CC:INFO/AIJ: REPORT

Uniform Reporting Format:

Activities Implemented Jointly Under the Pilot Phase

Annex I

A. Description of project

1) Title of project: Türi I, District Heating Renovation Project

2) Participants/actors:

Item	Financier/Reporter	Co-reporter
Name of organisation(a):	Statens energimyndighet	Eesti Vabariigi Keskkonnaministeerium
Name of organisation (English):	Swedish National Energy Administration ^(*	Ministry of the Environment of the Republic of Estonia
Department:	Secretariat for Climate Policy and International Co-operation	International Relations Department
Acronym:	STEM	EKM
Acronym (English):	STEM	MoE
Function within activity:	Assigned by the Swedish Government for implementation including financing arrangements.	Estonian Climate responsible Organisation
Street:	Kungsgatan 43	Toompuiestee 24
Post code:	BOX 310, S-631 04	10149
City:	Eskilstuna	Tallinn
Country:	Sweden	Estonia
Telephone:	+46 16 544 20 00	+372 62 62 800
Fax:	+46 16 544 22 64	+372 62 62 801
E-mail:	klas.tennberg@stem.se	min@ekm.envir.ee
WWW-URL:	http://www.stem.se	http://www.envir.ee
Contact person (for this activity):	-------------------------------------	-------------------------------------
Surname:	Knutsson	Kratovits
First name, middle name:	Gudrun	Andres
Job title:	Head of section, Climate Investment Programme	Counsellor
Direct tel:	+46 16 544 20 72	+372 62 62 841
Direct fax:	+46 16 544 22 64	+372 62 62 845
Direct E-mail:	gudrun.knutsson@stem.se	andres@ekm.envir.ee

^(* From 1 January, 1998, the new Swedish National Energy Administration has taken over the responsibility for the Programme for an Environmentally Adapted Energy System in the Baltic region and Eastern Europe (EAES Programme) from NUTEK (Swedish

National Board for Industrial and Technical Development).

	Borrower
Name of organisation(a):	Türi Linnavara OÜ
Name of organisation (English):	Türi Municipal Property Ltd
Department:
Acronym:
Acronym (English):
Function within activity:	Borrower
Street:	Kohtu 2
Post code:	72213 Türi
City:	Järva county
Country:	Estonia
Telephone:	+372 38 48 254
Fax:	+372 38 48 248
E-mail:	linnavara@tyri.ee
WWW-URL:	http://www.tyri.ee
Contact person (for this activity):
Surname:	Raul
First name, middle name:	Metsunt
Job title:	Manager
Direct tel:	+372 38 48 254
Direct fax:	+372 38 48 248
Direct E-mail:	raul@tyri.ee

Item	Please fill in if applicable	Please fill in if applicable
Name of organisation(a):	Sihtasutus Regionaalsed Energiakeskused	ÅF International
Name of organisation (English):	Regional Energy Centres in Estonia	ÅF International
Department:	Võru office	ÅF - International Malmö
Acronym:	SA REK	ÅFI
Acronym (English):	REC	AFI
Function within activity:	Local reporter	Technical support
Street:	Liiva 12C	Stensjögatan 3
Post code:	65602, Võru P.O., BOX 43	S-217 65
City:	Võru	MALMÖ
Country:	ESTONIA	SWEDEN
Telephone:	+372 78 282 30	+46-40-37 50 00
Fax:	+372 78 282 31	+46-40-13 03 69
E-mail:
WWW-URL:	http://www.af.se/ens/english/rec	http://www.af.se
Contact person (for this activity):	-------------------------------------	------------------------------------
Surname:	Potter	Lindgren
First name, middle name:	Elmu	Ulf
Job title:	Consultant	project leader
Direct tel:	+372 78 282 30	+46-40-37 50 97
Direct fax:	+372 78 282 31	+46-40-13 03 69
Direct E-mail:	elmupotter@hot.ee	Ulf.lindgren@mlm.pdn.af.se

a) Organisation includes: institutions, ministries, companies, non-governmental organisations, etc. involved in the activity, i.e. research institutes associated with the project, auditors, government agency closely following the activity.

3) Activity:

Item	Please fill in if applicable
General description:	Türi is a town in the middle of Estonia with its 7 000 inhabitants and some 95 km south of Tallinn. Türi is well-known with garden and park areas. There are several boiler plants and district heating networks in Türi. One of them has earlier been converted to biofuel firing through a Danish gift. The other boiler plants use coal or heavy oil. Total energy production in the town for district heating is approx. 35000 MWh.
Type of project:a)	Energy efficiency
Location (exact, e.g. city, region, state):	Türi town Türi County Estonia
Activity starting date:	17. September 1996 (Loan agreement)
In operation from:	December 1996
Expected activity ending date:	31 March 2006
Stage of activity:b)	Completed
Lifetime of activity if different from ending date:c)	Expected technical lifetime is 15 years which means that the plant is expected to be in operation till 2012.
Technical data:d)	A new pipeline of pre-insulated pipes was laid to connect the main network with smaller 4-pipe system one of Anna Haava boiler house. The connection also required that some 200 meters of the main net must be replaced by bigger dimension of pipe in order to allow for the increased load. The Anna Haava boiler house, fuelled by coal and situated very close to a living area was closed down and the needed energy will be produced in a biofuel fired boiler house. The connection also made it necessary to install 4 substations in the living houses due to the conversion of small network to a 2-pipe system. The project resulted in savings due to the conversion to biofuel and improved energy efficiency by producing the energy in a more efficient boiler plant. Substations: 4 units with heat exchangers for domestic hot water and controllers for space heating Length of pipeline trench: 330 m DN 125 24 m DN 100 210 m DN 125 (not preinsulated) Type of pipeline: Steel 37,0 media pipe PUR insulation, series 1 PEHD outer jacket Leakage detection system Additional energy production on biofuels : 2400 MWh/year Energy saving through installation heat substation: 260 MWh/year

a) For example, using Intergovernmental Panel on Climate Change (IPCC) classification: energy efficiency; renewable energy; fuel switching; forest preservation, restoration or reforestation; afforestation; fugitive gas capture; industrial processes; solvents; agriculture; waste disposal or bunker fuels.

b) Circle the appropriate option.

c) Methodological work will be required to define lifetime of activities.

Methodological work will be required to determine for each type of activity what the minimum data requirements are.

The lifetime criteria has been arranged in different groups depending on type of implemented activities. This classification assumes a level of operation and maintenance which is normal in western countries.

Lifetime of activity

Heat production plants (bio fuel)

25 years	New installation of all main equipment parts (fuel handling system, firing equipment and boiler) and modernisation of secondary equipment.
15 years	Conversion of existing boiler but new installation fuel handling system and firing equipment. Modernisation of secondary equipment.
10 years	Limited installation of new equipment (only one part of the three main parts, normally the firing equipment). Modernisation of other equipment.

Heat distribution systems and sub-stations

25 years	Pre-fabricated pipes and installations using certified contractors and supervisor according to EN norms and applicable district heating practise
15 years	Pre-fabricated pipes and installations without using certified contractors and supervisor
10 years	Modernisation of existing pipes.

Energy efficiency in buildings

25 years

Additional insulation roofs walls etc. with Scandinavian technology.

New installed heating systems.

15 years

Renovation and balancing of heating systems including thermostat valves.

10 years

Weather stripping windows, doors etc.

* if a combination of measures is done a reasonable lifetime for the project have to be calculated.

4) Cost (to the extent possible):

To the investment costs are referred the cost of the investment proper and the accumulated interest during the grace period, generally 2 years.

The AIJ/JI cost items are the costs for:

Technical assistance, a technical and administrative support from consultants, during the period from definition of the project till commissioning. These costs are paid by STEM.
Follow-up, an annual technical and economic follow-up by consultants, hired by STEM, of the operating results of the plant with the objective to improve on its techno-economic sustainability and its climate effect. The cost indicated is an average cost per project.
Administration –Costs for seminars, handbooks, education (capacity building) and average costs of STEM staff per project.
Difference in interest rates. STEM applies for its loans generally an interest rate corresponding to 6-month STIBOR (Stockholm InterBank Rate, in April 1999 3,0 %). Assuming a normal lending rate of 7 % means that this loan is associated with a cost of 4 % in relation to normal lending rate.

Investment/instalment = the borrower’s possible own financing of the investment, followed by the borrower’s repayment of the loan.

All costs in USD

Country	Türi DH	Project	1997	1998	1999	2000
			0	1	2	3
	Investment	1. Loan/debt to STEM	73200	92600	78399	67070
		2. Added costs	23400	2200	0	721
		3.Technical assistance	40000	0	0	0
	AIJ/JI	4. Follow up	0	2200	2267	2139
A. Sweden	costs	5. Reporting costs	850	0	744	301
		6. Administration	47000	0	0	0
		7. Difference in interest	4%	3704	3136	2683
		8.Accum. costs for AIJ/JI	87850	93754	99901	105025
		9.Total costs	184450	186354	178300	172094
	Investment	1. Investment/Instalment	0	6200	14201	12050
B.Estonia	AIJ/JI	2. Reporting costs	0	0	0	0
	costs	3. Other costs	0	0	0	0
		4. Accum. costs for AIJ/JI	0	0	0	0
		5. Total costs	0	6200	20401	32451
1 USD=	10	SEK

5) Mutually agreed assessment procedures:

Describe the procedures, including name of organisations involveda):

Ministry of the Environment of Estonia is a central Estonian authority responsible on reporting of JI projects. This authority assigns a local institution, which is involved in to the evaluation of the climate effects of this project and takes the main responsibility to continue measuring, results collecting for JI-reporting.

a) Please ensure that detailed contact information for all organisations mentioned is reported under section A.2 above.

B. Governmental acceptance, approval or endorsement

Bearing in mind that all activities implemented jointly under this pilot phase require prior acceptance, approval or endorsement by the Governments of the Parties participating in these activities, which shall be shown as follows:

(a) In the case of joint reporting, the report is submitted by the designated national authority of one participating Party with the concurrence of all other participating Parties as evidenced by attached letters issued by the relevant national authorities;

(b) In the case of separate reporting, the reports are submitted separately by the designated national authority of each and every participating Party. Information will only be compiled once reports have been received from all participating Parties.

1) For the activity:

* Subsequent reports:

Fourth report. First report was submitted 1997.

2) This report is a joint report:

Yes, Agreement with designated national authority was signed 1997.

3) General short comment by the government(s) if applicable:

cf. Annex II, section B

C. Compatibility with and supportiveness of national economic development and socio economic and environment priorities and strategies

Describe (to the extent possible) how the activity is compatible with and supportive of national economic development and socio economic and environment priorities and strategies

The project meets the following objectives in the Estonian Energy Law, Estonian National Environmental Strategy, Estonian National Environmental Action Plan, Act on Sustainable Development and the Long-term Development Plan for the Estonian Fuel and Energy Sector:

- efficient and sustainable use of energy resources;

- to increase the share of renewable energy sources in the primary energy demand from present 8% to 13% to the year 2010;

- to reduce the environmental damage arising from fuel and energy production, transport, conversion and distribution;

- to create the reliable energy conservation system stimulating the implementation of energy conservation measures by consumers;

- creation and usage of energy efficient technologies, fuel/energy consuming and diagnostic equipment;

- stimulation of environmental awareness and environmentally friendly consumption patterns;

- to attract foreign investments for projects which ensure better use natural resources as well as environmental improvement;

- to develop co-operation between Baltic, Nordic and Central European countries

D. Benefits derived from the activities implemented jointly project

Whenever possible, quantitative information should be provided. Failing that, a qualitative description should be given. If quantitative information becomes available, it could be submitted using the update(s). (If the amount of quantitative information is too large, the source could be indicated.)

Item	Please fill in
Describe environmental benefits in detail:	Annual emissions reduction: Projected: 2000 1691 ton CO2 1731 ton CO2 8,1 ton SO2 8,3 ton SO2 2 ton Nox 2,2 ton NOx Decrease of local pollution (one coalfired boilerplant has been closed down, the energy is supplied from biofuel fired boilerplant)
Do quantitative data exist for evaluation of environmental benefits?	No
Describe social/cultural benefits in detail:	More stable heat supply to customers
Do quantitative data exist for evaluation of social benefits?	Yes, some studies has been carried out PHARE Multi-country Energy Programme, report " The energy efficiency heat supply and consumption in Türi town", 1997 Energy utilisation feasibility study for Türi town, 1996
Describe economic benefits in detail:	Decreased energy consumption Energy use can now be billed, based upon measured figures
Do quantitative data exist for evaluation of economic benefits?	Yes, some studies has been carried out PHARE Multi-country Energy Programme, report " The energy efficiency heat supply and consumption in Türi town", 1997 Energy utilisation feasibility study for Türi town, 1996

E. Calculation of the contribution of activities implemented jointly projects that bring about real, measurable and long-term environmental benefits related to the mitigation of climate change that would not have occurred in the absence of such activities

1) Estimated emissions without the activity (project baseline):

Description of the baseline or reference scenario, including methodologies applied:

Present data reflect emission reductions using status quo (emissions in the period before the conversion to renewable fuel) for the baseline case. Calculations, according to the top-down method, for emissions from different types of projects in the baseline case are being made. The changed calculation method will result in a change in emission reduction.

The new data will be introduced as soon as available.

2) Estimated emissions with the activity:

Description of the scenario, including methodologies applied:

Emission reductions are calculated using the IPCC Guidelines, using the Carbon Emission Factor (CEF) for different types of fuel, using actual system efficiency. For boiler conversion, the decrease in emissions is calculated in relation to the amount of fossil fuel replaced (status quo).

For an energy efficiency project the decrease in emissions reflects the amount of fuel that is saved through the project. In the case that the system uses renewable fuels, the reduction is calculated comparing the amount of fossil fuels that was used before the conversion to renewable fuels.

Below comparison is based upon that the base-line scenario represents a status quo solution.

Status quo data:

Fuel	Coal
Fossil fuel boiler efficiency	0,54
District heating system efficiency	0,48

Fill in the following tables as applicable:

Summary table: Projected emission reductions:

	GHG	Year 1 =1997	Year 2 =1998	Year 3 =1999	Year 4 =2000	…	Year 15 =2011
Planned additional energy production on biofuel , MWh/year		2400	2400	2400	2400		2400
Saving from installation substations, MWh/year		260	260	260	260		260
A) Project baseline scenario	CO2	1691	1691	1691	1691		1691
	CH4
All tons/year	N2O	--	--	--			--
	other
B) Project activity scenarioa)	CO2	0	0	0	0		0
	CH4
All tons/year	N2O	--	--	--			--
	other
C) Effect ( B-A )	CO2	-1691	-1691	-1691	-1691		-1691
	CH4
	N2O	--	--	--			--
	other
D) Cumulative effect	CO2	-1691	-3382	-5073	-6764		-25366
	CH4
	N2O		--	--			--
	other

a) Includes indirect GHG leakages.

Summary table: Actual emission reductions:

	GHG	Year 1 = 1997	Year 2 = 1998	Year 3 = 1999	Year 4 = 2000	...	Year 15 =2011
Factual additional energy production on biofuels, MWh/hear		2497	2515	2393	2219		2219
Factual energy saving from installation substations, MWh/year		413	432	472	476		476
A) Project baseline scenario	CO2	1861	1885	1837	1731		1731
	CH4
	NO2
	other
B) Project activity scenarioa)	CO2	0	0	0	0		0
	CH4
	NO2
	other
C) Effect ( B-A )	CO2	-1861	-1885	-1837	-1731		-1731
	CH4
	NO2
	other
D) Cumulative effect	SO2	-1861	-3746	-5583	-7314		-26356
	CH4
	NO2
	other

a) Includes indirect GHG leakages.

F. Additionality to financial obligations of Parties included in Annex II to the Convention within the framework of the financial mechanism as well as to current official development assistance flows

Please indicate all sources of project funding.

Category of funding (For each source one line)	Amount (US dollars)
Loan from NUTEK	117.077
Grant from NUTEK for technical assistance	50.000

1 USD = 8,00 SEK

G. Contribution to capacity building, transfer of environmentally sound technologies and know-how to other Parties, particularly developing country Parties, to enable them to implement the provisions of the Convention. In this process, the developed country Parties shall support the development and enhancement of endogenous capacities and technologies of developing country Parties

Transfer of environmentally sound technologies and know-how

Describe briefly

Schematically, the transfer of knowledge involves the following activities over time:

i) Technology transfer through STEM technical specialist during the implementation of the project.

ii) Technology transfer through cooperation between foreign supplier and local partner

iii) Conferences, seminars, documentation and training.

iv) Stimulate "net-working" for the exchange of experience between plant owners with similar problems, e g "bio-clubs"

Technology transfer has taken place through:

STEM technical specialist support to the local project leader and municipality;

Knowledge in negotiations to foreign companies;

Knowledge in managing and planning of projects;

Transferring of environmental issues to the local parties;

Transferring of knowledge in operation and maintenance issue.

Personal involved in the project has been invited to different seminars and workshops and, documentation for training has been handed over.

There were arranged seminars through close cooperation between STEM and Estonian partners:

Environmentally Adapted Energy Systems in the Baltic Region and Eastern Europe - seminar in Tallinn , 14-15 April, 1994;
Environmentally Adapted Energy Systems in the Baltic Region and Eastern Europe - seminar and workshops in Tartu , 25 November, 1994 (prepared information by topics in Estonian more than 150 pages);
EAES Programme District Heating Day in Vändra, 27 July, 1995;
Environmentally Adapted Local Energy Systems - seminar and presentation of Estonian version of the booklet "Environmentally Adapted Local Energy Planning" in Rakvere, 11 November, 1998 and in Tartu, 12 November, 1998;
Energy efficiency projects in Mustamäe residential buildings - seminar in Tallinn, 16 September, 1996.

iv) Activities have been supported by STEM to stimulate cooperation with local experts, consultants, project owners to achieve two-way communication and to find respect for chosen solutions from both sides.

The project has been visited by specialists of other areas (incl. From Russia, Baltic Countries) for exchange of experience.

Endogenous capacity supported or enhanced:

Endogenous capacity (Name of organisation1)	Development (DEV) / enhancement (ENH)	Describe briefly
Türi Municipal Government	(DEV)	The municipality specialists have got experience how to continue energy efficiency projects in larger scale according to the town energy plan.

1) Please ensure that detailed contact information for all organisations listed is reported under section A.2 above.

H. Additional comments, if any, including any practical experience gained or technical difficulties, effects, impacts or other obstacles encountered

Fill in as appropriate:

Any practical experience gained:

0ne of the lessons learnt is that it is important to have persons responsible for the adjustment of the equipment for each building and that they have good understanding of the consequences of their actions

More reliable heat supply after connection of the networks.

Maintenance service of heat substations is necessary to develop.

Technical difficulties:

Effects encountered:

The inhabitants gained directly from improvements of environmental conditions due to the closing of coal firing, but also by the improved standards of heating and domestic hot water deliveries.

The project has inspired other house owners to renovate heat substations.

4) Impacts encountered:

Better indoor climate in the buildings.

The experiences from the energy efficiency project in the residential buildings have used in framing development Plan of Estonia Housing Sector to the year 2010 ( Tallinn, 1999).

5) Other obstacles encountered:

6) Other:

Calculations of the volume of emissions of sulphur dioxide and nitrogen oxide in the section D are revised and new emissions values are calculated according to the Regulation No. 33 of 17. March 1999 of the Ministry of the Environment "The procedure and methods of determination of the volume of pollutants from combustion plants to the air".

NEGOTIATIONS

FOCUS

PROCESS

KEY STEPS