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Climate Security and Sustainable Development
TEMPLATE
KEY PROJECT INFORMATION & PROJECT DESIGN DOCUMENT (PDD)
PUBLICATION DATE 14.10.2020
VERSION v. 1.2
RELATED SUPPORT
- TEMPLATE GUIDE Key Project Information & Project Design Document v.1.2
This document contains the following Sections
Key Project Information
0 – Description of project
0 - Application of approved Gold Standard Methodology (ies) and/or demonstration
of SDG Contributions
0 – Duration and crediting period
0 – Summary of Safeguarding Principles and Gender Sensitive Assessment
0 – Outcome of Stakeholder Consultations
Appendix 1 – Safeguarding Principles Assessment (mandatory)
0 - Contact information of Project participants (mandatory)
0 - LUF Additional Information (project specific)
0 - Summary of Approved Design Changes (project specific)
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2 Climate Security and Sustainable Development
KEY PROJECT INFORMATION
GS ID of Project GS11208
Title of Project Golden Union Shipping Retrofit Project 1
Time of First Submission Date 27 May 2021
Date of Design Certification
Version number of the PDD Version 2, following GS preliminary review
Completion date of version 13/07/2021
Project Developer The FReMCo Corporation Inc./MGM Innova
Consulting LLC
Project Representative
Project Participants and any communities involved
Golden Union Shipping Company S.A.
Host Country (ies) There is no host country. Project involves ships
mostly travelling in international waters. Shipping
emissions and emissions reduction are not
included in GHG inventory of any country.
Activity Requirements applied
Community Services Activities
Renewable Energy Activities
Land Use and Forestry Activities/Risks & Capacities
X N/A
Scale of the project activity
Micro scale
X Small Scale
Large Scale
Other Requirements applied
Methodology (ies) applied and version number
Gold Standard methodology “Retrofit Energy Efficiency
This template has been revised to aid a consistent interpretation and to better support project developers submitting documentation for certification. Please read the accompanying guide to understand how to complete this template accurately. TEMPLATE GUIDE Key Project Information & Project Design Document v.1.2
Please delete this blue text box upon completion
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3 Climate Security and Sustainable Development
Measures in Shipping”, V1.0.
Product Requirements applied
X GHG Emissions Reduction & Sequestration
Renewable Energy Label
N/A
Project Cycle:
Regular
X Retroactive
Land-use & Forest Key Project Information1
Table 1 – Estimated Sustainable Development Contributions
Sustainable Development Goals Targeted
SDG Impact (defined in B.6.)
Estimated Annual Average
Units or Products
13 Climate Action (mandatory)
GHG emissions reduction: 109,688 tCO2
21,938 tCO2
12 Responsible Consumption and Production
Fuel savings: 34,536 tonnes.
6,907 tonnes of fuel
4 Quality Education
Estimated 10 training sessions and conference presentations
Two per year
SECTION A. DESCRIPTION OF PROJECT
A.1 Purpose and general description of project
>>The Project comprises the application of one or more energy efficiency measures
as retrofits to existing ships. These measures would reduce fossil fuel consumption
and thereby reduce CO2 emissions. The ships included in this project, including name
1 Please refer to 0 for detailed information on LUF projects
N/A
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4 Climate Security and Sustainable Development
and IMO (International Maritime Organisation) identification number, and ship type
are listed in the table below.
Shipno. VesselName IMONo. Shiptype1 CICPaola 9692820 Bulkcarrier
2 CICEpos 9474694 Bulkcarrier
3 FlagZannis 9474682 Bulkcarrier
4 SeattleSlew 9573737 Bulkcarrier
5 Mairini 9474670 Bulkcarrier
6 CapeElektra 9527922 Bulkcarrier
7 ChristinaJ 9492232 Bulkcarrier
8 Secretariat 9699701 Bulkcarrier
9 Rini 9411006 Bulkcarrier
10 ElenaVe 9453066 Bulkcarrier
11 PatriciaV 9453054 Bulkcarrier
12 CapeAlexandros 9489302 Bulkcarrier
13 FlagTrias 9374155 Bulkcarrier
14 CapeSupplier 9493743 Bulkcarrier
15 PharLap 9590694 Bulkcarrier
16 FlagTom 9496630 Bulkcarrier
17 FlagHope 9496642 Bulkcarrier
18 ImperialFrontier 9364320 Bulkcarrier
19 FlagMette 9727974 Bulkcarrier
A.1.1. Eligibility of the project under Gold Standard
>>
Gold Standard for the Global Goals (GS4GG), Principles and Requirements, Section 4,
lists a number of Eligibility Principles and Requirements. These are listed below with a
comment on relevance for the proposed project.
Climate Security and Sustainable Development
TEMPLATE
GS
Principle
Brief description or extract Relevance for proposed project
Principle 1 Contribution to climate security and sustainable
development:
Projects shall be of a type pre-identified as eligible or shall
submit to Gold Standard for approval of eligibility.
• Projects shall define their Baseline Scenario and Project
Scenario.
• Projects shall contribute positively to Climate Security &
Sustainable Development. These positive impacts are
considered against the Sustainable Development Goals
(SDGs).
The proposed project, based on an approved Gold
Standard methodology, clearly defines Baseline and
Project Scenarios. Moreover, the climate benefits (SDG
13) are clearly determined by the methodology. Two
other SDG goals are also met, as described later.
4.1.3. A Project type is automatically eligible for Gold
Standard Certification if there are Gold Standard approved
Activity Requirements and/or Impact Quantification
Methodologies associated with it
GS methodology exists, so automatically eligible.
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4.1.12. All Projects shall demonstrate a clear, direct
contribution to sustainable development, defined as making
demonstrable, positive impacts on at least three
Sustainable Development Goals (SDGs), one of which must
be SDG 13 (defined herein as Emissions Reductions or
Removals and/or Adaptation to climate change). These are
referred to as SDG Impacts.
Proposed project would meet SDG criteria including
SDG 13, as well as SDG 12 and SDG 4, as described
later.
Principle 2 Projects shall conduct a Safeguarding Principles
Assessment and conform to Gold Standard Safeguarding
Principles and Requirements (see Appendix 1)
A Safeguarding Principles Assessment has been
conducted, as described in Appendix 1, and confirms
that most principles have no relevance to this project,
a few have positive impact and none have negative
impacts or consequences.
Principle 3 Stakeholder Inclusivity Projects shall identify and
engage Relevant Stakeholders and seek Expert Stakeholder
input where necessary in the design, planning and
implementation of the Project. Project design shall reflect
the views and inputs of stakeholders and ongoing feedback
shall be sought, captured and acted upon throughout the
life of the Project.
Note: this version of PDD is being submitted to Gold
Standard for Preliminary Review. Stakeholder
consultation session planning is underway, to be
conducted in the coming weeks.
Climate Security and Sustainable Development
TEMPLATE
A.1.2. Legal ownership of products generated by the project and legal rights to alter use of resources required to service the project
>>
To be completed following Gold Standard initial approval
A.2 Location of project
The project comprises a set of ships, identified by the ship names and their unique
ship identification numbers according to the International Maritime Organisation
(IMO). The names and IMO numbers of the ships within this VPA are listed in the table
in section A.1.
A.3 Technologies and/or measures
>> Ships in this project receive a range of retrofit technical efficiency measures
indicated in the GS methodology, “Retrofit Energy Efficiency Measures in Shipping”,
Table 4. Furthermore, as noted in the methodology “efficiency measures are installed
individually or as bundles custom-tailored for a given ship to improve fuel efficiency.”
Individual retrofits measures applied to the set of ships are listed below, together with
the “measure category” as defined in Section 1.0 of the GS methodology.
Measure no. Description
GS methodology measure category
1 Propeller surface polishing Operating 2 Schneekluth Wake Equalising Duct (WED) Propulsion 3 MHI (Mitsubishi Heavy Industries) Hub Vortex
Free Cap (HVFC) Propulsion
4 MAN Econozzles Machinery 5 MITSUI Low Fuel Consumption Atomizers Machinery
Details of the retrofits for each ship are listed below, where the right column notes the
“Measure number” as listed above.
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Shipno. VesselName IMONo. Retrofitmeasures
1 CICPaola 9692820 1
2 CICEpos 9474694 1,4
3 FlagZannis 9474682 1,4
4 SeattleSlew 9573737 1
5 Mairini 9474670 1,2,3
6 CapeElektra 9527922 1
7 ChristinaJ 9492232 1,3
8 Secretariat 9699701 1
9 Rini 9411006 1,2
10 ElenaVe 9453066 1
11 PatriciaV 9453054 1
12 CapeAlexandros 9489302 1,2,3
13 FlagTrias 9374155 1,4
14 CapeSupplier 9493743 1,2,3
15 PharLap 9590694 1,2,3
16 FlagTom 9496630 1,2,3
17 FlagHope 9496642 1,2,3
18 ImperialFrontier 9364320 1,2
19 FlagMette 9727974 1,3
A.4 Scale of the project
>>Small-scale.
The ex ante emissions reductions for the project have been estimated in Section
B.6.4. The annual average for the five-year crediting period is 21,938 t CO2/year. This
is considerably below the small-scale limit of 60,000 t CO2/year. While the ex ante
estimate is approximate, it is impossible for measured fuel savings to be so high as to
exceed the small-scale limit.
A.5 Funding sources of project
>>The project is funded by resources of the project proponent, Golden Union
Shipping Company S.A., based in Greece with its registered office address in Panama.
From the PDD Template guide: Comment for project
Indicate whether the project activity receives public funding. If any public funding is received, provide information on the sources of the public funding.
The project activity would be undertaken by private investments. No public funding is received.
For carbon credit projects taking place in Project proponent is based in Greece with
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9 Climate Security and Sustainable Development
countries on the OECD Development Assistance Committee’s ODA recipient list a signed Official Development Assistance (ODA) Declaration is required.
its registered office in Panama. However, no ODA was received. A signed declaration will be provided with formal submission of PDD.
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SECTION B. APPLICATION OF APPROVED GOLD STANDARD METHODOLOGY (IES) AND/OR DEMONSTRATION OF SDG CONTRIBUTIONS
B.1. Reference of approved methodology (ies)
>> The project would use the approved GS methodology, “Retrofit Energy Efficiency
Measures in Shipping”, version 1, July 2017. This methodology refers to the CDM
methodological “Tool for the Demonstration and Assessment of Additionality”.
Specifically, we use CDM Tool 21: Demonstration of additionality of small-scale project
activities, version 13.1, valid from 01/09/2020.
B.2. Applicability of methodology (ies)
>>The project meets the applicability conditions specified in the GS methodology.
Details to be completed prior to formal submission.
B.3. Project boundary
>>
As noted in the methodology,
“The spatial project boundary is the geographical location of project ships in which
vessels are clearly identified by their unique IMO-Number. The project boundary
includes the cruising part of a ship’s route, but excludes stays in ports, dry docks
and manoeuvring activities (except for cases where fuel consumption for
navigation is not recorded separately; in these cases, the fuel consumption would
include navigation and manoeuvring). In both baseline and project scenarios, the
same project boundary for fuel consumption data should be used.”
“This methodology applies to efficiency measures that would reduce the
consumption of Marine Heavy Fuel Oil (HFO) or Marine Diesel Oil (MDO)
consumption in ships. The combustion of these fuels primarily produces carbon
dioxide (CO2) with small amounts of other greenhouse gases i.e., methane (CH4)
and nitrous oxide (N2O). However the emission of these two GHGs are very minor
compared to CO2 emissions…. In the case of Liquefied Natural Gas (LNG) usage,
CH4 emissions are however significant and shall be included within the project
boundary.”
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11 Climate Security and Sustainable Development
None of the ships in the project use LNG, so only CO2 emissions are considered, both
for baseline and project scenarios, see below. Propulsion fuels are heavy fuel oil (HFO)
with varying sulphur content as required by standards. MDO may also be used as a
propulsion fuel.
Source GHGs Included?
Justification/Explanation
Base
lin
e s
cen
ari
o
Propulsion fuel 1
CO2 Yes
CH4 No
N2O No
Propulsion fuel 2
CO2 Yes
CH4 No
N2O No
…
…
…
…
Pro
ject
sce
nari
o
Propulsion fuel 1
CO2 Yes
CH4 No
N2O No
…
Propulsion fuel 2
CO2 Yes
CH4 No
N2O No
…
…
…
…
…
B.4. Establishment and description of baseline scenario
>> The baseline scenario is as specified in the GS methodology. The measures refer to energy efficiency improvements so that they meet applicable legislation. There is no suppressed demand baseline. Details to be completed
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B.5. Demonstration of additionality
The project type is not deemed automatically additional. Additionality will be demonstrated as indicated in the GS methodology, based on the CDM Additionality Tool. To be completed prior to formal submission.
B.5.1 Prior Consideration
>>
Normally, Gold Standard projects need to be submitted within one year of the project start date. However, there is an exception for projects using this methodology.
As noted in Gold Standard for Global Goals Principles & Requirements, section 3.4.7.4 (https://globalgoals.goldstandard.org/retroactive-projects-eligibility/),
“The following exceptions have been introduced through this Rule Update:
2.1 Requirement for retroactive projects applying the methodology Retrofit Energy Efficiency Measures in shipping>>
Considering the unique nature of the shipping sector activities and the intricate methodology requirements for data collection, the prior consideration requirements have been revised for retroactive project applying the methodology “Retrofit Energy Efficiency Measures in shipping”. The projects applying this methodology can submit the required documents to Gold Standard for preliminary review within two years of its start date. This rule change is applicable with effect from the date of publication.”
This PDD is being submitted within two years of retrofit application.
B.5.2 Ongoing Financial Need
>>As per GS rules, this information is only needed for Design Certification Renewal.
B.6. Sustainable Development Goals (SDG) outcomes
Relevant Target/Indicator for each of the three SDGs
The most relevant targets and indicators listed in the United Nations Sustainable Development Goals website for the three SDG considered are listed below.
Sustainable Development
Most relevant SDG Target
SDG Impact Indicator
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13 Climate Security and Sustainable Development
Goals Targeted (Proposed or SDG Indicator)
13 Climate Action (mandatory)
13.2 Integrate climate change measures into national policies, strategies and planning
13.2.1. Number of countries that have communicated the establishment or operationalization of an integrated policy/strategy/plan which increases their ability to … foster low greenhouse gas emissions development…
12 Responsible Consumption and Production
12.2. By 2030, achieve the sustainable management and efficient use of natural resources
12.2.2. Domestic material consumption, domestic material consumption per capita, and domestic material consumption per GDP
4 Quality Education
4.7. By 2030, ensure that all learners acquire the knowledge and skills needed to promote sustainable development…
Training sessions (internal) or conference presentations (external)
B.6.1 Explanation of methodological choices/approaches for estimating the SDG
Impact
>>To be completed prior to formal submission.
B.6.2 Data and parameters fixed ex ante
SDG13 Climate Action and SDG 12 Responsible Consumption and Production
Since the descriptions of the specific indicators as shown in the right column of the
table above (Section B.6) are long, they are abbreviated by the indicator number in
the tables below and in the tables in section B.7.1. Note that the tables below
correspond to parameters used for both SDG 13 and SDG 12.
Copy the table for each piece of data and parameter; use headings to group parameter tables by SDG
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14 Climate Security and Sustainable Development
Relevant SDG Indicator SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1;and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter 𝑁𝐶𝑉!, i = Residual fuel oil
Unit TJ/Gg = GJ/tonne
Description Net calorific value of the fuel type i = Residual fuel oil
Source of data IPCC, 2006, Volume 2, Table 1.2. Note that IPCC issued a 2019 Refinement to 2006 IPCC (2006. However, this table was not modified.
Value(s) applied 40.4
Choice of data or Measurement methods and procedures
None
Purpose of data Calculation of baseline and project emissions
Additional comment Standard fuel, hence IPCC data used. Alternatively, IMO data may be used, see below.
Relevant SDG Indicator SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter 𝑁𝐶𝑉!, i = Marine diesel
Unit TJ/Gg = GJ/tonne
Description Net calorific value of the fuel type i = Marine diesel
Source of data IPCC, 2006, Volume 2, Table 1.2
Value(s) applied 43.0
Choice of data or Measurement methods and procedures
None
Purpose of data Calculation of baseline and project emissions
Additional comment Standard fuel, hence IPCC data used. Alternatively, IMO data may be used, see below.
Relevant SDG Indicator SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
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Data / Parameter 𝑁𝐶𝑉!, i = Very low sulphur fuel oil (VLSFO)
Unit TJ/Gg = GJ/tonne
Description Net calorific value of the fuel type i = Very low sulphur fuel oil
Source of data IPCC does not provide values for this new fuel standard. Industry value used. https://integr8fuels.com/wp-content/uploads/2019/12/Integr8-Research-2019-12-Calorific-value-analysis.pdf
Value(s) applied 41.6
Choice of data or Measurement methods and procedures
None
Purpose of data Calculation of baseline and project emissions
Additional comment Very low sulphur fuel (VLSFO) has sulphur content between 0.1% and 0.5%. Ultra low sulphur fuel oil (ULSFO) has sulphur content below 0.1%.
Relevant SDG Indicator SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter 𝑁𝐶𝑉!, i = Ultra low sulphur heavy fuel oil
Unit TJ/Gg = GJ/tonne
Description Net calorific value of the fuel type i = Ultra low sulphur heavy fuel oil
Source of data IPCC does not provide values for this new fuel standard. Industry value used. https://integr8fuels.com/wp-content/uploads/2019/12/Integr8-Research-2019-12-Calorific-value-analysis.pdf
Value(s) applied 42.4
Choice of data or Measurement methods and procedures
None
Purpose of data Calculation of baseline and project emissions
Additional comment
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16 Climate Security and Sustainable Development
Relevant SDG Indicator SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter 𝐸𝐹!!!,!, i = Residual fuel oil
Unit kg/GJ
Description CO2 emission factor of fuel type i = Residual fuel oil
Source of data IPCC, 2006, Table 3.5.2
Value(s) applied 77.4
Choice of data or Measurement methods and procedures
None
Purpose of data Calculation of baseline and project emissions
Additional comment Standard fuel, hence IPCC data used. Alternatively, IMO data may be used, see below.
Relevant SDG Indicator SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter 𝐸𝐹!!!,!, i = Marine diesel
Unit kg/GJ
Description CO2 emission factor of fuel type i = Marine diesel
Source of data IPCC, 2006, Table 3.5.2. Note that the 2019 “Refinement” of IPCC (2006) did not include Vol. 2, Chapter 3 “Mobile emissions”.
Value(s) applied 74.1
Choice of data or Measurement methods and procedures
None
Purpose of data Calculation of baseline and project emissions
Additional comment Standard fuel, hence IPCC data used. We do not expect this value to have changed since the IPCC (2006) compilation.
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17 Climate Security and Sustainable Development
Relevant SDG Indicator SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter 𝐸𝐹!!!,!, i = Very low sulphur heavy fuel oil
Unit kg/GJ
Description CO2 emission factor of fuel type i = Very low sulphur heavy fuel oil
Source of data IPCC, 2006, Table 3.5.2 for residual fuel oil
Value(s) applied 77.4 (See Additional comment, below)
Choice of data or Measurement methods and procedures
None
Purpose of data Calculation of baseline and project emissions
Additional comment As noted in the previous item, the 2019 “Refinement” of IPCC (2006) did not include Vol. 2, Chap. 3 “Mobile emissions”. Value assumed to be the same as for residual fuel oil, as per IPCC (2006). Value may be updated if more recent sources are available.
Relevant SDG Indicator SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1;and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter 𝐸𝐹!!!,!, i = Ultra low sulphur heavy fuel oil
Unit kg/GJ
Description CO2 emission factor of fuel type i = Ultra low sulphur heavy fuel oil
Source of data To be determined. See comment.
Value(s) applied 77.4 (tentative value, See Additional comment, below)
Choice of data or Measurement methods and procedures
None
Purpose of data Calculation of baseline and project emissions
Additional comment Properties for this new fuel are currently not available. However, as soon as it is available, it is expected that IMO will publish the data.
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SDG 4 Quality Education
There are no data and parameters fixed ex ante for this SDG.
B.6.3 Ex ante estimation of SDG Impact
>>
Sustainable Development Goal Ex-ante estimation of SDG Impact
13 Climate Action (mandatory)
109,688 tCO2
12 Responsible Consumption and Production
34,536 tonnes of fuel savings
4 Quality Education
Estimated 10 training sessions and conference presentations, including both within company as well as external, assuming two per year for the duration of the crediting period.
B.6.4 Summary of ex ante estimates of each SDG Impact
SDG 13. Climate change mitigation. The indicator is tCO2 emissions reduction. The
methodology requires the use of baseline data to establish a relationship of ship fuel
consumption to ship speed and other parameters. Using this relationship, a dynamic
baseline fuel consumption and emissions are determined for each trip in the project
scenario. Ex-ante fuel savings are estimated as a % of fuel consumption, itself
determined by ship size, distance travelled in a year and a fuel consumption rate.
Emissions reduction are determined by fuel savings multiplied by an emissions factor
for the fuel consumption in question. Thus there are no separate estimates for
baseline and project emissions, rather a direct estimate of emissions reduction. These
estimates, that will be detailed in an Excel workbook in the formal submission are
summarized below.
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Year Baseline estimate
Project estimate
Net benefit
Year 1 7,862
Year 2 26,755
Year 2 26,755
Year 4 26,755
Year 5 26,755
Total 109,688
Total number of
crediting years
5 (Five)
Annual average over the crediting period
21,938
B.7. Monitoring plan
B.7.1 Data and parameters to be monitored
General comments on all the data tables in this section:
• Emissions reduction is determined from a regression analysis of baseline fuel consumption and from daily / voyage measurements during the project period. Hence, for each of the variables below, the row “Data applied” is not applicable, since all the data tables are needed to determine emissions reduction. In some cases, data are needed to disqualify ships from participating in the VPA or to limit the period over which emissions reduction may be credited. Hence in all tables below, the row “Data applied” is filled in as “N.A.” (not applicable).
• Emissions reduction is determined by comparing fuel consumption for each day /voyage in the project fuel consumption with the fuel that the ship would have consumed under similar conditions in the baseline period (determined by regression analysis of data over the entire baseline period). Hence the table row “Purpose of data” cannot be separated into items needed for the determination of baseline and project emissions. Hence in all tables below, the row “Purpose of data” is filled in as “N.A.” (not applicable).
For each participating ship in the VPA record the data shown in the following tables:
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Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter j
Unit None
Description Ship identification (IMO) number for the jth ship in the project activity. Also name of ship.
Source of data Ship owner
Value(s) applied N.A. (see Notes above tables)
Measurement methods and procedures
None, IMO number is issued by the International Maritime Organisation
Monitoring frequency Once, when the ship is retrofitted.
QA/QC procedures Ship identification and name can be verified against public data bases, such as vesselfinder.com and marinetraffic.com
Purpose of data N.A. (see Notes above tables)
Additional comments This is a record of the ships where retrofit measures have been implemented.
Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter Date_Retr(j)
Unit Date
Description Date on which the Retrofits are finished on ship j.
Source of data Ship owner and / or operator where retrofits are installed
Value(s) applied Depends on each ship.
Measurement methods and procedures
Recorded at the location where the retrofits are applied.
Monitoring frequency Once, when the ship is retrofitted with energy efficiency measures.
QA/QC procedures Records/documentation to be provided by shipowner.
Purpose of data Date is used in the calculations, for determining days since retrofits were applied.
Additional comments Corresponds to project scenario
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Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter Retrofits applied to ship (j)
Unit -
Description Retrofits applied to ship j.
Source of data Ship owner
Value(s) applied Depends on each ship.
Measurement methods and procedures
Recorded at the location where the retrofits are applied.
Monitoring frequency Once, when the ship is retrofitted.
QA/QC procedures Records/documentation to be provided by shipowner.
Purpose of data Needed to ensure that retrofits qualify under GS methodology
Additional comments Corresponds to project scenario
Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter Main engine fuel (j)
Unit -
Description Main engine fuel in ship j.
Source of data Ship operator
Value(s) applied Depends on ship and refuelling event.
Measurement methods and procedures
None, qualitative information
Monitoring frequency The type of fuel is noted at each fuel purchase.
QA/QC procedures Fuel type should be confirmed with fuel purchase invoices.
Purpose of data Needed for calculation of fuel energy content and emissions factor.
Additional comments Corresponds to both baseline and project scenarios. Any changes from baseline to project scenario should be noted.
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Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter Auxiliary engine fuel (j)
Unit -
Description Main engine fuel in ship j.
Source of data Ship operator
Value(s) applied Depends on ship and refuelling event.
Measurement methods and procedures
None, qualitative information
Monitoring frequency The type of fuel is noted at each fuel purchase.
QA/QC procedures Fuel type should be confirmed with fuel purchase invoices.
Purpose of data Needed for calculation of fuel energy content and emissions factor.
Additional comments Corresponds to both baseline and project scenarios. Any changes from baseline to project scenario should be noted.
Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter Change in fuel at the same time as the application of energy efficiency retrofits
Unit -
Description Engine or other modifications to allow for a different fuel to be used
Source of data Ship operator with documentation from third party (where applicable)
Value(s) applied Depends on ship
Measurement methods and procedures
None, qualitative information
Monitoring frequency Once at time of ship energy efficiency retrofits
QA/QC procedures Any changes in fuel type to be determined from ship logs before and after ship retrofits.
Purpose of data Needed for calculation of fuel energy content and emissions factor.
Additional comments
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For long voyages, ships are at sea between ports, and certain data are recorded in ship logs. These are normally called “Noonday data”, since the data are recorded at noon of each day. For ships operating in long routes, for each day of both the baseline and the project period, each of the following data variables should be recorded. For ships operating on shorter voyages, typically lasting less than a couple of days, “Voyage data” need to be recorded. However, all ships in this project operate on long routes, so “Voyage data” are not needed.
Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter Date
Unit -
Description Calendar date
Source of data Ship operator, ship logs
Value(s) applied Dates, as recorded
Measurement methods and procedures
Calendar or automatic clock
Monitoring frequency Daily
QA/QC procedures Recorded date may be compared with date recorded before and after date in question, to ensure that they are in sequence.
Purpose of data Calculation procedure as specified in methodology
Additional comments
Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter Daily distance (nautical miles)
Unit Nautical miles
Description Distance travelled in last day, since last daily record
Source of data Ship operator (ship logs)
Value(s) applied Distance travelled, as recorded in ship logs
Measurement methods and procedures
AIS / GPS
Monitoring frequency Daily
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QA/QC procedures Distance, time elapsed and average speed may be cross-checked to detect transcription or other errors. In some cases, a correction may be possible, else data item should be deleted.
Purpose of data Needed to determine ship speed (except when directly recorded), which is the main determination of fuel consumption rate, needed in methodology calculations.
Additional comments
Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter Daily steaming time (hours)
Unit Hours
Description Hours of sailing since last daily record
Source of data Ship operator, in ship logs
Value(s) applied Travel hours as recorded in ship logs
Measurement methods and procedures
Clock
Monitoring frequency Daily
QA/QC procedures Distance, time elapsed and average speed may be cross-checked to detect transcription or other errors. In some cases, a correction may be possible, else data item should be deleted.
Purpose of data Together with distance travelled, used to determine ship speed (except when directly recorded), which is the main determination of fuel consumption rate, needed in methodology calculations.
Additional comments
Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter V
Unit Knots
Description Average daily speed through water since last daily record
Source of data Ship operator, in ship logs
Value(s) applied As recorded in ship logs for the day in question
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Measurement methods and procedures
Calculated from previous two data variables.
Monitoring frequency Daily
QA/QC procedures Recorded speed can be compared with distance travelled and time, so that anomalous recordings can be corrected or data item eliminated.
Purpose of data Ship speed is the most important determinant of fuel consumption rate.
Additional comments
Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter Sea state (Beaufort scale)
Unit Beaufort number
Description Sea state, noted at the time of daily data recording
Source of data Ship operator
Value(s) applied As recorded in ship logs for the day in question
Measurement methods and procedures
Observation
Monitoring frequency Daily
QA/QC procedures None, since the data depends on observations.
Purpose of data Very high values of sea state correspond to stormy conditions. Data for these conditions are not considered for analysis in the baseline or project periods.
Additional comments
Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter Vessel condition
Unit Ballast/Loaded, or displacement
Description Loading condition of ship at the time of data recording
Source of data Ship operator, in ship logs
Value(s) applied As recorded in ship logs, for the period in question.
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Measurement methods and procedures
Ship logs will indicate vessel loading condition
Monitoring frequency Daily. However, value will not change significantly during any voyage
QA/QC procedures Loading condition recorded as Ballast/Laden can be compared with ship draft or displacement when recorded.
Purpose of data For some ship categories (see below), performance is substantially different for loaded and ballast conditions. Hence data for these two conditions need to be analyzed separately, both for baseline and project.
Additional comments Loading condition is only relevant for certain ship categories, such as bulk loader, tanker, etc.
Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter FC(ME)
Unit Tonnes
Description Fuel consumption of the main engine since last daily record
Source of data Ship operator, in ship logs
Value(s) applied
Measurement methods and procedures
Fuel flow meter
Monitoring frequency Daily
QA/QC procedures Calibration of fuel flow meter, periodic dip test on tanks
Purpose of data Fuel consumption data are essential for the determination of energy consumption and emissions.
Additional comments When same tank supplies for than one engine, or other non-engine equipment, the dip test can only be compared with the sum of all flow meters
Relevant SDG Indicator
SDG 13: Climate change mitigation (reduced GHG emissions), Indicator 13.2.1; and SDG 12: Energy efficiency improvement (reduced fossil fuel use), Indicator 12.2.2
Data / Parameter FC(AE)
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Unit Tonnes
Description Daily fuel consumption of the auxiliary engine(s) since last daily record
Source of data Ship operator, in ship logs
Value(s) applied As recorded in ship logs
Measurement methods and procedures
Fuel flow meter
Monitoring frequency Daily
QA/QC procedures Calibration of fuel flow meter, periodic dip test on tanks
Purpose of data Fuel consumption data are essential for the determination of energy consumption and emissions.
Additional comments When same tank supplies for than one engine, or other non-engine equipment, the dip test can only be compared with the sum of all flow meters
The parameters related to SDG 4: “Quality education”, are not monitored on a ship-by-ship basis.
These are listed below.
Relevant SDG Indicator SDG 4: Quality Education. Parameter within Target 4.7. Education and training for the transmission of knowledge and skills needed to promote sustainable development, Indicator 4.7.1
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Data / Parameter Number of training sessions
Unit N.A.
Description Training sessions undertaken by Golden Union Shipping Co. (a) for its own staff, affiliates and related stakeholders, including sustainable development benefits of energy efficiency retrofits; and (b) Presentations by Golden Union Shipping Co. related to the sustainable development benefits of energy efficiency retrofits, for shipping industry stakeholders, including for example the International Maritime Organisation, shipping conferences, other industry conferences.
Source of data Records kept by Golden Union Shipping Co.
Measurement methods and procedures
N.A.
Monitoring frequency Annual
QA/QC procedures Since the parameter is based on company records of events, there are no QA/QC procedures as such.
Purpose of data To determine training provided to Golden Union Shipping Co. employees, affiliates and related stakeholders on the sustainable development benefits of the energy efficiency retrofits.
Additional comments
B.7.2 Sampling plan
>>There is no sampling in the monitoring plan for this project.
B.7.3 Other elements of monitoring plan
>>
SECTION C. DURATION AND CREDITING PERIOD
C.1. Duration of project
C.1.1 Start date of project
>> 8 June 2019 (date on which first ship in this project received energy efficiency
retrofits).
C.1.2 Expected operational lifetime of project
>>Ten years, 0 months. Most energy efficiency measures applied are mechanical
devices that should have a long lifetime. We conservatively assume a lifetime of 10
years.
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C.2. Crediting period of project
C.2.1 Start date of crediting period
>>1 Nov. 2019 (assuming a Design Certification date of 1 Nov. 2021)
C.2.2 Total length of crediting period
>> Five years, ending 31 Oct. 2024
This initial crediting period of five (5) years could be subject to one (1) potential Certification Renewal/Cycle submission.
SECTION D. SUMMARY OF SAFEGUARDING PRINCIPLES AND GENDER SENSITIVE ASSESSMENT
D.1 Safeguarding Principles that will be monitored
A completed Safeguarding Principles Assessment is in Appendix 1, ongoing monitoring
is summarised below.
Principles Mitigation Measures added to the Monitoring Plan
All Principles
No mitigation measures are needed,
since there is either no relevance or
no negative impact on any of the Safeguarding Principles.
D.2. Assessment that project complies with GS4GG Gender Sensitive
requirements:
To be completed
Question 1 - Explain how the project reflects the key issues and requirements of Gender Sensitive design and implementation as outlined in the Gender Policy?
Question 2 - Explain how the project aligns with existing country policies, strategies and best practices
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Question 3 - Is an Expert required for the Gender Safeguarding Principles & Requirements?
Question 4 - Is an Expert required to assist with Gender issues at the Stakeholder Consultation?
SECTION E. SUMMARY OF LOCAL STAKEHOLDER CONSULTATION Note: Current version of PDD is being submitted to Gold Standard for Preliminary
Review. Stakeholder consultation session planning is underway, to be conducted in
the coming weeks.
The below is a summary of the 2 step GS4GG Consultation for monitoring purposes.
Please refer to the separate Stakeholder Consultation Report for a complete report on
the initial consultation and stakeholder feedback round.
E.1 Summary of stakeholder mitigation measures
>>
E.2 Final continuous input / grievance mechanism
Method Include all details of Chosen Method (s) so that they may be understood and, where relevant, used by readers.
Continuous Input / Grievance
Expression Process Book
(mandatory)
GS Contact (mandatory) help@goldstandard.org
Other
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APPENDIX 1 - SAFEGUARDING PRINCIPLES ASSESSMENT
Complete the Assessment below and copy all Mitigation Measures for each Principle into SECTION D above. Please refer to the
instructions in the Guide to Completing this Form.
Assessment Questions/ Requirements
Justification of Relevance (Yes/potentially/no)
How Project will achieve Requirements through design, management or risk mitigation.
Mitigation Measures added to the Monitoring Plan (if required)
Principle 1. Human Rights
1. The Project Developer and the Project shall respect internationally proclaimed human rights and shall not be complicit in violence or human rights abuses of any kind as defined in the Universal Declaration of Human Rights
2. The Project shall not discriminate with regards to participation and inclusion
No. There is no relevance to the project since the project comprises retrofits to ships in operation. The retrofits would be applied at a location where ship maintenance is undertaken.
Note: project has no negative impact on any of the Safeguarding Principles. Hence no action would be needed for this or any other principle.
No mitigation measures are needed, since there is either no relevance or no negative impact on any of the Safeguarding Principles.
Principle 2. Gender Equality
1. The Project shall not directly or indirectly lead
No negative impacts. Project proponent has employment
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to/contribute to adverse impacts on gender equality and/or the situation of women
2. Projects shall apply the principles of nondiscrimination, equal treatment, and equal pay for equal work
3. The Project shall refer to the country’s national gender strategy or equivalent national commitment to aid in assessing gender risks
4. (where required) Summary of opinions and recommendations of an Expert Stakeholder(s)
policies in place to ensure no discrimination based on gender.
Principle 3. Community Health, Safety and Working Conditions
1. The Project shall avoid community exposure to increased health risks and shall not adversely affect the health of the workers and the community
The project comprises retrofits to ships in operation. These retrofits are measures that reduce ship fuel consumption, and therefore do not imply any negative health impact.
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Principle 4.1 Sites of Cultural and Historical Heritage
Does the Project Area include sites, structures, or objects with historical, cultural, artistic, traditional or religious values or intangible forms of culture?
Not applicable. The project activity is undertaken at locations where ships receive maintenance requiring the ship to be removed from water. None of these activities affect critical cultural heritage. This is true for the project activity (ship retrofits to save fuel) as well as the baseline scenario.
>>
Principle 4.2 Forced Eviction and Displacement
Does the Project require or cause the physical or economic relocation of peoples (temporary or permanent, full or partial)?
No. No human settlements are affected.
>>
Principle 4.3 Land Tenure and Other Rights
a. Does the Project require any change, or have any uncertainties related to land tenure arrangements and/or access rights, usage rights or land ownership?
b. For Projects involving land use tenure, are there any uncertainties with regards to
No. Project activity involves ships, which are at sea.
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land tenure, access rights, usage rights or land ownership?
>>
Principle 4.4 - Indigenous people
Are indigenous peoples present in or within the area of influence of the Project and/or is the Project located on land/territory claimed by indigenous peoples?
No. No indigenous people affected.
>>
Principle 5. Corruption
1. The Project shall not involve, be complicit in or inadvertently contribute to or reinforce corruption or corrupt Projects
No. Project activity involves transactions between private parties: Golden Union, the ship owner, with the manufacturers of the retrofit devices, and operators where the retrofits are installed. There is little scope for corruption.
Principle 6.1 Labour Rights
1. The Project Developer shall ensure that all employment is in compliance with national
Project Owner ensures that all employment is in compliance with national and other applicable laws, including laws surrounding child labour and worker and employee working
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labour occupational health and safety laws and with the principles and standards embodied in the ILO fundamental conventions
2. Workers shall be able to establish and join labour organisations
3. Working agreements with all individual workers shall be documented and implemented and include:
a) Working hours (must not exceed 48 hours per week on a regular basis), AND
b) Duties and tasks, AND c) Remuneration (must
include provision for payment of overtime), AND
d) Modalities on health insurance, AND
e) Modalities on termination of the contract with provision
conditions.
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for voluntary resignation by employee, AND
f) Provision for annual leave of not less than 10 days per year, not including sick and casual leave.
4. No child labour is allowed (Exceptions for children working on their families’ property requires an Expert Stakeholder opinion)
5. The Project Developer shall ensure the use of appropriate equipment, training of workers, documentation and reporting of accidents and incidents, and emergency preparedness and response measures
Principle 6.2 Negative Economic Consequences
1. Does the project cause negative economic consequences during and
No. The project comprises retrofits to ships in operation, which would reduce fuel costs
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after project implementation?
and freight shipping costs, favouring trade. There are no negative economic consequences. >>
Principle 7.1 Emissions
Will the Project increase greenhouse gas emissions over the Baseline Scenario?
No. The project would reduce GHG emissions with respect to the baseline.
>>
Principle 7.2 Energy Supply
Will the Project use energy from a local grid or power supply (i.e., not connected to a national or regional grid) or fuel resource (such as wood, biomass) that provides for other local users?
No. The project activity comprises retrofits to ships in operation. The locations where these would be installed are grid connected locations, possibly with commercial fuel consumption. There would be no conflict with local users.
>>
Principle 8.1 Impact on Natural Water Patterns/Flows
Will the Project affect the natural or pre-existing pattern of watercourses, ground-water and/or the watershed(s) such as high seasonal flow variability, flooding potential, lack of aquatic connectivity or
No. The project activity comprises retrofits to ships in operation. There is no impact on water resources.
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water scarcity?
>>
Principle 8.2 Erosion and/or Water Body Instability
a. Could the Project directly or indirectly cause additional erosion and/or water body instability or disrupt the natural pattern of erosion?
b. Is the Project’s area of influence susceptible to excessive erosion and/or water body instability?
No. Project activity involves ships. Hence no impact on erosion.
>>
Principle 9.1 Landscape Modification and Soil
Does the Project involve the use of land and soil for production of crops or other products?
No. Project activity does not use agricultural land.
>>
Principle 9.2 Vulnerability to Natural Disaster
Will the Project be susceptible to or lead to increased vulnerability to wind, earthquakes, subsidence,
No. Project activity involves ships. Hence no impact that could lead to natural disasters.
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landslides, erosion, flooding, drought or other extreme climatic conditions?
>>
Principle 9.3 Genetic Resources
Could the Project be negatively impacted by or involve genetically modified organisms or GMOs (e.g., contamination, collection and/or harvesting, commercial development, or take place in facilities or farms that include GMOs in their processes and production)?
No. Project activity does not involve agriculture, nor any GMOs.
>>
Principle 9.4 Release of pollutants
Could the Project potentially result in the release of pollutants to the environment?
No. Project activity comprises retrofits to ships in operation. These would reduce fuel use. Insofar as there is some air pollution from fuel combustion, the project activity reduces pollutants released to the environment.
>>
Principle 9.5 Hazardous and Non-hazardous Waste
Will the Project involve the No. Project activity comprises
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manufacture, trade, release, and/ or use of hazardous and non-hazardous chemicals and/or materials?
retrofits to ships in operation. The retrofits are the installation of mechanical devices, involving no release of hazardous chemicals or non-hazardous chemicals. >>
Principle 9.6 Pesticides & Fertilisers
Will the Project involve the application of pesticides and/or fertilisers?
No. Project activity relates to ships, with no application of pesticides or fertilisers.
>>
Principle 9.7 Harvesting of Forests
Will the Project involve the harvesting of forests?
No. The project activity comprises retrofits to ships in operation, with no impact on forests.
>>
Principle 9.8 Food
Does the Project modify the quantity or nutritional quality of food available such as through crop regime alteration or export or economic incentives?
No. The project activity comprises retrofits to ships in operation, with no impact on food availability.
>>
Principle 9.9 Animal husbandry
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Will the Project involve animal husbandry?
No. The project activity comprises retrofits to ships in operation, with no relevance to animal husbandry.
>>
Principle 9.10 High Conservation Value Areas and Critical Habitats
Does the Project physically affect or alter largely intact or High Conservation Value (HCV) ecosystems, critical habitats, landscapes, key biodiversity areas or sites identified?
No. The project activity comprises retrofits to ships in operation, with no impact on high value ecosystems.
>>
Principle 9.11 Endangered Species
a. Are there any endangered species identified as potentially being present within the Project boundary (including those that may route through the area)?
b. Does the Project potentially impact other areas where endangered species may be present through transboundary affects?
No. The project activity comprises retrofits to ships in operation, with no impact on endangered species. There are no transboundary effects.
>>
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APPENDIX 2- CONTACT INFORMATION OF PROJECT PARTICIPANTS
Organization name Golden Union Shipping Company S.A.
Registration number with relevant authority
Street/P.O. Box 32 Dionysiou Solomou
Building
City Lykovrisi
State/Region
Postcode 14123
Country Greece
Telephone +30 2104061000
Website goldenunion.gr
Contact person Mr. Marinos Sarantis
Title Mr.
Salutation
Last name Sarantis
Middle name
First name Marinos
Department Technical Superintendent
Mobile
Direct tel. +30 2104061000 (212)
Personal e-mail msarantis@goldenunion.gr
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Organization name The FReMCo Corporation Inc.
Registration number
with relevant authority
Street/P.O. Box 2470 No. 1 Side Road
Building -
City Burlington
State/Region Ontario
Postcode L7P 0S2
Country Canada
Telephone 1.905.320.8181
Fax
E-mail amorris@fremco.com
Website http://www.fremco.com/
Contact person Alison Morris
Title
Salutation Mrs.
Last name Morris
Middle name -
First name Alison
Department
Mobile -
Direct fax
Direct tel. 1.905.320.8181
Personal e-mail amorris@fremco.com
Organization name MGM Innova Consulting LLC
Registration number
with relevant authority
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Street/P.O. Box 2 South Biscayne Blvd. Suite 2160
Building -
City Miami
State/Region Florida
Postcode 33131
Country USA
Telephone 1.786.975.2188
Fax -
E-mail gdutt@mgminnova.com
Website http://www.mgminnovagroup.com/
Contact person
Title
Salutation Dr.
Last name Dutt
Middle name -
First name Gautam
Department
Mobile -
Direct fax
Direct tel. 1.786.975.2188
Personal e-mail gdutt@mgminnova.com
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APPENDIX 3- LUF ADDITIONAL INFORMATION
Risk of change to the Project Area during Project Certification Period:
Risk of change to the Project activities during Project Certification Period:
Land-use history and current status of Project Area:
Socio-Economic history:
Forest management applied (past and future)
Forest characteristics (including main tree species planted)
Main social impacts (risks and benefits)
Main environmental impacts (risks and benefits)
Financial structure
Infrastructure (roads/houses etc):
Water bodies:
Sites with special significance for indigenous people and local communities - resulting from the Stakeholder Consultation:
Where indigenous people and local communities are situated:
Where indigenous people and local communities have legal rights, customary rights or sites with special cultural, ecological, economic, religious or spiritual significance:
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APPENDIX 4-SUMMARY OF APPROVED DESIGN CHANGES
Please refer to Design Change Requirements for more information on procedures
governing Design Changes
Revision History
Version Date Remarks
1.2 14 October
2020
Hyperlinked section summary to enable quick access to key sections Improved clarity on Key Project Information Inclusion criteria table added Gender sensitive requirements added Prior consideration (1 yr rule) and Ongoing Financial Need added Safeguard Principles Assessment as annex and a new section to include applicable safeguards for clarity Improved Clarity on SDG contribution/SDG Impact term used throughout Clarity on Stakeholder Consultation information required Provision of an accompanying Guide to help the user understand detailed rules and requirements
1.1 24 August
2017
Updated to include section A.8 on ‘gender sensitive’ requirements
1.0 10 July
2017
Initial adoption
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