UNIDO CDM METHODOLOGY FOR HYDROCARBON … · design of the methodology project and to develop the...
Transcript of UNIDO CDM METHODOLOGY FOR HYDROCARBON … · design of the methodology project and to develop the...
UNIDO
CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION REPORT ON FEASIBILITY PHASE
Zurich, 11 May 2007
Othmar Schwank
CDM-HYREF-REPORT_070508.DOC
INFRAS
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION | CONTENT
CONTENT
1. INTRODUCTION _______________________________________________ 3
2. TASK (JOB DESCRIPTION 27.2.2007)______________________________ 3
3. RESULTS OF THE CONSULTATIONS______________________________ 4
3.1. CONSULTATIONS 9.3. TO 15.03.2007 _______________________________ 4
3.2. FINDINGS DURING MISSION (20.3.2007)_____________________________ 5
3.3. NEXT STEPS ___________________________________________________ 8
ANNEX 1 ___________________________________________________________ 9
ANNEX 2 __________________________________________________________ 11
HYREF-CDM: METHODOLOGY FOR HYDROCARBON-BASED DOMESTIC
REFRIGERATION CONCEPT NOTE UPDATED _______________________ 11
ANNEX 3 __________________________________________________________ 26
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION | INTRODUCTION
1. INTRODUCTION
The entry proposal developing a “CDM methodology for hydrocarbon-based refrigeration”
had been accepted in a joint meeting between UNIDO and seco on February 8th 2007. The
concept note developed subsequently (dated 20th February 2007) on basis of the entry pro-
posal suggested to approach the HYREF methodology development in steps:
1. Step 1 consists of a short (1–2 months) feasibility phase to define the institutional
design of the methodology project and to develop the TORs for the different service provid-
ers such as the partners on Govt side, IIT Delhi (research partner for energy efficiency and
policy advise) and the nodal international and national service providers (e.g. TERI). Based
on clear roles, the cooperation implementation modalities for developing a HYREF CDM
methodology under a UNIDO main phase mandate shall be specified. These implementation
modalities depend on the route chosen for methodology development (via the EB Tool “ad-
ditonality and baseline” or through “sector benchmark”?). There are implications for Godrej
and Boyce M. Ltd as project proponent depending on option favoured for methodology de-
sign. The chances for winning the Bureau of Energy Efficiency or the Confederation for
Indian Industries CII as a “PoA entity” seem better with the more demanding benchmark
approach. The benchmark approach would be a step forward in establishing a level playing
field in the appliance market.
Hence a round of stakeholder consultations (in which present Swiss/NCCoPP partners shall
be involved) is considered an essential part of the feasibility mission. The institutional de-
sign needs to be finalized prior to being in a position to allocate clear cut roles to partners
and set out steps of the methodology development. The feasibility report shall provide sup-
plemental implementation modalities for the main phase UNIDO contracts.
2. Step 2 main phase: main phase shall be structured into “before” (Mai–July 2007)
and “after” (August–December 2007) submission of the HYREF methodology to Meth
Panel (defining targeted submission date is part of the feasibility mission . The institutional
architecture requires a “consortium” of service providers under different UNIDO contracts.
The methodology shall be submitted through a Designated Operational Entity (to be con-
tracted by UNIDO or the leading service provider) possibly by July 2007 and subsequently
walked through the comments by the Meth Panel.
2. TASK (JOB DESCRIPTION 27.2.2007) Othmar Schwank acting as the CDM Methodologies Expert will assess the feasibility of
preparing a CDM methodology for hydrocarbon-based refrigeration. Specifically, this will
require him to:
• To assess required stakeholder support, feasibility of schedule and cost.
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• To clarify data availability and accessibility, and the consistency of available data
with the necessary standards.
• To clarify in particular the institutional architecture of the methodology develop-
ment process.
• To define the sequence of tasks and the related schedule for this subproject with
milestones.
3. RESULTS OF THE CONSULTATIONS 3.1. CONSULTATIONS 9.3. TO 15.03.2007
During the mission of Stefan Kessler to India consultations took place in Delhi
(9./10.3.) with Axel Michalewa, GTZ (Pamposh Bhat) and Christoph Sutter (home based by
Othmar Schwank). The outcome of the first round of consultations had been summarized for
the briefing meeting with UNIDO in Delhi as follows:
• Do not put manufacturing and retrofitting of refrigerators into same methodol-
ogy
• For Methodology submission to Meth Panel we do not yet need the data of the
baselines, the numbers in the attached PDD can be indicative -> However the
described baseline has to be feasible once get through with method
• PoA (Programme of Activities) may not be required for refrigerator manufactur-
ing, as there are only 5-10 main players (Whirlpool, LG, Samsung, Videocon,
Godrej plus importing from China); PoA would be required for CDM method in
retrofit (>200 players)
• Way forward is complex, as Meth Panels views on PoA and benchmark have
not stabilized yet
From this we conclude for the process
• Do a method for fridge manufacturing (energy and refrigerant benefits) first
(early July) and assess retrofitting of old refrigerators (refrigerant only) as an
option in a second round (assessment up to approx September/October 2007)
• It is sufficient if data gaps with regard to energy of refrigerator population are
filled from July onwards (e.g. Mandate Prof Agarwal IITD, Industry Partners,
others – to be decided in main phase mission by Stefan Kessler/Christoph Sut-
ter)
• Complexity too high for bidding, as main phase tasks are still not stable for af-
ter this feasibility phase. Mainphase contains two steps:
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A) building HYREF CDM methodology and submission through DOE
B) Building benchmark/baseline along with PDD of project proponent
• -> Hypothesis: It seems preferable to go for reimbursable loan contracts (2x
20’000 $ fee ceiling) for a next phase for Stefan Kessler (infras), Christoph Sut-
ter (Southpolecarbon) and for up to 20’000EUR the local service provider (short
list call for proposals TERI and 2 others)
3.2. FINDINGS DURING MISSION (20.3.2007) List of interview partners comprised:
• Ajay Mathur and Ali Kaupp BEE;
• Mr. A.K. Asthana, Director or Mr Kalathyiyappan, Deputy Director
National Cleaner Production Centre
• Prof. R.S. Agarwal IITD, NCCoPP training partners (SGTB), Jaspal Singh,
HRS (trader for refrigerants and parts for service enterprises), Whirlpool
• Service Providers: TERI (Girish Sethi, Prosanto Pal, Jain), Zenith, Winrock in
process
Findings from stakeholder consultations
• Contract modalities: As per mail exchange Philippe Scholtès – Heinz Leuenberger pro-
ceeding with a sequence of reimbursable loan agreements is the preferred approach
• Discussion with Ned Clarence Smith and Heinz Leuenberger (UNIDO Vienna) con-
firmed this approach
• The Bureau of Energy Efficiency welcomes development of the proposed methodology
and furnishes the Expert with the energy efficiency standards for domestic refrigerators
entering in force by 1st April 2007.
• An out come of consultations during the UNIDO CDM/energy efficiency in Vienna 19th
March and consultations with Christoph Sutter is that besides the BEE standards field
verification of the energy consumption by isobutene refrigerators and a control group
will have to be done.
• Additional data on number of fielded no frost and direct cooled models were obtained
from Godrej (project proponent)
Findings on additionality:
• Since January HFC134a refrigerant price has fallen from 450-500 Rs/kg to 310-
370Rs/kg. HC blend, Icon HFC blend (DuPont) and CFC12 stay around 580-
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620 Rs/kg. This price drop of HFC134a makes demonstration of additionality
easier to be demonstrated.
• Given the unorganized nature of the Indian service sector this aggravates the
barrier situation for introducing isobuthan and preventing service sector enter-
prise just to HFC134a (or the traders selling refrigerant which actually contains
HFC134a).
Role for NCPC
• In mainphase phase 1b and 2 (July 2007– March 2008) servicing of old existing
appliances shall be assessed from a 2 pronged viewpoint: Look beyond refrig-
erators, target also food processing?
a) feasilility of CDM method “retrofit”
b) Scope for cleaner production initiative carrying best practices beyond 2010
when NCCoPP terminates -> link to South South cooperation?
Findings on CDM methodology development:
The findings regarding methodology design are summarised in Table 1.
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KEY ELEMENTS OF METHODOLOGY REFRIGERATOR MANUFACTURING
Issue Assessment/solution Comment
Energy efficiency bench-
mark
Individual schedules for frost free (schedule 1)
and direct cool (schedule 3) refrigerators avail-
able from BEE. Energy Baseline: to be defined as
*-rating (star * or star **); To be defined: user
pattern in a sample test
Schedules need to be ana-
lysed and understood; basi-
cally energy benchmark is
available
Carbon (kgCO2/kWh) base-
line: Indian Power sector
baseline as of March 07
available
Updating energy efficiency
benchmark
e.g. 1st update per 1.4.2009, afterwards every 3
years
Assess feasibility
Refrigerant benchmark and
additionality
Barrier approach to hydrocarbon technology,
market share below e.g. 20%1.
Data gaps exist on average refrigerant charge for
population fielded in 2005/006 or last 5 years
Internal data base BEE:
distribution of sold fridges by
volume?
-> TOR Indian service pro-
vider
Crediting period, Monitor-
ing
3X7 years, as refrigerator life is 15-20 years2.
Design monitoring scheme demonstrating abated
emissions on annual basis.
Critical threshold is 2012.
How to deal with energy
efficiency and refrigerant
emissions of refrigerators
older than 7 years (degrada-
tion effects)?
Requirement for “custo-
dian” of benchmark –
energy efficiency bench-
mark
Energy standard does not need custodian, as here
we have published schedules and data by BEE.
Need for field sample tests over lifetime?
BEE welcomes this method;
is concerned about develop-
ment in refrigerant market,
sees policy relevance
Requirement for “custo-
dian” of benchmark –
refrigerant benchmark,
incl. updating refrigerant
climate benefits
Means of verification of emission factors (estab-
lished based on information obtained from
Godrej) to be worked out yet
Needs careful assessment ->
TOR Indian service provider
Relation between benchmark
for overall market and manu-
facturer specific fleet.
What is key scope of phase
II July 07-March 08?
To establish data evidence for benchmark on
energy eff. and refrigerant, develop PDD with
project proponent GODREJ
Initiate field sample test
through Godrej prior to July;
launch independent verifica-
tion sample from July on-
wards
Table 1 Findings on Methodology development.
For details refer to Annex 2
1 Godrej and Boyce had assessed carbon finance when converting to hydrocarbon refrigerant in 2001: See Schwank
(2001) HFC Reduction as a CDM Option, a crosscutting Issue under the Kyoto and the Montreal Protocol, JIQuarterly
Vol 7, April 2001 2 For monitoring of baseline and emission reduction the approaches proposed in methodology NM0197 for chillers or AM
046 Distribution of efficient light bulbs to households shall be taken into consideration.
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3.3. NEXT STEPS
• Deliverables ensuring a smooth process:
- update of concept note for inviting proposals from Indian Service Providers
(see Annex 2)
- Drafting the JD for the Indian Service Provider (see Annex 3)
- Drafting the JD for the Project Coordinator/refrigeration expert and the CDM
Methodology Expert (see Annex 3)
• Report on meetings and on progress during mission including milestones and
timeline (summarized in this report)
Milestones and timeline as displayed in the figure below. For description of the content of
these phases refer to Annex 2. It was proposed to initiate the phase 1 methodology design
on 2nd May.
HYREF CDM
Project phases Apr May Jun Jul Aug Sept Oct Nov Dec Jan Feb Mrz
I Methodology design
IIa Main phase: Final methodology
including data evidence for
benchmark and PDD
IIb Main Phase Responding to Meth
Panel Comments
6 Intl cons. responding to Meth Panel
comments
2007
1 'Design mandate' internatl.
Consortium (INFRAS/Southpole
2 Indian Service Provider, Mandate
part I
3 Final methodology mandate Intl.
Cons (INFRAS/Southpole Carbon) incl.
submission through DOE
2008
Meetings, missions
Reports
7 Indian Service Provider responding
to comments
5. Mandate baseline data
(e.g. IITD)
4 Indian Service Provider, Mandate
part II
Inception
PHASE I PHASE IIa PHASE IIb
draft methodology submitted methodology
continued as required
Figure: Proposed phases and milestones in HYREF CDM methodology development
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION | ANNEX 1
ANNEX 1 JOB DESCRIPTION FEASIBILITY (27. February 2007) CLEANER TECHNOLOGY PROMOTION IN INDIA
US/IND/02/001/11-53
Post title: CDM Methodologies Expert Duration: 0.9 w/m, including mission Date required: 6 March 2007 Duty station: Home-based with mission to New Delhi, India, returning through Vienna (14-23
March 2007) Counterpart: UNIDO Delhi Office Duties: The CDM Methodologies Expert will assess the feasibility of preparing a CDM
methodology for hydrocarbon-based refrigeration. Specifically, this will require him/her to: • To assess required stakeholder support, feasibility of schedule and cost. • To clarify data availability and accessibility, and the consistency of available
data with the necessary standards. • To clarify in particular the institutional architecture of the methodology de-
velopment process • To define the sequence of tasks and the related schedule for this subproject
with milestones. In order to do this, the expert will:
Main duties
Expected
duration Location
Expected Results
Prepare mission programme 0.1 Home-based Draft TORs finalized
Consult with UNIDO UR, GoI-MOEF, IITD, Godrej & Boyce, South Pole Carbon, Cosmile, TERI, SCO-I, and other relevant national stakeholders
0.2 New Delhi Data issues settled, national institutional architecture settled
Consultations with GTZ and other interna-tional stakeholders
0.2 New Delhi Donor interest to participate assessed
De-brief UNIDO HQ on results of mission 0.1 Vienna Agreement on conclusions and recommendations of feasibility report
Write feasibility report 0.3 Home-based Reports finalized
Qualifications Knowledge of CDM rules. University Degree in engineering or a related discipline.
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Language English
Background See the project document Information
Travel With return from Delhi via Vienna by Austrian Airlines --------------------------------------------------------------- ABFLUG: ZURICH LH 5053 MI 14.MAR.2007 07:55 ANKUNFT: FRANKFURT 09:15 KLASSE: ECONOMY STATUS: OK OPERATED AS LX1070 BY LX EUROPEAN AIRLNS --------------------------------------------------------------- ABFLUG: FRANKFURT LH 752 MI 14.MAR.2007 11:10 ANKUNFT: HYDERABAD DO 15.MAR.2007 00:15 KLASSE: ECONOMY STATUS: OK --------------------------------------------------------------- ABFLUG: HYDERABAD IC 939 FR 16.MAR.2007 06:40 ANKUNFT: DELHI 08:40 KLASSE: ECONOMY STATUS: OK --------------------------------------------------------------- ABFLUG: DELHI OS 34 FR 23.MAR.2007 02:30 ANKUNFT: VIENNA 06:10 KLASSE: ECONOMY STATUS: OK --------------------------------------------------------------- ABFLUG: VIENNA OS 565 FR 23.MAR.2007 17:45 ANKUNFT: ZURICH 19:20 KLASSE: ECONOMY STATUS: OK ---------------------------------------------------------------
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION | ANNEX 2
ANNEX 2 HYREF-CDM: METHODOLOGY FOR HYDROCARBON-BASED DOMESTIC REFRIGERATION CONCEPT NOTE UPDATED
4th
/ 18th
April 2007
1. Background, Justification
The CDM National Strategy Study India was completed in March 2005. Since 2006, the
SECO/UNIDO Cleaner Technology Project has worked further on selected CDM case studies,
developing PDDs, particular in energy efficiency for the small scale industry sector. Since 2005,
the Swiss Agency for Development and Cooperation (SDC/DEZA) pursued the dissemination of
energy efficiency technologies under CoSmile through TERI. The results were recently discussed
in a round table discussion at the Delhi Sustainable Development Summit in which UNIDO also
participated. UNIDO will launch a Centre for South-South Technology cooperation in New Delhi
in mid February 2007.
SECO and the SCO–I Delhi had invited Swiss Cooperation Partners and the World Bank to a
brainstorming meeting on CDM development on Nov 6, 2006. This meeting concluded that CDM
could play an important role in the Swiss Cooperation Programme with India, and in the near
future efforts shall be directed to explore synergies as outlined in Figure 1.
Seco
CP/CT
DEZA
Energie-
projekteWB CF
Assist Synergies
NSS
Figure 1 Field of synergies between Swiss activities.
The SECO CT/CP as well as the SDC energy – environment programme (CoSmile) focussed so
far on energy efficiency in small scale industry, which requires bundling for making projects
CDMable. Establishing a bundling organisation as well as a bundling methodology typically re-
quires a time of 9–18 months. Developing CDM methodologies for the small scale industry clusters
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(such as for foundries/glass), are hence a complex exercise involving a larger number of stake-
holders. They may typically reach the stage for closing carbon finance deals not before the sec-
ond half of 20083.
SDC and GTZ, under the ECOFRIG project, cooperated since the early 1990ies with the Min. of
Environment of Forests to promote the transfer of the climate and ozone friendly hydro carbon
technology to Indian enterprises (refer to Annex 2). In 1999–2001, a case study into the CDM
potential of hydrocarbon refrigeration was conducted (Schwank 2001)4. The climate impact of
the ECOFRIG/HIDECOR/ NCCoPP5 projects was estimated in 2006 within the framework of the
SDC-CoSmile Project to compare the greenhouse gas emission reductions (HFCs expressed in
tCO2eq) with the energy efficiency gains of the disseminated CoSMILE technologies presented
at a side event of the Delhi Sustainable Development Summit (DSDS6) on 24th January. The es-
timation of the actual GHG abated by ECOFRIG/HIDECOR/ NCCoPP in 2005/06 results fell into
the same range of 30’000 tCO2eq7 shown by foundries or vertical shaft brick kilns. The largest
part of the actual emission abatement with hydrocarbon based refrigeration technology takes
place at small scale service enterprises. In the proposed CDM activity, these enterprises are asso-
ciated to Godrej & Boyce Mfg. Ltd., India as a possible CDM project proponent. The existing
business relations as well as the distribution/marketing channels under the service brand “Smart-
care” are in place, without the need to set up a new organisation. Hence hydrocarbon based re-
frigeration (HYREF8) has lower risks regarding “bundling”. It offers the chance to apply the new
“Programme of Activities” approach to methodology development which adds to the institutional
complexity (requirement of a “PoA entity” which could possibly be taken up by the Confedera-
tion of Indian Industry CII or the Bureau of Energy Efficiency BEE). If a methodology were to
materialise by late 2007/early 2008, it might attract a Swiss Buyer (e.g. Swiss Climate Cent
Foundation).
On January 8, 2007, a CT/CP meeting between SECO and the International Reference Centre
(IRC) took note of these developments and advised the IRC (INFRAS) to develop a proposal cum
TORs for HYREF CDM methodology development. The HYREF methodology proposal based
on pre-feasibility consultation made by Othmar Schwank in India 16–24th January 2007 with
3 On occasion of a side meeting between Girish Sethi TERI, Arun Kumar TARA and O. Schwank on the margins of the
DSDS on 23rd January 2007, Arun Kumar assessed the foundry cluster CDM not workable through the small scale meth-odology applied for vertical shaft brick kilns. If substantiated, the foundries cluster Belgaum would need an own CDM methodology.
4 Schwank 2001: HFC emission abatement as CDM option – a crosscutting issue under the Kyoto and the Montreal Protocol
, JIQuaterly. 5 NCCoPP = National CFC Consumption Phase out Plan, refer to www.nccopp.info 6 Delhi Sustainable Development Summit organised by TERI 22–-24th January 2007. 7 The abated emissions are projected to grow to 50'000 t CO2e by 2007/08 8 It is proposed to introduce HYREF as an abbreviation of this Methodology. Abbreviations of similar methods which could
emerge are HYCOM for commercial refrigeration and HYMAC for Mobile Car Air conditioners (Methodology submitted to CDM-EB/Meth Panel by Hychill Australia/Iran).
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Godrej and Boyce Mfg. Ltd, capitalising also on meeting opportunities on occasion of the Delhi
Sustainable Development Summit.
2. Objective, what will be the outcome of the HYREF-CDM Methodology?
The expected outcome of the proposed subproject implemented within the frame of CDM activi-
ties implemented under the SECO/UNIDO CT project is the development of a CDM methodol-
ogy for manufacturing of hydrocarbon based refrigerators. In order to simplify the complexity of
the methodological approach it is proposed to develop in a first step only a methodology for
manufacturing of climate friendly refrigerators and their use. Retrofitting of old refrigerators
could follow in a second step as and when the first methodology would have been accepted.The
target is a methodology accepted by the CDM Executive Board by spring 2008. The methodology
shall address the climate benefits resulting from the use of a low GWP refrigerant as well from
higher energy efficiency levels than the base standard of one or two star models under the re-
cently introduced energy labelling scheme in India. The methodology shall be developed based
on a benchmark approach. The specific situation of a “captive” system of hydrocarbon refrigerant
management developed by Godrej & Boyce (refer to figure 1) can be used for determination of
the emission baseline (emission factors) resulting from the use of refrigerants. Monitoring and
verification applicable for CDM activities of several project proponents in India and possibly in
other developing countries yet needs further specification. If other firms would wish to convert
from HFC134a to hydrocarbon refrigerant, the proposed methodology could be used to prepare a
firm specific project design document (PDD) using the same methodology which is, as regards
parameters used, specific for India. 4 main benefits are expected from the targeted carbon finance
flows under HYREF:
First: According to the IPCC 4th Assessment report (SPM WG1 of 2nd February 2007), halo-
carbons contribute +0.34 W/m2 to radiative forcing compared to +1.66W/m2 of CO2 (at 380
ppm or 7.2 Gt C emission levels for 2000-2005). Abating halocarbon emissions are among the
effective short term response measures for reducing radiative forcing up to 2030/2050.
Second: HYREF will attract additional investments into widening the supply of HC refriger-
ant to the Indian market, and thus make this supply a commercially fully viable business (this
objective has been targeted by the HIDECOR project, but due to barriers prevailing has still
not been achieved yet).
Third: HYREF will facilitate India’s compliance with the Montreal Protocol, as retrofit of
old, CFC12 based refrigerators to hydrocarbon refrigerant (compared to the costly option
HFC134a or blends of HFCs such as R-413a 9 which are currently introduced into the market,
see box “retrofit” in figure 1) will be made commercially more attractive with support of car-
bon finance.
9 R-413 (FC-218/HFC-134a/HC-600a ) is commercially available as ISCEON-MO49.
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Fourth: HYREF will establish a commercial incentive to convert manufacturing of new hy-
drocarbon refrigerators gradually to isobutane, which is the leading technology applied in A-
class, highly energy efficient refrigerators in the global market. Godrej & Boyce in manufac-
turing of refrigerators today still uses the propane/isobutane blend introduced as “green-
freeze” by Greenpeace and an East German manufacturer in the 1990ies.
For the development of the proposed HYREF methodology, the participation of Godrej & Boyce
is crucial, as the (so far confidential) manufacturing and process data of the enterprise does allow
the estimation of emission factors which is a crucial step in the development of a new methodol-
ogy. The captive hydrocarbon refrigerant supply system operated by Godrej & Boyce is unique
for India. Godrej & Boyce have on 16th January 2007 expressed interest to issue a formal EoI
letter to the SCO-I to expedite the process of methodology development. The chances of success
with regard to the establishment of a sector baseline for the GHG emissions caused by the use of
refrigerants as a part of a “benchmark” methodology are assessed as high10.
The crucial challenge in methodology development is the sector benchmark for energy efficiency
of the refrigerators fielded in India (use pattern of a test sample as well as reference sample:
availability and access to data for public domain). The Bureau of Energy Efficiency (BEE) has
established an efficiency standard for both frost free refrigerator as well as direct cooled refrig-
erator models for India’s energy labelling scheme for refrigerators. A revised labelling standard
classifying products into 5 energy efficiency classes enters into force on 1st April 2007.
10 Result of consultation with Godrej & Boyce on 16th January and with Prof R.S. Agarwal / IIT Delhi on 22nd January 2007. The emission factor estimation will have to be made for a representative model of the family of direct cooled refrigerators (e.g. 170l model) and one for a representative frost free model (e.g. 240l pentacool Frost-Free-model).
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GREENHOUSE GAS ABATEMENT IN DOMESTIC REFRIGERATION BY HYREF
initialemissions
lifetimeemissions
distributionlosses
HC refrigerantimport
2010Production volumes 2007-2010
Manufacturing Lifetime/Operation
refrigerantemissions
energyefficiency
Refrigerant benchmark (Share of HFC)
servicing
**
Energy efficiency benchmark
HC refrigerant filling/handling
cylinder
HC
****
1
2
3
4
Figure 2 Draft System delineation for the CDM methodology HYREF based on the case of manufacturing and servicing of
hydrocarbon refrigerators.
Figure 2 illustrates the 4 sources of emission abatement proposed to be included in HYREF (for
the example of project year 2010):
1) abatement of initial emissions of HFCs in manufacturing on account of HC refrigerator manu-
facturing in the year 2010 (better than refrigerant benchmark).
2) abatement of HFC distribution losses in handling and filling of refrigerant cylinders in the year
2010.
3) abatement of HFC servicing emissions on account of HC refrigerators manufactured between
2007 (project start) and 2010 and requiring servicing in year 2010.
4) operation of appliance fleet manufactured between 2007 (project start) and 2010 and being
more efficient than the sector benchmark for energy efficiency.
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3. How to get there? Proposed Schedule and Organisational Set up
The institutional arrangements and the stakeholder landscape is quite complex (Figure 4). In the
meeting between SECO and UNIDO on February 8th 2007 it was decided to take up the develop-
ment of the HYREF methodology as one of the CDM project cases under the SECO/UNIDO
cleaner technology project. Crucial know-how on hydrocarbon technology and the business case
is on the other hand now with INFRAS and Indian Partners involved in the
ECOFRIG/HIDECOR/NCCoPP project implementation. Another essential element is the CDM
methodology know-how (Programmatic activities, benchmarking). A feasibility mission by IN-
FRAS (March 9th-22nd, 2007) has clarified the institutional architecture of the methodology de-
velopment process (energy efficiency standards and input data which is available from BEE,
short list of Indian firms which could qualify as nodal service providers) and the sequence of
tasks/TORs for implementation through UNIDO. A spread sheet is available for estimating
abated refrigerant emissions for the “captive system GODREJ & BOYCE” as displayed in figure
2. An equivalent data base for energy consumption is available through the BEE standard for an
energy efficiency labelling of refrigerators. Verification of actual usage pattern (energy consump-
tion and servicing) needs yet to be established through monitoring of a field sample.
Figure 3: Illustration of benchmark approach. BEE = Bureau of Energy Efficiency.
CDM methodology: HYREF Through benchmark approach
Energy Efficiency label-ling India, BEE
Standard for country B
PDD by Godrej & Boyce Manuf. Ltd
PDD n by Project Proponent n
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Project proponent:
Godrej & Boyce M. Ltd. Mumbai
PDD
Methodology
Validation
CDM EBMeth Panel
Host country approval
DOE
e.g. TuV-S
Int. Ref. Center
INFRAS(B+H/BSS)
GOIMoEF
seco
CT-Project
UNIDOSCO-IDelhi
Service Providers PDD/Methodology
INFRAS/Intl.
Experts
NodalIndian
Experts
IIT Delhi
Other exp.
Registration
Verification
CERs
Client options:- Swiss Climate Cent Foundation?- World Bank?
2007/2008
TOR
Figure 4: Organisational set up for the development of the HYREF CDM methodology.
DOE: Designated operational Entity, PDD: Project Design Document, IITD: IIT Delhi, and D.D Arora Mumbai are proposed
resource persons. TüV-Süd may be a good choice as Designated Operational Entity. This choice is indicative at this stage.
A further critical factor in CDM project development is time: The first commitment period of the
Kyoto Protocol ends in 2012. Demand and prices for post 2012 CERs will remain uncertain for
quite some time to come. The HYREF methodology and the PDD supporting one proposed pro-
ject activity should be presented by October 2007 to the CDM Executive Board/Meth Panel. This
is the likely closing date for methodologies considered by the CDM EB for its meeting held in the
first quarter of 2008..
The consultations with the relevant stakeholders done during the feasibility mission in March
2007 substantiated that there is a clear public interest in developing innovative methodologies in
18|
INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION |
the domain of energy efficiency for appliances.. Development of new methodologies justifies
engagement of public funds.
The feasibility mission in March 2007 has defined the institutional design of the methodology
development process. In consultation with the Bureau of Energy Efficiency clear advantage was
seen in applying the benchmark approach, as such a CDM methodology for refrigerator appli-
ances would mark a step forward in establishing a level playing field for environmentally sound
technologies. Since there are only 5 major manufactures for domestic refrigerators in India a pro-
gramme of activity method would not be justified. There is no need for defining an entity as a
custodian of the proposed methodology. In consultation with UNIDO it has been further decided
to move ahead in steps and to “cross the bridge when we reach the river”. Core elements for
demonstration of additionality and baseline are still under consideration. A set of TOR for the
different service providers is being developed based on the results of the feasibility mission. The
stakeholder letter by the project proponent to UNIDO shall reflect an informed decision taken.
It is suggested to prepare the HYREF methodology in two phases as displayed below:
HYREF CDM
Project phases Apr May Jun Jul Aug Sept Oct Nov Dec Jan Feb Mrz
I Methodology design
IIa Main phase: Final methodology
including data evidence for
benchmark and PDD
IIb Main Phase Responding to Meth
Panel Comments
6 Intl cons. responding to Meth Panel
comments
2007
1 'Design mandate' internatl.
Consortium (INFRAS/Southpole
2 Indian Service Provider, Mandate
part I
3 Final methodology mandate Intl.
Cons (INFRAS/Southpole Carbon) incl.
submission through DOE
2008
Meetings, missions
Reports
7 Indian Service Provider responding
to comments
5. Mandate baseline data
(e.g. IITD)
4 Indian Service Provider, Mandate
part II
Inception
PHASE I PHASE IIa PHASE IIb
draft methodology submitted methodology
continued as required
Figure 5: Proposed phases and milestones in HYREF CDM methodology development
3. Based on information as available end of March the development of the targeted methodology
seems feasible though risks remain with regard to Meth Panel acceptance at conceptual as well as
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION |
data level. In the proposed main phase I all pending conceptual matters would be decided and a
draft methodology would be designed without collection of data. The output of this phase is a
draft methodology supported with best guesses on the intended use of data. Not statistical as-
sessment of data is done at this stage. The institutional architecture requires a combination of
reimbursable loan agreements for international service providers and local UNIDO contracts for
service providers from India. Coordination of these activities shall be provided by INFRAS.
4. In the following main phase II the refined methodology and PDD are being developed based
on measured field data. The process is structured into a phase IIa up to October 2007 (before
methodology submission) and a phase IIb after this targeted submission of the HYREF method-
ology to the EB/Meth Panel. The methodology shall be submitted through a Designated Opera-
tional Entity (contracted through UNIDO possibly by end of June 2007) and subsequently walked
through the comments by the Meth Panel.
4. TOR Phase 1
Detailed task, schedule and outputs for the different mandates are specified in separate work-
sheets.
Key elements with regard to the conceptual design are summarized in table 1 displayed below.
The key output of the methodology design phase 1 is a draft methodology applied in a PDD based
on the key steps of the methodology with the data available by June 2007. The organisational set
up is displayed in Figure 4.
INFRAS shall take the lead on behalf of the CTP International Reference Centre. Sector back-
ground information and knowledge available from the side of the project proponent (Godrej &
Boyce Mfg. Ltd.), NCCoPP partners (IIT Delhi / Prof. Agarwal11 , external experts12 as well
views as from side of other stakeholder actors (BEE, MoEF Govt. of India, NCPC, UNIDO,)
shall be assessed and be incorporated into the conceptual design13 of the main phase. Contractual
involvement Indian Partners with crucial know how shall take place in a flexible, demand driven
manner.
11 The advice from Prof R.S. Agarwal, IITD (refrigerant) and BEE (Ajay Mathur, Ali Kaupp) will be crucial for applying the
sector benchmark approach. Sourcing information from the existing knowledge network established under the ECOFRIG project will contribute to “speeding up the learning curve” and “capitalising on the experience already gained by Swiss /NCCoPP partners under the Energy/Environment programme”. See also ECOFRIG case study in OECD/UNEP (2001) Climate Technology Initiative, “Technology without boarders”.
12 Christoph Sutter, Partner SouthpoleCarbon, is member of the Meth Panel and Expert in Methodological issues. As time is crucial, no learning by doing detours are feasible. The proposed role of SouthpoleCarbon is handholding and advising in feasibility of methodological issues..
13 The quantitative analysis for “climate impact estimation” has already been made by Kessler et al 2006
(www.infras.ch, refer also to Annex 6.2). This information needs to be updated to direct cooled/frost free models in
cooperation with Godrej and Boyce and may be transferred into the form of a draft PDD to the nodal Indian service pro-vider. This information is to be complemented by key information required for the stakeholder consultation during the main phase.
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION |
KEY ELEMENTS OF METHODOLOGY REFRIGERATOR MANUFACTURING
Issue Assessment/solution Comment
Energy efficiency bench-
mark
Individual schedules for frost free (schedule 1)
and direct cool (schedule 3) refrigerators
available from BEE. Energy Baseline: to be
defined as *-rating (star * or star **); To be
defined: user pattern in a sample test
Schedules need to be analysed and
understood; basically energy bench-
mark is available
Carbon (kgCO2/kWh) baseline: Indian
Power sector baseline as of March 07
available
Updating energy effi-
ciency benchmark
e.g. 1st update per 1.4.2009, afterwards every
3 years
Assess feasibility
Refrigerant benchmark
and additionality
Barrier approach to hydrocarbon technology,
market share below e.g. 20%14.
Data gaps exist on average refrigerant charge
for population fielded in 2005/006 or last 5
years
Internal data base BEE: distribution of
sold fridges by volume?
-> TOR Indian service provider
Crediting period, Monitor-
ing
3X7 years, as refrigerator life is 15-20
years15. Design monitoring scheme demon-
strating abated emissions on annual basis.
Critical threshold is 2012.
How to deal with energy efficiency
and refrigerant emissions of refrigera-
tors older than 7 years (degradation
effects)?
Requirement for “custo-
dian” of benchmark –
energy efficiency bench-
mark
Energy standard does not need custodian, as
here we have published schedules and data by
BEE.
Need for field sample tests over lifetime?
BEE welcomes this method; is con-
cerned about development in refriger-
ant market, sees policy relevance
Requirement for “custo-
dian” of benchmark –
refrigerant benchmark,
incl. updating refrigerant
climate benefits
Means of verification of emission factors
(established based on information obtained
from Godrej) to be worked out yet
Needs careful assessment -> TOR
Indian service provider
Relation between benchmark for over-
all market and manufacturer specific
fleet.
What is key scope of
phase II July 07-March
08?
To establish data evidence for benchmark on
energy eff. and refrigerant, develop PDD with
project proponent GODREJ
Initiate field sample test through
Godrej prior to July; launch independ-
ent verification sample from July
onwards
Table 2 Conceptual design elements for the HYREF methodology refrigerator manufacturing as of 4 April 2007
14 Godrej and Boyce had assessed carbon finance when converting to hydrocarbon refrigerant in 2001: See Schwank
(2001) HFC Reduction as a CDM Option, a crosscutting Issue under the Kyoto and the Montreal Protocol, JIQuarterly Vol
7, April 2001 15 For monitoring of baseline and emission reduction the approaches proposed in methodology NM0197 for chillers or AM
046 Distribution of efficient light bulbs to households shall be taken into consideration.
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION |
5. Cost estimate
The cost estimate for the work at the international and local level displayed in Table 2 It is as-
sumed that a budget of USD 50-70’000 each would be available for professional time and travels
of the nodal international service provider(s) as well as for local service providers during the
main phases I and IIa. The estimation of the cost of the field sample test is still tentative. It will
depend largely on the sample size required to establish sufficient statistical stability into the
framework of numbers. The total cost of methodology development (including contributions from
the project proponent) are estimated to fall into a range of 165’000-170’000 USD. Except the
contributions from the project proponent this shall be funded by SECO/UNIDO through the CT
project.
Cost item Number of days USD
Phase Ia
1.1
Professional time Intl Service Providers
mid April- early July for design of draft
methodology
68 34'000
1.2 travel/per diem Intl Service Providers Delhi, Mumbai, 8'000
1.3 Nodal local service provider fee and
travel
Delhi, Mumbai, 8'000
Subtotal main phase I 50'000
Phase IIa
2a.1Fee Intl Service Providers mid July -
October 2007
50 25'000
2a.2 Travel/per diem Intl Service Providers Delhi, Mumbai, 8'000
2a.3Submission of methodology through
DOE (mandate through intl Service
subcontract 5'000
2a.4 Nodal local service provider fee and
travel
12'000
2a.5IITD / other experts energy efficiency
sample test
20'000
Main phase IIa subtotal 70'000
Phase IIb
2b.1 Fee mid November 2007– March 2008 34 17'000
2b.2 travel/per diem Intl Service Providers 5'000
2b.3 Nodal local service provider fee and
travel
6'000
2b.4IITD / other experts energy efficiency
sample test
5'000
2b.5Contribution by Project Proponent EB methodology reg fee
approx. 5’000 USD
5'000
2b.6Contribution by Project Proponent: Field
sample test verification
in kind 10'000
Main phase IIb subtotal
SECO/UNIDO and Project proponent
48'000
Grand Total (rounded) 168'000
Main phase I design of methodology: Local and other Internatl. services
Main phase Iia, methodolgy submission: Local and other Internatl. services
Main phase IIb: responding to Meth Panel comments: Local and other Internatl. services
Cost Estimate HYREF
Table 2 Cost estimate for international and national service provider for HYREF methodology 2007.
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION |
6. CDM Project Cycle
Figure 5 below is illustrating the CDM project cycle as shown in the CDM NSS for India. Terms
and Institutions are explained in the caption text. This CDM project cycle is the basis of Figure 4.
CDM PROJECT CYCLE
Figure 5 CDM project cycle, figure from India NSS report (2005).
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION |
6.2 Background on the ECOFRIG/HIDECOR/NCCoPP Projects
India ratified the Montreal Protocol (MP) agreement on the reduction of Ozone Depleting Substances
(ODS) in 1992 under which India is obliged to comply and phase out CFCs by the year 2010.
In 1992 the ECOFRIG project was started as an Indo-Swiss-German collaboration on contributing to a
timely, self-reliant and sustainable phase-out of CFCs in the Indian domestic and commercial refrigera-
tion sector through promotion of the low GWP hydrocarbon refrigerant as replacement for CFC refriger-
ants. The first phase of the ECOFRIG project contributed to the application of low GWP cyclopentane
foam technology as a replacement of CFC11, avoiding the transitional HCFC141b route. As one of the
main results from the ECOFRIG phase II project, Godrej & Boyce Mfg Co Ltd. Appliance Division –
one of the major refrigeration appliance manufacturers in India16 – decided in 1999/2000 to phase out
CFCs in their production process by converting to hydrocarbon blend refrigerant (referred to as HC
blend)17. The full size conversion project was implemented under support by the Multilateral Fund to the
Montreal Protocol in 2001/2002. The Swiss total German investment under the ECOFRIG public pri-
vate partnership was equivalent to approx. 10 million USD, the industry contribution exceeded this
investment. Godrej envisages doing a second conversion to isobutane in the mid-term future to respond
to recently introduced energy labelling in India and to the enhanced consumer demands for energy effi-
ciency. This conversion would not take place at one stroke but would be lead by converting the more
energy efficient “A-class” or 5-star models18 sold in Metros/large towns first. The poor power availabil-
ity in rural areas, with voltages frequently dropping to 160–180V, acts as a barrier to the introduction of
more energy efficient models in these rural markets. The simpler designed HC blend base models would
retain some consumer preference in these markets past 2010.
Parallel to the final phase of the ECOFRIG project, which ended in 2003, the bilateral Indo-Swiss pro-
ject HIDECOR was started (2001–2004), primarily for providing training on good servicing practices
16 The company manufactured 570’000 refrigerators in 2001/2002 and 740’000 refrigerators in 2005/2006. The total market
volume in India was around 4 million refrigerators in 2005/2006. 17 Propane/Isobutane 50:50% blend. This refrigerant matches the thermodynamic properties of CFC12 and is therefore
marketed in India under brand names such as CARE 30 or minus 30. HFC134a does not match CFC12 properties as ex-
actly as the propane/isobutane blend does. HC blend therefore yields an energy efficiency gain over HFC134a and is
technically suited for retrofitting of CFC12 based appliances such as domestic and commercial refrigerators (such as e.g.
visicoolers for Coca Cola ect), deep freezers or mobile air conditioners (MAC) in small cars such as “Maruti 800/Zen” or
“Tata Indica”. In manufacturing and retrofit due precaution to the flammable nature of the refrigerant has to be used. In-
ternational norms consider charge quantities up 150g in domestic refrigeration and 250g in MAC as safe. 18 Energy efficiency standards and the Kyoto Protocol contributed to an increase of isobutane in the global domestic refrig-
erator market of 40% (source Prof. Agarwal, TEAP report under preparation). Isobutane has recently penetrated Japan
and the US and makes a significant inroad into China. South East Asia and India are lagging behind in this process. Iso-
butane yields efficiency gains in the order of 3–5% over HFC134a. Isobutane is globally the leading refrigerant among the
“A-class” of 5-star refrigerators with highest energy efficiency.
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION |
and hydrocarbon based retrofit to service technicians in the Refrigeration and Air-Conditioning (RAC)
sector. This project continued the ECOFRIG cooperation with interested Indian firms facilitating the
import of hydrocarbon refrigerant to India on a commercial basis. By the end of the HIDECOR project
in December 2004, more than 10’500 service technicians were trained in 7 states of the country. In
March 2004, the Multilateral Fund approved the National CFC Consumption Phase-out Plan for the
refrigeration Service Sector in India (NCCoPP) which also covers training of service technicians based
on the methodology developed under HIDECOR. INFRAS was designated as implementing agency for
training under NCCoPP on behalf of the Swiss Government. Throughout the series of projects the efforts
were ongoing to strengthen the use of hydrocarbon refrigerants as an ozone and climate friendly tech-
nology.
Since 2004, more than 5’000 service technicians were trained under NCCoPP all over India. By end of
March 2007, the 3rd
year of implementation of NCCoPP project is completed. NCCoPP is proud of the
record of activities which has been achieved so far. Alone in the past 12 month, NCCoPP has run 69
training programs for Refrigeration Service Enterprise technicians in all regions of India which en-
hanced the skills and environmental awareness of 1’800 professionals.
By today the NCCoPP project has reached its mature state and the full variety of activities planned
under the project are under implementation. The main challenge is to reach more coverage, especially
in remoter areas throughout the country which have not yet received adequate attendance. A special
challenge emerges in addressing the need for retrofitting of existing refrigeration units charged with
ozone depleting CFCs and probably even HFC134a. The scientific evidence from the just published
4th
assessment report of the Intergovernmental Panel on Climate Change (IPCC) confirms that climate
change is real, that warming has already started to impact atmosphere and biosphere and that HFC and
HCFC emissions are increasingly contributing to Global Warming. In the year 2005, halocarbons
contributed in the order of 20% of the total net anthropogenic radiative forcing of all greenhouse
gases. This will raise pressure to limit the use of HCFCs and HFCs in future for which the RAC trade
has to prrepare. One key to addressing this challenge will be the retrofit option through hydrocarbon
refrigerants. From the market and from industry data evidence has been received that retrofit activities
on the basis of ozone and climate friendly hydrocarbon refrigerant is rapidly gaining momentum, also
on the background of increasing prices for CFCs. Based on the initiative taken by the NCCoPP part-
ners Godrej & Boyce Manufacturing Co. Ltd. (and also Hindustan Refrigeration Stores) in marketing
hydrocarbon refrigerants in India, INFRAS had recently estimated19 the abatement of greenhouse gas
emissions from promoting these refrigerants under the ECOFRIG, HIDECOR and NCCoPP project
19 Kessler, S. Schwank O and D.D. Arora 2006; www.infras.ch
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION |
activities. The result shows that for the operational year 2006/2007, the use of hydrocarbon refrigerant
led to the abatement of greenhouse gas emissions equivalent to almost 40’000 tons of CO2. And the
trend is sharply increasing (see also figure 5). This is a significant impact of
ECOFRIG/HIDECOR/NCCoPP which reaches beyond the protection of the ozone layer.
Annual greenhouse gas abatement by ECOFRIG/HIDECOR/NCCoPP project
activities
(as per UNFCC methodology for actual emissions)
0
10'000
20'000
30'000
40'000
50'000
60'000
2001/2002 2002/2003 2003/2004 2004/2005 2005/2006 2006/2007 2007/2008
time period on basis of business year (1st March - 28th February)
t CO2eq / a
©INFRAS
Figure 5: Annual GHG abatement by ECOFRIG/HIDECOR/NCCOPP Project. Source: Kessler, S. Schwank O and D.D.
Arora 2006 www.infras.ch .
26|
INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION | ANNEX 3
ANNEX 3
JOB DESCRIPTION (Local Service Provider LSP)
CLEANER TECHNOLOGY PROMOTION IN INDIA
US/IND/02/001/11-53
Title of assignment: National provider of CDM expert services for the development of a
methodology on manufacturing and use of energy efficient hydrocarbon re-frigerators (HYREF)
Duration: 5 months Date required: 2 May 2007 Duty station: Based at the location of the firm with missions to New Dehli, Mumbai and
possibly other locations in India depending on the requirements for design-ing of the Methodology
Counterparts: UNIDO Delhi Office,
Infras, CH 8027 Zürich on behalf of the International Reference Centre Duties: The national provider of CDM Methodology expertise will contribute to the
development of a CDM Methodology applied in a PDD in 2 phases. Spe-cifically, this will require the firm to resume the following main duties:
Phase 1: Methodology design Main duties Expected results 1. Review relevant documentation on HYREF, BEE energy efficiency standard for refrigerators as well as proposed CDM methodologies in the field of energy efficiency for appliances (NM 0197 India chiller replacement and NM0150 Ghana efficient lighting) applying methodology elements relevant for HYREF 2. Prepare a inception report comprising results of documentation analysis conceptual appraisal, key question identified, a draft workplan for phase I and IIa and proposed TOR for sub-tasks/schemes (by project proponent, other experts)
Inception report submitted
3. Implement workplan for phase 1 (incl mission of International Experts) in cooperation with key stake holders (project proponent, IN-FRAS/Southpolecarbon and other Indian ex-
Documentation for methodology appraisal incl. data needs as-sessment available
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION | ANNEX 3
perts); compile and analyse available primary and secondary data (market structure) 4 Advise how to structure methodology, update workplan for phase 2a, lead in compilation data collection for draft PDD and TOR in phase 2a
Draft methodology report includ-ing Annex with PDD draft outline submitted
Phase 2a: Final methodology including data evidence for benchmark and PDD Main duties Expected results 5. Coach primary data collection by Project Proponent and institution contracted for base-line field sample test in consultation with IN-FRAS and UNIDO, compile short interim report on analysis of data collected 6. Implement workplan for phase 2a (incl. mis-sion of International Experts) in cooperation with key stake holders (project proponent, IN-FRAS/Southpolecarbon and other Indian ex-perts); analyse and compile primary/secondary data generated in phase IIa for benchmark and emission reduction claimed 7. Compile, in cooperation with intl. experts, final methodology and PDD for submission to DOE
Final methodology /PDD for manufacturing of energy efficient hydrocarbon refrigerators submit-ted to DOE
Milestone/Outcome
Expected duration
pm
Location
Latest Date
Review of relevant documentation 0.5 Home-Based
18 May 2007
Inception visit at the Project Proponents site jointly with Intl Expert Team member
0.1 Mumbai 25 May 2007
Inception report 0.6 Delhi, home based
14 June 2007
Documentation for methodology appraisal Methodology design mission with Intl Ex-perts
0.3 Mumbai, Delhi
21 – 28 June 2007
Draft methodology report including Annex with PDD draft outline
0.5 Home based
10 July 2007
Short Interim report on collected data 1.4 Mumbai, Delhi, home
based
25 August 2007
Benchmark/PDD 2nd
order draft and mis-sion with Intl Experts
0.6 Mumbai, Delhi, home
based
5 September 2007
Final methodology /PDD for manufactur-ing of energy efficient hydrocarbon refrig-erators submitted
1.0 Home based
1 October 2007
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION | ANNEX 3
Qualifications: Knowledge of CDM institutions and rules, Knowledge in energy efficiency appliance industry. Track Record in successful CDM projects facilitäted Lead expert with University Degree in engineering or a related discipline and 5 years of experience in the carbon market.
Language: English
Background Information: See the updated project document
JOB DESCRIPTION CLEANER TECHNOLOGY PROMOTION IN INDIA
US/IND/02/001/11-53
Post title: International refrigeration expert / Project coordinator
Duration: 1.2 w / month20
Date required: 7 May 2007
Duty station: Home-based with mission to New Delhi and Mumbai, India (21-29 June 2007) Duties: The international refrigeration expert / project coordinator will coordinate activi-
ties under this project and will work on development of a CDM methodology for
hydrocarbon-based and energy efficient domestic refrigerators. Specifically, this will require him/her to: • To specify refrigeration related technical details and data for benchmarking
approach under the CDM Methodology in co-operation with the CDM Meth-odology expert.
• To specify refrigeration related technical details and data for baseline method-ology in co-operation with the CDM Methodology expert.
• To establish an understanding with the Indian refrigerator manufacturing in-dustry acting as project proponent on methodology elements and the modali-ties of his support to methodology development.
• To coordinate overall activities and to guide and co-operate with the Indian local service provider (LSP) on methodology related issues.
He will be specifically expected to:
Main duties
Expected
duration Location
Expected
Results
Assess Expert CV submitted by local service 0.3 Home- Local service Provider appointed
20 36 calendar days @ 450$ = 16’200$ + 5’000 travel (incl. March 19th trip Stefan Kessler to Vienna and per diem O.
Schwank for visit Delhi-Mumbai 23-25 May – see footnote 2): Mandate total $ 21’200
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION | ANNEX 3
Main duties
Expected
duration Location
Expected
Results
providers to UNDIO New Delhi Provide assistance and guidance to the local service provider (LSP) India in developing elements of methodology design. Provide overall project coordination.
based (LSP); Set of relevant documents for HYREF methodology develop-ment is provided to LSP; Specification document for cru-cial methodological elements is provided to LSP by May 21, 2007.
Refine data and methodology elements for baseline and sector benchmark approach to be chosen for HYREF, in co-operation with the Methodology expert, based on LSP reports.
0.2 Home- based
Written comments on inception report prepared by LSP, written inputs towards development of draft methodology report devel-oped by Methodology expert, including technical suggestions for critical data elements.
Consultations with local service provider In-dia, Godrej & Boyce Mfg. Ltd., D.D. Arora, Bureau of Energy Efficiency (BEE), IIT Delhi. Achieve conceptual clarity on key issues of LSP inception report with local service pro-vider and project proponent.
0.421 Mumbai, New Delhi
Agreement with project propo-nent and local service provider on crucial elements of method-ology and data requirements.
Consultations with UNIDO Delhi office, SCO-I, GTZ.
0.1
New Delhi Local donor offices are informed and next steps are agreed with local donor offices.
Debriefing meeting with UNIDO HQ in Vi-enna (transit in return from India).
0.1 Vienna Information on conclusions of India mission and agreement on next steps.
Write mission report and prepare inputs to draft methodology design report.
0.1 Mission report incl JD for phase 2a finalized; Input to draft methodology de-sign report provided to method-ology expert.
Qualifications: Knowledge of Indian refrigerator market and technology, knowledge of CDM
rules, University degree in engineering or a related discipline. Language: English
Background Information: See the updated project document of 4th April 2007
21 0.1 person month of this allocation will be provided by Othmar Schwank on his meeting at Mumbai with Godrej and Boyce
and the local service provider on 23-25 May 2007. No travel cost of Othmar Schwank will be debited to the project
30|
INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION | ANNEX 3
JOB DESCRIPTION CLEANER TECHNOLOGY PROMOTION IN INDIA
US/IND/02/001/11-53
Post title: International CDM Methodology expert – Meth Panel member Duration: 1.2 w / month22
Date required: 2 May 2007
Duty station: Home-based with mission to New Delhi and Mumbai, India (21-29 June 2007)
Duties: The international CDM Methodology expert and Meth panel member will work on development of a CDM methodology for hydrocarbon-based and energy ef-
ficient domestic refrigerators in close co-operation with the Methodology ex-perts from INFRAS. Specifically, this will require him/her to: • To assess and conceptualize technical details for benchmarking approach un-
der the CDM methodology in co-operation with the CDM expert from IN-FRAS.
• To specify technical details for baseline methodology in co-operation with the CDM expert from INFRAS..
• To ensure integration of findings from latest Meth Panel decisions and discus-sions into methodology development.
• To provide expert know-how to the Indian national service provider on methodology related issues.
He will be specifically expected to:
Main duties
Expected
duration Location
Expected
Results
Provide expert input for conceptualising benchmark approach, baseline definition, additionality analysis and monitoring concept towards development of HYREF methodol-ogy. This is in close co-operation with the experts from INFRAS. The expert will ensure integration of latest decisions and discussions of the Meth Panel of the CDM Executive Board in the methodology design process. Provide expert assistance to the local service provider (LSP) India in developing elements of methodology design.
0.3 Home- based
Conceptual expert inputs on HYREF methodology are being provided to INFRAS for integra-tion into the specification docu-ment for methodological ele-ments which is being developed by INFRAS as basis for the work of the LSP.
Refine methodology elements for baseline and sector benchmark approach to be chosen for methodology, in co-operation with INFRAS,
0.4 Home- based
Written comments on inception report by LSP, written inputs towards development of draft
22 36 d @ 450$ = 16’200$ + 4’000$ travel
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INFRAS | 11 May 2007 | CDM METHODOLOGY FOR HYDROCARBON-BASED REFRIGERATION |
Main duties
Expected
duration Location
Expected
Results
based on LSP reports. methodology report, including technical suggestions for critical methodology elements.
Consultations with Indian national service provider India, Godrej & Boyce, D.D. Arora, Bureau of Energy Efficiency (BEE), IIT Delhi in co-operation with INFRAS (joint mission).
0.3 Mumbai, New Delhi
Agreement with project propo-nent and service provider on crucial elements of methodology and data requirements, draft methodology design report.
Consultations with UNIDO Delhi office, SCO-I, GTZ
0.1
New Delhi Local donor offices are informed and next steps agreed with local donor offices.
Write short mission report 0.1 Home- based
Mission report incl JD for phase 2a prepared jointly with IN-FRAS methodology expert.
Qualifications: Knowledge of CDM rules and methodologies, knowledge of latest Meth Panel
decisions, University degree in engineering or a related discipline.
Language: English
Background
Information: See the updated project document of 4th April 2007