys. These two
methods yielded a handful of important takeaways, as described below.

There is significant and proven demand for MHD alternative fuel infrastructure in all three West Coast
states: California, Oregon, and Washington.

First, the surveys found that all fleet respondents are interested in procuring MHD AFVs within the next
five years, creating an increased demand for MHD alternative fueling stations throughout the West Coast.
Fleets expressed interest in all alternative fuel types in the AFICC purview, with electricity being the most

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popular choice with 81% of respondents stating an interest in procuring MHD plug-in electric vehicles
(PEVs).

Fuel providers also shared similar interest and plans to develop MHD alternative fuel infrastructure
throughout the West Coast. Most fuel providers surveyed stated plans to develop MHD alternative fuel
infrastructure in California within the next three to five years. Of those planned projects, most were EV
charging stations, followed by CNG, H2, LPG, and LNG. The assessment received a lower response in
developing MHD alternative fuel stations in Oregon and Washington, with most fuel providers stating that
they did not have current plans to build infrastructure in those states. Those that do have plans, however,
are most interested in building EV charging stations.

Combined, the survey respondents and outreach participants proposed 147 alternative fuel infrastructure
projects on the West Coast: 67 in California, 57 in Oregon, and 23 in Washington. Project proposals were
received for all five fuel types within the AFICC planning scope: 62 EV charging stations, 36 CNG stations,
23 H2 stations, 13 LPG stations, and 7 LNG stations. Some participants also proposed technologies outside
the AFICC planning scope: 5 catenary electric infrastructure projects; and, 1 liquid biofuel station.

Fleets and fuel providers alike have a significant need for funding assistance to develop both new MHD
alternative fuel infrastructure and to expand existing alternative fuel infrastructure projects.

Most fleet survey respondents required funding support to purchase and install new MHD alternative fuel
infrastructure: 73% of fleet respondents require funding support to justify the decision to install
infrastructure, 8% stated that they do not need funding support, and 19% stated that they do not know if
they need funding support. Likewise, most fleet respondents currently developing alternative fuel
infrastructure have a need for additional funding support: 68% of fleet respondents indicated they need
additional funding for current projects to support a variety of uses, including but not limited to the
following examples: purchasing equipment and materials, adding gas compression capacity, and
expanding project scope.

Regarding funding needs, CALSTART solicited information via fleet and fuel provider surveys as well as
additional outreach via phone calls. When asked what percentage of the total capital expense (CAPEX) of
installing an alternative fueling station must be covered for them to consider development, 28% of these
combined outreach participants' infrastructure proposals stated that at least 50% of the CAPEX must be
covered by external funding, followed by 14% of proposals that said 70% of CAPEX should be covered, and
then a tie between 30% and 80% of CAPEX at 9% of proposals each. Less than 1% of proposals stated that
100% of the CAPEX must be covered by funding, and nearly 22% of proposals did not list a minimum
funding need amount. The remaining ~17% of proposals stated other funding amounts needed at lower
frequencies than those listed above. Effectively, 77% of all proposals would be viable for development
with external funding assistance up to 80% of project CAPEX.

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MHD alternative fuel infrastructure development is already underway in many locations throughout
West Coast states, and many of those projects require additional funding support.

When surveyed, 65% of fleet respondents had MHD alternative fuel projects underway with varying fuel
types, fleet sizes, locations, and timelines. Of those projects listed, 65% are EV projects, 26% are CNG
stations, and a smaller share are LNG and H2 projects, at 9% and 4% respectively. 22% of fleet survey
respondents with projects underway stated that they were for other fuel types, including renewable
diesel. Most projects underway are private access stations and are likely located within the respondents'
facilities. These existing projects may well serve as starting points for MHD alternative fuel infrastructure
expansion on the West Coast, but given their private nature, more public and limited access stations
would be needed to expand MHD AFV corridor fueling.

Survey respondents and other partners provided 147 specific proposals for MHD alternative fuel
infrastructure placement. These proposals only represent a small portion of MHD alternative fuel
infrastructure development needs on the West Coast as of December 2019.

As stated in an earlier takeaway, survey respondents and other partners provided 147 unique proposals
for alternative fuel infrastructure development in California, Oregon, and Washington. This represents the
number of proposals made to the AFICC as of December 2019 and does not fully capture all the MHD
alternative fuel infrastructure development needs on the West Coast.

The West Coast Collaborative believes that the infrastructure development project proposals listed in this
document, captured through responses to surveys and other targeted outreach, only cover a small
percentage of the full need for comprehensive MHD alternative fuel infrastructure access on the West
Coast, and it welcomes feedback on additional infrastructure needs not reflected in this document.

Table 1 shows all project proposals by fuel type and state.

Table 1 Project Proposal Numbers by Fuel Type and State



EV

H2

LPG

CNG

LNG

Other1

Totals

California

34

6

6

16

0

5

67

Oregon

15

14

5

17

5

1

57

Washington

13

3

2

3

2

0

23

Totals

62

23

13

36

7

6

147

Table 4 through Table 6 below show each proposal per state. Additionally, Figure 1 shows all proposed
sites mapped by their locations. All but 20 proposals were evaluated based on a standard set of criteria

1 This column includes 5 catenary electric infrastructure projects proposed in California, and 1 liquid biofuel station
proposed in Redmond, Oregon. Per Section 1413 of the Fixing America's Surface Transportation (FAST) Act, these
technologies are outside the scope of this plan (see Section IV, Federal Policy Landscape), and were note evaluated.

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to vet projects for development readiness." These project proposals were evaluated on the readiness
criteria outlined in Section VI. Subsequently, each project was grouped into one of three readiness
categories based on those evaluations. The readiness categories are defined below. The cut-offs between
each of these three readiness categories were made quantitatively based on the results from evaluations
using the readiness criteria defined in Section VI, Table 15.

1.	Advanced Site: Advanced Sites are the project proposals deemed most ready for development.
These sites have a high degree of readiness for funding and development. For example, this could
be a proposal that includes a location which is highly specific (e.g. a street address, city, and state),
a clear estimate of annual fuel throughput, a location near a major west coast corridor, and a
clearly defined CAPEX estimate.

2.	Emerging Site: Emerging Sites are the second to most ready for development, behind Advanced
Sites. These sites are considered less ready for funding and development than Advanced Sites,
but more so than Potential Sites. These proposals were often deemed less ready than Advanced
Sites due to a lack of information about project scope. For example, this could be a proposed site
with demonstrated demand for fuel but lacking a specific location (e.g. proposing a county instead
of a cross street or address).

3.	Potential Site: Potential Sites are the proposals deemed least ready for development. The reasons
for the lower readiness category vary across proposals, but often the project scope for these
proposals is vague or is lacking responses to multiple readiness criteria metrics. For example, this
could be a proposed site with a vague location (e.g. proposing location on a certain highway near
a city, but with no address or cross street), and not many associated details (e.g. no listing for
annual throughput or number of vehicles that the station is expected to support, no response on
the amount of funding needed, and no listing for estimated CAPEX).

11 20 of the 147 proposed projects were not evaluated: 6 proposals were outside the technological scope of this plan,
and 14 proposals did not contain enough information to properly evaluate them.

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Estimated cost to build the 141 proposed stations for targeted alternative fuel technologies is
$373,600,000.'"

This plan includes 141 proposed stations of various size, throughput, and level of construction for targeted
alternative fuel technologies.1" Based on CALSTART's estimates, it would cost approximately $373,600,000
to fund the development of all 141 sites, assuming they were newly constructed, capable of
accommodating MHD AFVs, and had average throughput and size levels. Again, these 141 sites do not
represent the total need on the West Coast, therefore $373,600,000 does not represent the total funding
amount needed to provide comprehensive MHD alternative fuel infrastructure access in California,
Oregon, and Washington.

Table 2 Estimated Funding Needed to Build Proposed Infrastructure Projects in the AFICC PlaniV V



Number of Sites



Average



Fueling

Proposed by

Average Assumptions for Each

Estimated

Total Cost

Type

Outreach
Participants

Station

CAPEX Per
Station

EV

62

750kW-lMW Peak Capacity

$2,000,000

$124,000,000

H2

23

1,000-4,800 kg/Day

$6,000,000

$138,000,000

LPG

13

1,000 gallons/Day

$1,700,000

$22,100,000

CNG

36

1,695-2,260 DGE/Day

$2,000,000

$72,000,000

LNG

7

1,695-2,260 DGE/Day

$2,500,000

$17,500,000

Total

141





$373,600,000

Table 3 Estimated Funding Needed to Build Proposed Infrastructure Projects by State

State

Number of Stations by Fuel Type

Total Cost

EV

H2

LPG

CNG

LNG

California

34

6

6

16

0

$146,200,000

Oregon

15

14

5

17

5

$169,000,000

Washington

13

3

2

3

2

$58,400,000

Total

62

23

13

36

7

$373,600,000

III	Cost estimate does not include catenary electric, or liquid biofuel proposals (6 projects omitted).

IV	CAPEX estimate does not represent the total funding needed to deploy comprehensive MHD alternative fueling
infrastructure in California, Oregon, and Washington; only includes proposals obtained through AFICC outreach.

v Table does not include catenary electric, or liquid biofuel infrastructure proposals (6 projects omitted) as these
technologies are outside the AFICC planning scope.

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Based on the results of AFICC's outreach and surveying efforts, CALSTART offers the following

recommendations to advance the Coalition's goals in meeting objectives (5) and (6) listed above:

1.	State Plans -Take the learnings from this plan document and develop targeted MHD alternative fuel
infrastructure investment plans per state.

2.	Alternative Fuel Policy - Examine, in more detail, the state-level policy barriers to alternative fuel
infrastructure deployment and develop policies that support accelerated MHD infrastructure project
implementation.

3.	Communication and Outreach - Share this strategic plan document throughout the WCC and with
partners around the nation.

4.	Public Funding Assistance - WCC partners are well positioned to both fundraise for MHD alternative
fuel infrastructure development and to petition for increased public funding support.

5.	Implementation - All parties interested in developing alternative fuel infrastructure are encouraged
to leverage the information gathered through this effort for purposes of implementing the projects
listed within this plan.

6.	Workforce Development - Consider workforce development opportunities which are likely to arise as
a result of MHD alternative fuel infrastructure development on the West Coast.

7.	Environmental Justice - MHD infrastructure development in environmental justice communities
should be prioritized where there is synergy with alternative fuel demand.

8.	Sustained Partnership - The partnerships formed between WCC AFICC partners should be sustained,
and other geographic regions are encouraged to replicate the WCC AFICC through similar regional
partnerships across the United States.

By following through with these recommendations, the WCC AFICC can work toward achieving its stated

goal of deploying alternative fuel infrastructure for MHD vehicles and equipment along the West Coast of

the United States.

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Figure 1 All Proposed MHD Alternative Fuel Infrastructure Sites

Sites

a Proposed Sites, Electric

*	Proposed Sites, Hydrogen

*	Proposed Sites, CNG
Proposed Sites, LNG

*	Proposed Sites, LPG



Portland

San Francisco

Basemap

Major US Highways
I I States Boundaries of the United States

250

500 km

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Table 4 Proposed Alternative Fuel Infrastructure Projects by Readiness Category - CaliforniaVl

Number

Fuel
Type

Proposed
State

Proposed
City or
County

Proposed
Address or
Interchange

Estimated Annual Fuel
Throughput / # of Vehicles
the Station Would Serve

Reported
CAPEX
Estimate

Funding
Needed(%
of CAPEX)

Readiness
Category

CA-1

EV

CA

Banta

1-5 & 1-205

750 kW minimum (1 MW
ideal)

$2,017,499
(Reported)

50%

Advanced

CA-2

EV

CA

Barstow

1-15 & 1-40

750 kW minimum (1 MW
ideal)

$2,017,499

50%

Advanced

CA-3

EV

CA

Blythe

1-10 & CA-78

750 kW minimum (1 MW
ideal)

$2,017,499

50%

Advanced

CA-4

EV

CA

Fresno

CA-99 & CA-41

750 kW minimum (1 MW
ideal)

$2,017,499

50%

Advanced

CA-5

EV

CA

Hamburg
Farms

1-5 & CA-165

750 kW minimum (1 MW
ideal)

$2,017,499

50%

Advanced

CA-6

EV

CA

Long Beach

301

Mediterranean
Way, Long Beach
CA

50 vehicles

Not reported by
participant; See
Table 7 for
estimated average
CAPEX

30%

Advanced

CA-7

EV

CA

Long Beach

Port of Long
Beach Terminal

N/A

$2,250,000

90%

Advanced

CA-8

EV

CA

National City

1-5 & CA-54

200 truck trips a day

Not reported by
participant; See
Table 7 for
estimated average
CAPEX

N/A

Advanced

CA-9

EV

CA

Red Bluff

1-5 & CA-3 6

6 vehicles

$100,000

50%

Advanced

CA-10

EV

CA

Redding

1-5 & CA-44

6 vehicles

$100,000

50%

Advanced

CA-11

EV

CA

Sacramento

1-80 & US-50

750 kW minimum (1 MW
ideal)

$2,017,499

50%

Advanced

Vl The proposals marked "Unevaluated" did not contain enough data to properly evaluate them.

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Number

Fuel
Type

Proposed
State

Proposed
City or
County

Proposed
Address or
Interchange

Estimated Annual Fuel
Throughput/# of
Vehicles the Station
Would Serve

Reported CAPEX
Estimate

Funding
Needed (%
Of CAPEX)

Readiness
Category

CA-12

EV

CA

San

Bernardino

1535 West 4th
St San

Bernardino, CA
92411

7 electric hostlers, 2
electric service trucks, 1
hybrid RTG, 1 electric
side loader, 1 electric

Not reported by
participant; See Table 7
for estimated average
CAPEX

50%

Advanced









drayage truck







CA-13

EV

CA

San Diego

1-5 & 1-8

200 truck trips a day

Not reported by
participant; See Table 7
for estimated average
CAPEX

N/A

Advanced

CA-14

EV

CA

Weaverville

CA-299 & CA-44

6 vehicles

$100,000

50%

Advanced

CA-15

EV

CA

Williams

1-5 & CA-20

750 kW minimum (1 MW
ideal)

$2,017,499

50%

Advanced

CA-16

EV

CA

Willow Creek

CA-299 & CA-96

6 vehicles

$100,000

50%

Advanced

CA-17

EV

CA

Willows

1-5 & CA-162

6 vehicles

$100,000

50%

Advanced

CA-18

H2

CA

Long Beach

1926 East Pacific
Coast Highway

547,500 kg (12 vehicles)
(assuming 365 days)

$10,000,000

80-85%

Advanced

CA-19

H2

CA

Ontario

4325 East Guasti
Road

547,500 kg (12 vehicles)
(assuming 365 days)

$10,000,000

80-85%

Advanced

CA-20

H2

CA

Redding

1-5 & CA-44

365,000 kg (assuming
365 days)

$4,000,000

30-100%

Advanced

CA-21

LPG

CA

Corona

CA-91 & 1-15

200,000 Gallons (50-60
vehicles)

$110,000

30-40%

Advanced

CA-22

LPG

CA

Duarte

1-605 & 1-210

200,000 Gallons (50-60
vehicles)

$110,000

30-40%

Advanced

CA-23

LPG

CA

Hawthorne

N/A

200,000 Gallons (50-60
vehicles)

$110,000

30-40%

Advanced

CA-24

LPG

CA

Norwalk

1-605 & 1-105

200,000 Gallons (50-60
vehicles)

$110,000

30-40%

Advanced

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Number

Fuel
Type

Proposed
State

Proposed
City or
County

Proposed
Address or
Interchange

Estimated Annual Fuel
Throughput/# of
Vehicles the Station
Would Serve

Reported CAPEX
Estimate

Funding
Needed (%
of CAPEX)

Readiness
Category

CA-25

LPG

CA

Ontario

1-10 & 1-15

200,000 Gallons (50-60
vehicles)

$110,000

30-40%

Advanced

CA-26

LPG

CA

Sherman
Oaks

US-101 & 1-405

200,000 Gallons (50-60
vehicles)

$110,000

30-40%

Advanced

CA-27

CNG

CA

Bellflower

15330 Woodruff
Ave., Bellflower,
CA 90706

791,000 DGE

$2,750,000

20%

Advanced

CA-28

CNG

CA

Gardena

14800 South
Spring St.,
Gardena CA
90248

60 CNG tractors

$4,000,000

80%

Advanced

CA-29

CNG

CA

Lost Hills

1-5 & CA-46

339,000 DGE (8-10
vehicles)

Not reported by
participant; See Table 7
for estimated average
CAPEX

40-60%

Advanced

CA-30

CNG

CA

Lost Hills

1-5 & CA-46

N/A

$1,000,000

N/A

Advanced

CA-31

CNG

CA

Near

Kettleman
City

1-5 & CA-41

N/A

$1,000,000

N/A

Advanced

CA-32

CNG

CA

Tehachapi

CA-58 & CA-58B

339,000 DGE (8-10
vehicles)

N/A

40-60%

Advanced

CA-33

EV

CA

Bakersfield

N/A

70 vehicles

N/A

0%

Emerging

CA-34

EV

CA

Barstow

2825 W. Main
St. Barstow, CA
92311

N/A

N/A

50%

Emerging

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Number

Fuel Type

Proposed
State

Proposed City
or County

Proposed
Address or
Interchange

Estimated Annual
Fuel Throughput / #
of Vehicles the
Station Would
Serve

Reported CAPEX
Estimate

Funding
Needed
(% of
CAPEX)

Readiness
Category

CA-35

EV

CA

Los Angeles /
Hobart

4000 East Sheila
St Los Angeles,
CA 90023

10 electric hostlers,
1 electric service
truck

N/A

50%

Emerging

CA-36

EV

CA

Stockton

6450 South
Austin Rd.
Stockton, CA
95215

6 electric hostlers, 1
hybrid RTG

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Emerging

CA-37

CNG

CA

Barstow

1-15 & Lenwood
Road

339,000 DGE (8-10
vehicles)

Not reported by
participant; See Table
7 for estimated
average CAPEX

40-60%

Emerging

CA-38

CNG

CA

Coachella

1-10 & Dillon
Road

339,000 DGE (8-10
vehicles)

Not reported by
participant; See Table
7 for estimated
average CAPEX

40-60%

Emerging

CA-39

CNG

CA

Near

Bakersfield

1-5 & CA-119

N/A

$1,000,000

N/A

Emerging

CA-40

CNG

CA

Riverside
County

N/A

225 vehicles

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Emerging

CA-41

CNG

CA

Riverside
County

N/A

225 vehicles

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Emerging

CA-42

CNG

CA

San Bernardino
County

N/A

225 vehicles

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Emerging

CA-43

CNG

CA

San Bernardino
County

N/A

225 vehicles

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Emerging

CA-44

CNG

CA

San Bernardino
County

N/A

225 vehicles

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Emerging

14 |

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Number

Fuel Type

Proposed
State

Proposed City
or County

Proposed
Address or
Interchange

Estimated Annual
Fuel Throughput / #
of Vehicles the
Station Would
Serve

Reported CAPEX
Estimate

Funding
Needed
(% of
CAPEX)

Readiness
Category

CA-45

CNG

CA

San Bernardino
County

N/A

225 vehicles

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Emerging

CA-46

EV

CA

Bakersfield

Bakersfield, CA

N/A

Not reported by
participant; See Table
7 for estimated
average CAPEX

N/A

Potential

CA-47

EV

CA

Between Los
Angeles &
Santa Barbara

US-101

N/A

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Potential

CA-48

EV

CA

Between
Sacramento &
San Francisco

1-80

N/A

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Potential

CA-49

EV

CA

Grapevine

1-5 &

Edmonston
Pumping Plant
Road

N/A

Not reported by
participant; See Table
7 for estimated
average CAPEX

N/A

Potential

CA-50

EV

CA

Inland Empire

1-15

N/A

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Potential

CA-51

EV

CA

Inland Empire

Warehouse
Districts Around
Inland Empire

N/A

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Potential

CA-52

EV

CA

Long Beach

Port of Long
Beach

N/A

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Potential

CA-53

EV

CA

Long Beach

Port of Long
Beach Terminal

N/A

Not reported by
participant; See Table
7 for estimated
average CAPEX

60-80%

Potential

15 |

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Estimated Annual



Funding
Needed
(% of
CAPEX)



Number

Fuel Type

Proposed
State

Proposed City
or County

Proposed
Address or
Interchange

Fuel Throughput / #
of Vehicles the
Station Would
Serve

Reported CAPEX
Estimate

Readiness
Category













Not reported by





CA-54

EV

CA

Los Angeles

1-10

N/A

participant; See Table
7 for estimated
average CAPEX

50%

Potential

CA-55

EV

CA

Los Angeles

Warehouse
Districts Around
Los Angeles

N/A

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Potential

CA-56

EV

CA

Los Angeles

Port of Los
Angeles

N/A

Not reported by
participant; See Table
7 for estimated
average CAPEX

50%

Potential













Not reported by





CA-57

EV

CA

Near Coalinga

1-5 & CA-198

N/A

participant; See Table
7 for estimated
average CAPEX

N/A

Potential













Not reported by





CA-58

EV

CA

Near Los Banos

1-5 & CA-152

N/A

participant; See Table
7 for estimated
average CAPEX

N/A

Potential













Not reported by





CA-59

H2

CA

Long Beach

1-710 & 1-405

N/A

participant; See Table
7 for estimated
average CAPEX

20%

Potential













Not reported by





CA-60

CNG

CA

Bakersfield

Bakersfield, CA

N/A

participant; See Table
7 for estimated
average CAPEX

N/A

Potential













Not reported by





CA-61

H2

CA

Sacramento

N/A

N/A

participant; See Table
7 for estimated
average CAPEX

N/A

Unevaluated













Not reported by





CA-62

H2

CA

Sacramento

N/A

N/A

participant; See Table
7 for estimated
average CAPEX

N/A

Unevaluated

CA-63

Catenary
Electric

CA

Between East
Los Angeles
and Riverside

CA-60 (East LA
to Riverside)

6000 trucks per day
per direction

$5-8.7M /Mile

0%

Unevaluated

16 |

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Number

Fuel Type

Proposed
State

Proposed City
or County

Proposed
Address or
Interchange

Estimated Annual
Fuel Throughput / #
of Vehicles the
Station Would
Serve

Reported CAPEX
Estimate

Funding
Needed
(% of
CAPEX)

Readiness
Category

CA-64

Catenary
Electric

CA

Between Los
Angeles and
Las Vegas

1-15 Los Angeles
to Las Vegas

6000 trucks per day
per direction

$5-8.7M /Mile

0%

Unevaluated

CA-65

Catenary
Electric

CA

Between
Mettler and
Sacramento

CA-99 (Mettler
to Sacramento)

6000 trucks per day
per direction

$5-8.7M /Mile

0%

Unevaluated

CA-66

Catenary
Electric

CA

Between San
Diego and
Redding

1-5 (San Diego to
Redding)

6000 trucks per day
per direction

$5-8.7M /Mile

0%

Unevaluated

CA-67

Catenary
Electric

CA

Los Angeles
County

1-710

14,000 trucks per
day and direction

$8.7M/Mile

0%

Unevaluated

17 |

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Table 5 Proposed Alternative Fuel Infrastructure Projects by Readiness Category - Oregon™

Number

Fuel
Type

Proposed
State

Proposed City or
County

Proposed
Address or
Interchange

Estimated Annual
Fuel Throughput / #

of Vehicles the
Station Would Serve

Reported CAPEX
Estimate

Funding
Needed
(% of
CAPEX)

Readiness
Category

OR-1

EV

OR

Bend

US-20 & US-
97

750 kW minimum (1
MW ideal)

$2,017,499

50%

Advanced

OR-2

EV

OR

Bend

US-97 & US-
20

500 vehicles @
350kW

$100,000

70%

Advanced

OR-3

EV

OR

Boardman

1-84 & South
Main Street

500 vehicles @
350kW

$100,000

70%

Advanced

OR-4

EV

OR

Eugene

1-5 &OR-126

500 vehicles @
350kW

$100,000

70%

Advanced

OR-5

EV

OR

La Grande

1-84 & OR-82

500 vehicles @
350kW

$100,000

70%

Advanced

OR-6

EV

OR

Medford

1-5 & OR-62

500 vehicles @
350kW

$100,000

70%

Advanced

OR-7

EV

OR

Ontario

1-84 & US-30

500 vehicles @
350kW

$100,000

70%

Advanced

OR-8

EV

OR

Pendleton

1-84 & US-395

500 vehicles @
350kW

$100,000

70%

Advanced

OR-9

EV

OR

Portland

1-84 & 1-205

30 vehicles

$2,000,000

50%

Advanced

OR-IO

EV

OR

Portland

1-5 & 1-405

500 vehicles @
350kW

$100,000

70%

Advanced

OR-11

EV

OR

Salem

1-5 & OR-22

500 vehicles @
350kW

$100,000

70%

Advanced

OR-12

EV

OR

The Dalles

1-84 & US-197

500 vehicles @
350kW

$100,000

70%

Advanced

v" The proposals marked "Unevaluated" did not contain enough data to properly evaluate those proposals.

18 | P a g e

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Number

Fuel
Type

Proposed
State

Proposed City or
County

Proposed
Address or
Interchange

Estimated Annual
Fuel Throughput / #

of Vehicles the
Station Would Serve

Reported CAPEX
Estimate

Funding
Needed
(% of
CAPEX)

Readiness
Category

OR-13

H2

OR

Eugene

1-5 & 1-105

365,000 kg/year

$4,000,000

30-
100%

Advanced

OR-14

H2

OR

Grants Pass

1-5 & CA-99

365,000 kg/year

$4,000,000

30-
100%

Advanced

OR-15

H2

OR

Portland

1-5 & 1-84

365,000 kg/year

$4,000,000

30-
100%

Advanced

OR-16

LPG

OR

Boardman

1-84 & South
Main Street

3000 DGE/Hour

$100,000

50-60%

Advanced

OR-17

LPG

OR

Ontario

1-84 & US-30

3000 DGE/Hour

$100,000

50-60%

Advanced

OR-18

LPG

OR

Pendleton

1-84 & US-395

3000 DGE/Hour

$100,000

50-60%

Advanced

OR-19

LPG

OR

Roseburg

1-5 & SE Oak
Avenue

3000 DGE/Hour

$100,000

50-60%

Advanced

OR-20

LPG

OR

The Dalles

1-84 & US-197

3000 DGE/Hour

$100,000

50-60%

Advanced

OR-21

CNG

OR

Bend

US-97 & US-
20

500 DGE/Hour

$1,500,000

70%

Advanced

OR-22

CNG

OR

Boardman

1-84 & South
Main Street

500 DGE/Hour

$1,500,000

70%

Advanced

OR-23

CNG

OR

La Grande

1-84 & OR-82

500 DGE/Hour

$1,500,000

70%

Advanced

OR-24

CNG

OR

Ontario

1-84 & US-30

500 DGE/Hour

$1,500,000

70%

Advanced

OR-25

CNG

OR

Pendleton

1-84 & US-395

500 DGE/Hour

$1,500,000

70%

Advanced

OR-26

CNG

OR

Portland

1-205 & Sandy
Boulevard

40 vehicles

$1,000,000

50-70%

Advanced

OR-27

CNG

OR

The Dalles

1-84 & US-197

500 DGE/Hour

$1,500,000

70%

Advanced

OR-28

CNG

OR

Umatilla

1-82 & US-730

30 vehicles

Not reported by
participant; See Table 7
for estimated average
CAPEX

70%

Advanced

OR-29

CNG

OR

Woodburn

OR-214 & 1-5

40 vehicles

$1,000,000

50-70%

Advanced

19 |

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Number

Fuel
Type

Proposed
State

Proposed City or
County

Proposed
Address or
Interchange

Estimated Annual
Fuel Throughput / #

of Vehicles the
Station Would Serve

Reported CAPEX
Estimate

Funding
Needed
(% of
CAPEX)

Readiness
Category

OR-30

LNG

OR

Eugene

1-5 & OR-58

5 vehicles

Not reported by
participant; See Table 7
for estimated average
CAPEX

N/A

Advanced

OR-31

LNG

OR

Portland

N/A

7,352 DGE (5
vehicles)/year

Not reported by
participant; See Table 7
for estimated average
CAPEX

N/A

Advanced

OR-32

LNG

OR

Portland

1-205 & 1-84

5 vehicles

Not reported by
participant; See Table 7
for estimated average
CAPEX

N/A

Advanced

OR-33

H2

OR

Bend

US-97 & US-
20

222,650 kg/year

$4,000,000

80%

Emerging

OR-34

H2

OR

Boardman

1-84 & South
Main Street

222,650 kg/year

$4,000,000

80%

Emerging

OR-35

H2

OR

Eugene

1-5 &OR-126

222,650 kg/year
(assuming 365 days)

$4,000,000

80%

Emerging

OR-36

H2

OR

La Grande

1-84 & OR-82

222,650 kg/year

$4,000,000

80%

Emerging

OR-37

H2

OR

Medford

1-5 & OR-62

222,650 kg/year

$4,000,000

80%

Emerging

OR-38

H2

OR

Ontario

1-84 & US-30

222,650 kg/year

$4,000,000

80%

Emerging

OR-39

H2

OR

Pendleton

1-84 & US-395

222,650 kg/year

$4,000,000

80%

Emerging

OR-40

H2

OR

Portland

1-5 & 1-405

222,650 kg/year

$4,000,000

80%

Emerging

OR-41

H2

OR

Salem

1-5 & OR-22

222,650 kg/year

$4,000,000

80%

Emerging

OR-42

H2

OR

The Dalles

1-84 & US-197

222,650 kg/year

$4,000,000

80%

Emerging

OR-43

CNG

OR

Baker City

N/A

30 vehicles

Not reported by
participant; See Table 7
for estimated average
CAPEX

70%

Emerging

OR-44

CNG

OR

Portland

1-5 & 1-405

500 DGE/Hour

$1,500,000

70%

Emerging

OR-45

CNG

OR

Salem

1-5 & OR-22

500 DGE/Hour

$1,500,000

70%

Emerging

20 |

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Proposed
Address or
Interchange

Estimated Annual



Funding



Number

Fuel

Proposed

Proposed City or

Fuel Throughput / #

Reported CAPEX

Needed

Readiness

Type

State

County

of Vehicles the
Station Would Serve

Estimate

(% of
CAPEX)

Category













Not reported by





OR-46

LNG

OR

Hermiston

1-82 & 1-84

5 vehicles

participant; See Table 7
for estimated average
CAPEX

N/A

Emerging













Not reported by





OR-47

CNG

OR

Medford

N/A

30 vehicles

participant; See Table 7
for estimated average
CAPEX

70%

Potential

OR-48

EV

OR

Eugene

3500 E17th
Ave Eugene
OR 97403

N/A

Not reported by
participant; See Table 7
for estimated average
CAPEX

N/A

Unevaluated













Not reported by





OR-49

EV

OR

Hood River County

N/A

N/A

participant; See Table 7
for estimated average
CAPEX

N/A

Unevaluated













Not reported by





OR-50

EV

OR

Josephine County

N/A

N/A

participant; See Table 7
for estimated average
CAPEX

N/A

Unevaluated













Not reported by





OR-51

H2

OR

Portland

N/A

N/A

participant; See Table 7
for estimated average
CAPEX

N/A

Unevaluated

OR-52

CNG

OR

Eugene

3500 E17th
Ave Eugene
OR 97403

N/A

Not reported by
participant; See Table 7
for estimated average
CAPEX

N/A

Unevaluated













Not reported by





OR-53

CNG

OR

Eugene/Portland

1-5 Corridor

N/A

participant; See Table 7
for estimated average
CAPEX

N/A

Unevaluated













Not reported by





OR-54

CNG

OR

Portland

N/A

N/A

participant; See Table 7
for estimated average
CAPEX

N/A

Unevaluated













Not reported by





OR-55

CNG

OR

SE Portland

1-5 Corridor

33,900 DGE

participant; See Table 7
for estimated average
CAPEX

N/A

Unevaluated

21 |

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Number

Fuel
Type

Proposed
State

Proposed City or
County

Proposed
Address or
Interchange

Estimated Annual
Fuel Throughput / #

of Vehicles the
Station Would Serve

Reported CAPEX
Estimate

Funding
Needed
(% of
CAPEX)

Readiness
Category

OR-56

LNG

OR

Eugene

3500 E17th
Ave Eugene
OR 97403

N/A

Not reported by
participant; See Table 7
for estimated average
CAPEX

N/A

Unevaluated

OR-57

Biofu
el

OR

Redmond

N/A

3-5 million gallons

Not reported by
participant; See Table 7
for estimated average
CAPEX

N/A

Unevaluated

22 |

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Table 6 Proposed Alternative Fuel Infrastructure Projects by Readiness Category - Washington™1

Number

Fuel
Type

Proposed
State

Proposed
City or
County

Proposed
Address or
Interchange

Estimated Annual
Fuel Throughput / #

of Vehicles the
Station Would Serve

Reported CAPEX
Estimate

Funding
Needed (%
of CAPEX)

Readiness
Category

WA-1

EV

WA

Bellevue

1-405 & 1-5

200 vehicles

Not reported by participant-
See Table 7 for estimated
average CAPEX

60-80%

Advanced

WA-2

EV

WA

Ellensburg

Main and
Washington

200 vehicles

Not reported by participant-
See Table 7 for estimated
average CAPEX

60-80%

Advanced

WA-3

EV

WA

Kennewick

1-82 & US-395

750 kW minimum (1
MW ideal)

$2,017,499

50%

Advanced

WA-4

EV

WA

Olympia

Capital &
Jefferson

200 vehicles

Not reported by participant-
See Table 7 for estimated
average CAPEX

60-80%

Advanced

WA-5

EV

WA

Spokane

Division &
Mission

200 vehicles

Not reported by participant-
See Table 7 for estimated
average CAPEX

60-80%

Advanced

WA-6

EV

WA

Tacoma

Market &
Pacific Avenue

200 vehicles

Not reported by participant-
See Table 7 for estimated
average CAPEX

60-80%

Advanced

WA-7

EV

WA

Yakima

Yakima & 4th

200 vehicles

Not reported by participant-
See Table 7 for estimated
average CAPEX

60-80%

Advanced

WA-8

EV

WA

Yakima

Nob Hill & 1st

200 vehicles

Not reported by participant-
See Table 7 for estimated
average CAPEX

60-80%

Advanced

WA-9

H2

WA

Seattle

1-5 & 1-90

365,000 kg (assuming
365 days)

$4,000,000

30-100%

Advanced

WA-10

H2

WA

Tacoma

Tacoma

10,000 kg/day with

electrolyzer

production

$90,000,000IX

10%

Advanced

WA-11

H2

WA

Tacoma

1-5 & WA-7

365,000 kg (assuming
365 days)

$4,000,000

30-100%

Advanced

Vl" The proposals marked "Unevaluated" did not contain enough data for evaluation.

IX This proposal is for a 35 MW electrolysis station with an expected capacity of 10,000 kg/day. A hydrogen fueling station may or may not be included in the
project. CAPEX includes but is not limited to an electrolyzer, electrical connections to substations, transportation infrastructure, liquefaction, and storage.

23 | P a g e

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Number

Fuel
Type

Proposed
State

Proposed
City or
County

Proposed
Address or
Interchange

Estimated Annual
Fuel Throughput / #

of Vehicles the
Station Would Serve

Reported CAPEX
Estimate

Funding
Needed (%
of CAPEX)

Readiness
Category

WA-12

LPG

WA

Ellensburg

1-90 & 1-82

360,000 gallons

$1,700,000

25-50%

Advanced

WA-13

LPG

WA

Ritzville

1-90 & WA-261

360,000 gallons

$1,700,000

25-50%

Advanced

WA-14

EV

WA

Everett

Cedar and
Wentworth

N/A

MHD station not reported
by participant; See Table 7
for estimated average
CAPEX

0%

Emerging

WA-15

EV

WA

Everett

Cedar and
Pacific

N/A

MHD station not reported
by participant; See Table 7
for estimated average
CAPEX

0%

Emerging

WA-16

EV

WA

Everett

Cedar and
Pacific

10 buses, 5 small
vehicles

$292,000

50%

Emerging

WA-17

EV

WA

Seattle

Port of Seattle

N/A

Not reported by participant-
See Table 7 for estimated
average CAPEX

N/A

Potential

WA-18

EV

WA

Tacoma

Tacoma

15 vehicles

$500,000

100%

Potential

WA-19

LNG

WA

Seattle

N/A

7,352 DGE (5
vehicles)

Not reported by participant-
See Table 7 for estimated
average CAPEX

N/A

Potential

WA-20

LNG

WA

Spokane

N/A

7,352 DGE (5
vehicles)

Not reported by participant-
See Table 7 for estimated
average CAPEX

N/A

Potential

WA-21

CNG

WA

Clark County

1-5 Corridor

N/A

Not reported by participant-
See Table 7 for estimated
average CAPEX

N/A

Unevaluated

WA-22

CNG

WA

Vancouver

1-5 Corridor

113,000 DGE

Not reported by participant-
See Table 7 for estimated
average CAPEX

N/A

Unevaluated

WA-23

CNG

WA

Washington
State

1-5 Corridor

N/A

Not reported by participant-
See Table 7 for estimated
average CAPEX

N/A

Unevaluated

24 |

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