A.3. >>

Project participants:
Table 1: Project participants.
Kindly indicate if the Party Name of Party involved Private and/or public entity (ies) involved wishes to be project participants considered as project participant (Yes/No)

Argentina (Host Country)

Establecimiento Don Guillermo S.R.L.
United Kingdom of Great Britain EcoSecurities Group PLC and Northern Ireland
Technical description of the small-scale project activity: A.4.1. Location of the small-scale project activity:
>> A.4.1.1. >> Argentina A.4.1.2. >> Misiones A.4.1.3. City/Town/Community etc: Region/State/Province etc.: Host Party(ies):
>> Municipalidad de Santiago de Liniers, Dep. Eldorado. A.4.1.4. Details of physical location, including information allowing the unique identification of this small-scale project activity : >> The Project is located 31 km from the city of Eldorado in the Municipality of Santiago de Liniers, Department Eldorado, Province of Misiones, Argentina. The project site is accessible from the Provincial No. 17 route that runs in the direction of Bernardo de Irigoyen. The project site is located on kilometer 31st of the provincial route, directly off the highway. Geographically, the Project site is located in the western part of the Misiones Province, close to Argentineans frontier with Brazil within the Misioness forest region. The project is located in the following coordinates: 262433.60S 542613.89W A.4.2. Type and category(ies) and technology/measure of the small-scale project activity: >> The Project conforms to the small scale projects Type I.D, Version 12, EB33 since the nominal installed capacity of the Project is below the 15 MW threshold and the plant, which is not a cogeneration unit, will decrease the grid electricity consumptions of the plant. In addition, the methane avoidance component of the project is eligible under Type III.E of the simplified procedures because in the project scenario the emissions related to the combustion of the biomass residues, thus avoiding methane production will be
lower than 60 kt CO2 equivalent annually. The project is classified within sectoral scopes 1 and 13, according to the sectoral scope definition provided by UNFCCC. The plant to be installed is composed by a boiler manufactured by Biochamm (imported from Brazil), model BGV-25000 with an installed capacity of 25 tonnes of steam per hour (temperature of 300 C and pressure of 21 Kgf/cm2). As mentioned in section A.2. above, there will be initially 4 steam engines (Phase I) and afterwards 2 turbines (Phase II), the units installed during phase I are temporary and will remain as back-up equipment once the two turbines of phase II become operacional. The units are described below:

Engine 1 Brand Type Serial Capacity Steam Pressure RPM Generator 1 Brand Type Serial Working Tension Current Capacity
Spillingweak 2cd2kv12 N: kw 16 bar 1000 AVK DIB120F/6D volt 1010 Amp. 700 Kva
Engine 2 Brand Type Serial Capacity Steam Pressure RPM Generator 2 Brand Type Serial Working Tension Current Capacity
PHASE I Engine 3 Spillingweak Brand 2D2KOV12 Serial N: 2329 Capacity 610 kw Steam Pressure 23.5 bar 1000 Generator 3 AVK Brand 51120FG/6D Type 3067 Serial 400 volt Working Tension 1010 Amp. Current 700 Kva Capacity
Buckav R Wolf N: kw 17.65 bar
Turbine 4 Brand Type Serial Working Tension Capacity Generator 4 Brand Serial Current Capacity

KKK CF8GS kg 700 kw

AVK DSG 52 M 1- Avolt 520 Amp. 360 Kva
Tenas S.A. 5062 985Amp. 680 Kva
Turbine 1 Brand Type Serial Capacity Steam Pressure Generator 1 Brand Type Serial Working Tension Current Capacity
PHASE II Turbine 2 Blohn +Voss A G Hamburg Brand KR 50/Type 452268 Serial 1500 kw Capacity 20 bar Steam Pressure Generator 2 AEG Brand DKBLR 630/04 Type 81472676 Serial 13800 volt Working Tension 78 Amp. Current 1875 Kva Capacity
Blohn +Voss A G Hamburg KR 50/kw 20 bar AEG DKBLR 630/13800 volt 78,5 Amp 1875 Kva
The technology and know-how being promoted by this project is environmentally safe and sound, and will further promote such activities in the future. The staff in charge of the operating new biomass electric generation units will receive the appropriate training to operate this equipment.

A.4.3 >>

Estimated amount of emission reductions over the chosen crediting period:
Table 2: Annual estimation of emission reductions over the chosen crediting period:
Years Year 1 Year 2 Year 3 Year 4 Year 5 Year 6 Year 7 Total estimated reductions

(tonnes of CO2)

Annual estimation of emission reductions over the chosen crediting period
6,207 9,183 12,057 14,832 17,512 20,100 22,598 102,489 21
Total number of crediting years Annual average over the crediting period of estimated reductions (tonnes of CO2)

14,641

A.4.4. Public funding of the small-scale project activity: >> The project will not receive any public funding from Parties included in Annex I A.4.5. Confirmation that the small-scale project activity is not a debundled component of a large scale project activity: Based on the information provided in Appendix C of the simplified modalities, this Project is not a debundled component of a larger project activity since the project participants have not registered or developed other CDM project, neither operated another project in the region surrounding the project boundary. This small-scale renewable energy project is not part of a larger emission-reduction project given that this is the unique CDM project proposed by project developer.

Table 3- key information and data used to determine the baseline scenario

Variable

Operating Margin Emissions Factor (EF_OMy, in tCO2/MWh) Build Margin Emissions Factor (EF_BMy, in tCO2/MWh) Baseline Emissions factor (EFy)
Unit tCO2/MWh tCO2/MWh tCO2/MWh
Data Source CAMMESA CAMMESA CAMMESA
The baseline is defined as the Mercado Electrico Mayorista system in Argentina. The total installed capacity of the system is 24,081 MW4, that consists in 13,141 MW of thermal power, provided in Annex 3 of this document. The wood industry is one of the major activities in the region where the project is located. These sawmills generate huge amounts of biomass residues (sawmill residues), only the 44% of the total amount of fresh wood is converted into final product5. As a result, sawmills accumulate a huge amount of biomass that is left to decay, generating associated methane emissions in this process. The biomass to be 1,005 MW of nuclear power and 9,935MW of hydro power. The components of the grid, and thus of the baseline, are
CAMMESAs Annual Report 2005. p. 16.
Censo de la Foresto Industria 2000, Comparativo del ingreso de la materia prima con relacin a la salida de productos terminados. http://www.misiones.gov.ar/ecologia/Todo/Bosques/Censo/censoforestal%2019.htm
used in the project activity will be related to residues that would be left for decay on solid waste disposal site in the absence of the project activity. The Establecimiento Don Guillermo received 120,000 tonnes of fresh wood per year and generates at least around of 39%6 in residues or 47,000 tonnes a year of wood residues which are disposed on a solid waste disposal site onsite. Please refer to annex 3 for more details.
B.5. Description of how the anthropogenic emissions of GHG by sources are reduced below those that would have occurred in the absence of the registered small-scale CDM project activity: According to the simplified modalities and procedures for CDM small-scale project activities, evidence to why the proposed project is additional can be shown by conducting an analysis of the following: (a) investment barriers, (b) technological barriers, (c) prevailing practice, and (d) other barriers. The result is a matrix that summarizes the analyses, providing an indication of the barriers faced by each scenario. The most plausible scenario will be the one with the fewest barriers.
The first step in the process is to list the likely future scenarios. Two scenarios were considered: Scenario 1 - The continuation of current activities This scenario represents the continuation of current practices, which is continued consumption of electricity from the grid, whose generation is based on higher carbon intensity. Also methane emissions proceed as usual from the decay of land filled biomass residues which continue to accumulate. Scenario 2 - The construction of the new renewable energy plant In this scenario, a new source of low carbon emissions electricity will be available and will displace the higher carbon intensity electricity prevailing in the baseline scenario with the consequently avoidance of methane emissions from the decay of the biomass residues now used to generate electricity.

The barriers are as follows: Financial/economical This barrier evaluates the viability, attractiveness and financial and economic risks associated with each scenario, considering the overall economics of the project and/or economic conditions in the country.
This percentage of residues production is based on Don Guillermoss data of production and performance. Represents less than the average sawmill residues production in the province as it is further discussed in this document.
Technical/technological This barrier evaluates whether the technology is currently available, if there are indigenous skills to operate it, if the application of the technology is a regional, national or global standard, and generally if there are technological risks associated with the particular project outcome being evaluated.
Prevailing business practice This barrier evaluates whether the project activity represents prevailing business practice in the industry. In other words, this barrier assesses whether in the absence of regulations it is a standard practice in the industry, if there is experience to apply the technology and if there tends to be high-level management priority for such activities.
With respect to financial/economical barriers: The continuation of current practices (Scenario 1) does not pose any financial/economical barrier to the project developer, and requires no further financing. The company has been performing profitably in the past years, as we can see on their financial reports and is within the region an example of good practices. The construction of a renewable energy plant (Scenario 2) faces specific financial/economic barriers due to the fact that the capital costs related to biomass electricity generation plants are very high. The capital costs involved in the project pose a barrier, especially considering the high interest rates prevalent in developing countries. Argentina in particular has been through a severe financial crisis, with government defaulting debt payments, which frighten external investors and diminish considerable the supply of financial instruments in the country. The consequences of the banking crisis in Argentina during 2001 and 2002 have not been fully overcome yet. Although the recovery of deposit started in the last quarter of 2002, as shown in the following chart, credits to the private sector showed a positive trend towards the end of 2004. However, this recovery is characterized by being focused on commercial and consumption credits, without even reaching the levels existing prior to the crisis. The government provides no direct subsidies or promotional support for the implementation of independent renewable energy plants. The project developer searched for loans to finance the project, but interest rates are very high, which imposes a financial hurdle to the project. In relation to the above, the first work document of 2006 of the Central Bank of Argentina states that the development of financial services in Argentina is quite low. Likewise, the relative underdevelopment of capital markets may be observed. In this connection, the document concludes

AMS I.D. Renewable electricity generation for a grid (Version 12, EB 33) offers the following choices for preparing the baseline calculation for this type of project activity:
(a) A Combined margin (CM), consisting of the combination of operating margin (OM) and build margin (BM) according to the procedures prescribed in the approved methodology ACM0002. Any of the four procedures to calculate the operating margin can be chosen, but the restrictions to use the Simple OM and the Average OM calculations must be considered. OR (b) The weighted average emissions (in kg CO2equ/kWh) of the current generation mix.
The methodology used for the calculation of baseline emissions from the use of grid electricity follows option (a) of the approved baseline methodology AMS-I.D Version 12, EB 33, which uses a combined margin (CM), consisting of the combination of operating margin (OM) and build margin (BM) according to the procedures described in ACM0002. The Project is using ex ante emission reductions calculation, a
3-year data vintage is used based on the most recent statistics available at the time of PDD submission. The source of the data is the CAMMESA and the National Energy Secretary (Secretara National de Energa).
The baseline emissions factor (EFy) is the weighted average of the Operating Margin emission factor (EF_OMy) and the Build Margin emission factor (EF_BMy):
EF y = [ OM EF _ OM y ] + [ BM EF _ BM y ](1)
where: EF_OMy is the operating margin carbon emissions factor, expressed in tCO2/MWh EF_BMy is the build margin carbon emissions factor, expressed in tCO2/MWh and the weights

are by default 0.5.

The Operation Margin emission factor (EF_OMy) For OM calculation, the Option (a) of the Consolidated Methodology for Grid Connected Projects (Simple Operating Margin) will be applied. Low-cost must run resources constitute less than 50%11 of total grid generation and detailed data to apply option (c) is not available. In addition, Option (c) (Dispatch Data Analysis) will not be used because even if data was available, the costs of processing the data would be beyond the amount considered to be affordable by the project developer.
The simple Operating Margin (OM) emission factor (EF_OM, simple_adjusted,y) is calculated as the generation-weighted average emissions per electricity unit (tCO2/MWh), of all generating sources serving the system, not including low-operating cost and must-run power plants. A three-year average, based on the most recent fuel consumption statistics available at the time of PDD submission, is used.

EF _ OM

( tCO 2 / MWh ) =

F i , j , y COEF GEN j

Where:
Please refer to Annex 3 of this document for more details on the generation shares of the grid.
Fi,j,y is the amount of fuel i (in TJ) consumed by power source j in year y; j is the set of plants delivering electricity to the grid,; COEFi,j,y is the carbon coefficient of fuel i (tCO2/TJ); GENj.y is the electricity (MWh) delivered to the grid by source j.
The Build Margin emission factor (EF_BMy) To calculate the Build Margin (BM), the formulae should be the following according to the ACM0002:

EF _ BM y (tCO2 / MWh) =

Fi,m, y COEF,m ] i GENm. y ] m
where Fi.m,y, COEFi,m and GENm,y are analogous to the variables described for the OM calculation above for plants m, where sample group m is defined according to the ACM0002. Sample group m is the 20% of the total system generation that have been built most recently and comprises the larger annual generation when comapare to the five power plants that have been built most recently12. Finally, baseline emissions, BEy,EGen, are given by:
BE y , EGen (tCO 2 ) y = EF y (tCO 2 / MWh ) EG y ( MWh ) y (4 )
*Where EGy stands for Don Guillermo biomass net electricity generation for year y.
AMS-III.E. Avoidance of methane production from biomass decay through controlled combustion, (Version 13, EB 33)
The baseline calculation for methane avoidance is determined based on item 11 of AMS-III.E. The baseline emissions are the amount of methane generated from the decay of the biomass content of the
waste treated in the project activity. The Yearly Methane Generation Potential is calculated using a first order decay (FOD) model based on the discrete time estimate method proposed in the Tool to determine methane emissions avoided from dumping waste at a solid waste disposal site(methane emission tool), as referred to in AMS-III.G. landfill methane recovery (Version 4). Baseline emissions shall exclude methane emissions that would have to be removed or combusted to comply with national or local safety requirement or legal regulations.
BEy,MA = BE,CH4,SWDS,y MDreg,y* GWP_CH4

BEy,MA BECH4,SWDS,y

MDreg,y GWP_ CH4
Baseline emissions for the methane avoidance component at year y during crediting period (tCO2e) Methane emissions avoided during the year y from preventing waste disposal at the solid waste disposal site (SWDS) during the period from the start of the project activity (x=1) to the end of the year y, calculated according to AMS III.G, (tCO2e) Methane that would be destroyed or removed in the year y for safety or legal regulation Global Warming Power for CH4 (value of 21 is used for the first commitment period)

In this project, no methane would be destroyed or removed for safety or legal regulations, thus, MDreg,y. is equal to zero.There are no regulations in Argentina requiring the capture and utilisation or destruction of methane from wood residues disposal sites, nor is such an activity common practice in the host country, and nor is it carried out at any of the wood residues disposal sites associated with this project activity. As described in AMS III.G, the amount of methane produced in the year y (BECH4,SWDS,y) is calculated as follows:
Please refer to Annex 3 for more details.
f GWPCH4 OX F DOCf MCF Wj,x DOCj kj j x y
Model correction factor to account for model uncertainties (0.9) Fraction of methane captured at the SWDS and flared, combusted or used in another manner Global Warming Potential (GWP) of methane, valid for the relevant commitment Period Oxidation factor (reflecting the amount of methane from SWDS that is oxidised in the soil or other material covering the waste) Fraction of methane in the SWDS gas (volume fraction) (0.5) Fraction of degradable organic carbon (DOC) that can decompose Methane correction factor Amount of organic waste type j prevented from disposal in the SWDS in the year x (tons) Fraction of degradable organic carbon (by weight) in the waste type j Decay rate for the waste type j Waste type category (index) Year during the crediting period: x runs from the first year of the first crediting period (x = 1) to the year y for which avoided emissions are calculated (x = y) Year for which methane emissions are calculated
Based on the Tool to determine methane emissions avoided from dumping waste at a solid waste disposal site used in AMS III G, and in careful consideration of wood biomass waste characteristics, the k and DOCj values used were the ones for the wood and wood products and straw category13, with a Mean Annual Temperature (MAT) > 20 C , and Mean Annual Precipitation (MAP) > 1000mm14. This corresponds to: k = 0.03515 and DOCj = 43%16. The following table illustrates the values used:
Parameter Model correction factor to account for model uncertainties ( ) Fraction of methane captured in the SWDS and flared, combusted or used in another manner (f)

Value 0.9 0

Source/Calculation Tool to determine methane emissions avoided from dumping waste at a solid disposal site Client
The biomass used in the project activity comprises exclusively sawmill residues like sawdust and wood chips.
National Meteorological Service, http://www.smn.gov.ar/?mod=bdatos&id=1, see annex 3. Default value taken from IPCC 2006 Guidelines for National Greenhouse Gas Inventories (adapted from Volume 5, Table 3.3) 16 Default value taken IPCC 2006 Guidelines for National Greenhouse Gas Inventories (adapted from Volume 5, Tables 2.4 and 2.5)
Oxidation factor (OX) Fraction of methane in the landfill gas (F) Fraction of DOCf

0 0.5 0.5

Methane Concentration Factor( MCF)
Tool to determine methane emissions avoided from dumping waste at a solid disposal site Tool to determine methane emissions avoided from dumping waste at a solid disposal site Tool to determine methane emissions avoided from dumping waste at a solid disposal site Tool to determine methane emissions avoided from dumping waste at a solid disposal site. 0.8 selected because biomass supplied to project are disposed in deep unmanaged disposal sites which have a depths greater than 5 meters17.
Project activity emissions: The project emissions, which are defined as the amount of GHGs that would be emitted to the atmosphere due to the presence of the project activity, shall include
a. CO2 emissions related to the combustion of the non-biomass carbon content of the waste (plastics, rubber and fossil derived carbon) and auxiliary fuels used in the combustion facility. b. Incremental CO2 emissions due to incremental distances between the collection points to the controlled combustion site and to the baseline disposal site as well as transportation of combustion residues and final waste from controlled burning site to disposal site. c. CO2 emissions related to the power used by the project activity facilities, including the equipments for air pollution control required by regulations. In case the project activity consumes grid-based electricity, the grid emission factor (kgCO2e/kWh) is used, or it is assumed that diesel generators would have provided a similar amount of electric power, calculated as described in category I.D.
PEy = PEy,comb + PEy,transp + PEy,power
Where: PEy PEy,comb PEy,transp PEy,power Project activity direct emissions in the year y (tonnes of CO2 equivalent) Emissions through combustion of non-biomass carbon in the year y Emissions through incremental transportation in the year y Emissions through electricity or diesel consumption in the year y
This project will use only sawmill residues biomass, therefore there will be no inorganic residues consumption and the emissions for PEy,comb component is equal to zero. Project activity emissions from trucks for incremental collection activities will be estimated and considered as project activity emissions. PEy,transp = (Qy/CTy) * DAFw * EFCO2 + (Qy,ash/CTy,ash) * DAFash * EFCO2 Where: Qy CTy DAF EFCO2 Qy,ash CTy,ash DAFash Quantity of waste combusted in the year y (tonnes) Average truck capacity for waste transportation (tonnes/truck) Average incremental distance for waste transportation (km/truck) CO2 emission factor from fuel use due to transportation (kgCO2/km, IPCC default values or local values can be used. Quantity of combustion residues produced in the year y (tonnes) Average truck capacity for combustion residues transportation (tonnes/truck) Average distance for combustion residues transportation (km/truck)

Identification of power sources (j or m) to calculate Operating Margin emission factors. Plant name (BM) Identification of power source/plant for the BM CAMMESA See Annex 3 Data choice and calculation method as per ACM0002. Ex-ante approach will be used, thus this data do not need to be monitored.
Identification of plants (j or m) to calculate Build Margin emission factors.
III.E Methodology parameters Data / Parameter: Data unit: Description: Source of data used: Value applied: Justification of the choice of data or description of measurement methods and procedures actually applied : Any comment: Data / Parameter: Data unit: Description: Source of data used: Value applied: Justification of the choice of data or description of measurement methods and procedures actually applied : Any comment: Data / Parameter: Data unit: Description: Source of data used: Value applied: Justification of the choice of data or description of measurement methods and procedures actually applied : Any comment: Model correction factor to account for model uncertainties Tool to determine methane emissions avoided from dumping waste at a solid waste disposal site Annex 14, EB 26, as in effect from 06/10/2007 0.9 Data choice as per the methane emission tool.
OX Oxidation factor (reflecting the amount of methane from SWDS that is oxidized in the soil or other material covering the waste) Tool to determine methane emissions avoided from dumping waste at a solid waste disposal site Annex 14, EB 26, as in effect from 06/10/Data choice as per the methane emission tool.
F Fraction of methane in the SWDS gas (volume fraction) Tool to determine methane emissions avoided from dumping waste at a solid waste disposal site Annex 14, EB 26, as in effect from 06/10/2007 0.5 Data choice as per the methane emission tool.
This factor reflects the fact that some degradable organic carbon does not degrade, or degrades very slowly, under anaerobic conditions in the SWDS. A default value of 0.5 is recommended by IPCC.
Data / Parameter: Data unit: Description: Source of data used: Value applied: Justification of the choice of data or description of measurement methods and procedures actually applied : Any comment: Data / Parameter: Data unit: Description: Source of data used: Value applied: Justification of the choice of data or description of measurement methods and procedures actually applied : Any comment:
DOCf Fraction of degradable organic carbon (DOC) that can decompose Tool to determine methane emissions avoided from dumping waste at a solid waste disposal site Annex 14, EB 26, as in effect from 06/10/2007 0.5 Data choice as per the methane emission tool.
MCF Methane correction factor Tool to determine methane emissions avoided from dumping waste at a solid waste disposal site Annex 14, EB 26, as in effect from 06/10/2007 0.8 Default value for unmanaged solid waste disposal sites deep and/or with high water table. This comprises all SWDS not meeting the criteria of managed SWDS and which have depths of greater than or equal to 5 meters and/or high waste table at near ground level. The methane correction factor (MCF) accounts for the fact that unmanaged SWDS produce less methane from a given amount of waste than managed SWDS, because a larger fraction of waste decomposes aerobically in the top layers of unmanaged SWDS. DOCj Fraction of degradable organic carbon (by weight) in the waste type j Tool to determine methane emissions avoided from dumping waste at a solid waste disposal site Annex 14, EB 26, as in effect from 06/10/2007 43% Data is applicable for wet wood, wood wastes or straws.

(b) methane avoidance Quantity of waste combusted and prevented from disposal The project developer will install a conveyor belt scale before biomass enters into the boiler in order to weight the amount of biomass fired in the boiler, which in absence of the project activity would be left for decay. The consistency of the data will be verified through the actual sawmill production records and the efficiency of the sawmill operation. In case the project activity consumes third party biomass, purchase invoice will be kept and the distance from the supplier will be considered to calculate project emissions due to the biomass transportation. Quality Control and Quality Assurance Quality control and quality assurance procedures will guarantee the quality of data collected. The conveyor belt will undergo maintenance subject to manufacturers requirements. Moreover, all
monitoring equipment is calibrated regularly by qualified personnel in line with manufacturers specifications. Before the crediting period starts, the organisation of the monitoring team will be established and clear roles and responsibilities will be assigned to all staff involved in the CDM project. At the end of each month the monitoring data needs to be filed electronically. The electronic files need to have regular back-up. This information will be transferred to EcoSecurities on a monthly basis in order to monitor emission reductions. All the data shall be kept until two years after the end of crediting period. B.8 Date of completion of the application of the baseline and monitoring methodology and the name of the responsible person(s)/entity(ies) >> The baseline was completed on 05/06/07. The baseline for this project was developed by: Daniela Alvarez, EcoSecurities (Chile), daniela.alvarez@ecosecurities.com And Paulo Kessler, EcoSecurities Brasil Ltda, paulo@ecosecurities.com The monitoring plan was designed by Marcelo Aguiar, marcelo.aguiar@ecosecurities.com.
SECTION C. Duration of the project activity / crediting period C.1 Duration of the project activity:
C.1.1. Starting date of the project activity: >> Starting date: 19/05//2006
C.1.2. Expected operational lifetime of the project activity:
>> 25y-0m C.2 Choice of the crediting period and related information: C.2.1. Renewable crediting period The project activity will use a renewable crediting period of 7 years. C.2.1.1. >> Starting date 01/01/2008 Starting date of the first crediting period:

C.2.1.2. >> 7y-0m

Length of the first crediting period:
C.2.2. Fixed crediting period: Not Applicable C.2.2.1. >> Not Applicable, see C.2.1.1 C.2.2.2. >> Not Applicable, see C.2.1.2 Length: Starting date:
SECTION D. Environmental impacts >> D.1. If required by the host Party, documentation on the analysis of the environmental impacts of the project activity: >> Establecimiento Don Guillermo currently has all required environmental licenses and operating permits in compliance with national regulation. There permits are renewed in an annual basis. All environmental impacts from the project activity are expected to be positive, since the project contributes to solve the disposal problem of excess biomass residue which is prevalent in the locality. The local authority has not requested an Environmental Impact Assessment study for the project, however the generation unit must be declared and included in the environmental licences of the sawmill. If environmental impacts are considered significant by the project participants or the host D.2. Party, please provide conclusions and all references to support documentation of an environmental impact assessment undertaken in accordance with the procedures as required by the host Party: >> No significant environmental impacts are expected from the project activity, since all effects are considered to be positive for the local community. SECTION E. Stakeholders comments >> E.1. >> Brief description how comments by local stakeholders have been invited and compiled:

According to Oficina Argentina del Mecanismo para un Desarrollo Limpio, any CDM project could send a letter with a description of the project and an invitation for comments by local stakeholders. In this case, letters were sent to local stakeholders, which includes local community associations, national and local environment authorities, NGOs, the University and local community in general , as indicated on the following list: EMSA CEEL - Cooperativa de Electricidad de Eldorado Limitada Ministerio de Ecologa, Recursos Naturales Renovables y Turismo Facultad de Ciencias Forestales FCF de la Universidad Nacional de Misiones AMAYADAP Asociacin Maderera, Aserraderos, y Afines del alto Paran Iglesia Luterana Unida, Congregacin la Paz del Valle Hermoso Agrupacin ecologista 9 de Julio Municipalidad de Santiago de Liniers.
Local stakeholders were invited to raise their concerns and provide comments on the project activity for a period of 30 days after receiving the letter of invitation. E.2. Summary of the comments received: >> No comments have been received to the moment. E.3. Report on how due account was taken of any comments received: >> Not applicable
Annex 1 CONTACT INFORMATION ON PARTICIPANTS IN THE PROJECT ACTIVITY Project sponsor: Organization: Street/P.O.Box: Building: City: State/Region: Postfix/ZIP: Country: Telephone: FAX: E-Mail: URL: Represented by: Title: Salutation: Last Name: Middle Name: First Name: Department: Mobile: Direct FAX: Direct tel: Personal E-Mail: Establecimiento Don Guillermo S.L.C.
Ruta Provincia n 17, km 31, Dep. Municipalidad de Santiago de Liniers, Misiones 3380
Argentina +421-904 donguillermosrl@ceel.com.ar Mr. Gruber Alfredo
Project Carbon advisors and Project Annex 1 sponsor: Organization: Street/P.O.Box: Building: City: State/Region: Postfix/ZIP: Country: Telephone: FAX: E-Mail: URL: Represented by: Title: Salutation: Last Name: Middle Name: First Name: Department: Mobile: Direct FAX: Direct tel: Personal E-Mail: EcoSecurities Group Plc. 40 Dawson Street Dublin 02 Ireland +9814 +4716 info@ecosecurities.com www.ecosecurities.com COO & President Dr. Moura Costa Pedro

cdm@ecosecurities.com

Annex 2 INFORMATION REGARDING PUBLIC FUNDING Not Applicable
Annex 3 BASELINE INFORMATION
The table below summarizes the parameters used in the financial analysis of the project activity. Table 3.1. Financial Parameters
Financial Parameters Discount Rate Exchange Rate Investment Operational Costs Contingencies Insurance Installed Capacity Net Energy Electricty Price (paid by consumers) Electricty Cost (to sell to the grid) Income Tax Value 19% 3.05 1,300,000 130,000 65,000 26,2.42 69.42 13.Unit

Continuation of Table 3.4.
CABRA CORRAL CASSAFFOUSTH CHOCON CRUZ DEL EJE EL CADILLAL EL TIGRE EL TUNAL ESCABA FITZ SIMON LA CALERA LA VIA LOS MOLINOS I LOS MOLINOS II LOS REYUNOS NIHUIL 1 NIHUIL 2 NIHUIL 3 NIHUIL 4 P.BANDERITA P.DEL AGUILA PIEDRAS MORAS PUEBLO VIEJO QUEB.DE ULLUM QUIROGA REOLIN RIO HONDO RIO GRANDE SALTO GRANDE SAN ROQUE ULLUM YACYRETA CASA DE PIEDRA IMPORTACION
4/30/1994 4/30/1994 4/30/1994 4/30/1994 4/30/1994 4/30/1994 9/1/1997 4/30/1994 4/30/1994 4/30/1994 4/30/1994 4/30/1994 4/30/1994 4/30/1994 4/30/1994 4/30/1994 4/30/1994 4/25/1997 4/30/1994 4/30/1994 9/22/1995 4/30/1994 4/30/1994 4/30/1994 4/30/1994 4/30/1994 4/30/1994 N/A 4/30/1994 4/30/1994 9/1/1994 2/7/1996
89,463 56,981 4,181,419 1,047 49,810 70,587 42,593 64,108 55,256 11,146 26,785 163,777 22,973 358,469 490,664 544,364 215,405 199,711 2,182,363 7,332,605 34,484 55,812 244,898 12,933 47,954 141,923 385,234 2,083,190 63,512 298,305 12,609,678 426,038 1,124,525
134,463 60,392 3,203,090 1,900 26,344 58,099 38,481 55,347 57,655 11,405 26,077 106,965 9,423 273,139 422,836 436,906 168,566 145,088 1,986,449 6,090,046 36,521 57,381 154,877 12,071 53,305 120,364 459,371 3,788,387 71,125 229,203 12,299,152 278,050 1,736,194
135,087 49,664 2,790,339 2,650 37,611 47,439 46,589 58,106 48,767 5,673 22,321 107,189 2,544 200,840 380,257 378,563 145,798 108,805 999,198 5,523,051 34,020 56,169 163,903 11,132 37,793 120,501 220,568 2,802,048 65,412 233,119 11,785,192 221,180 1,561,461
The expected annual net electricity generation of 7,358 MWh/year is estimated using a plant load factor of 70% correspondent to the technology used and 8,760 hours a year of operation of the plant and a net generation capacity of 1,2MW, that correspond to the required capacity to cover the internal demand of the sawmill.
Table 3.5. Mean Annual Temperatures and Precipitation in Department of Iguaz* - Misiones Province. Statistic Data (1981-1990 time period)
! " # $ % % # & ' ( ) *
Source: Servicio Nacional de Meteorologa, Ministerio de Defensa de Argentina , Secretara de Planificacin *Iguaz is the nearest Department to Eldorado in the Province of Misiones for which statistic data was available at the National Meteorological Service. From the table above the Mean Anual Temperature is 20.7 oC and the Mean Annual Precipitation is 1,919.1mm.

DEPARTMENT OF DEFENSE INDEX OF SPECIFICATIONS AND STANDARDS

DODISS NOTICE

1 OCTOBER 2000 / FOR PERIOD 15 SEP 2000 TO 30 SEP 2000 / VOL. 18/ NO. 00

ATTENTION

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This Notice provides important information about all new, revised, amended, and cancelled standardization documents indexed by the Document Automation and Production Service, 700 Robbins Avenue, Bldg. 4/D, Philadelphia, PA 19111-5094 for the period indicated. DOD documents will be available within 5 days. Activity codes and symbols are defined in the general provisions of the DODISS, and also in the DOD Standardization Directory SD-1. Additional paper copies of this Notice are not available, however local reproduction is encouraged.

ACTIVE SECTION

Last Action
Distribution Prep. Acty FSC/Area MCA

DOCUMENT NUMBER

DOCUMENT TITLE
GUNS, MACHINE, CALIBRE.50, BROWNING, M2, HEAVY BARREL[CUST: AR OS 99] [REVIEW: 11 MC] CARTRIDGE, IMPULSE, MARK 19 MOD 0[CUST: OS] INITIATOR, CARTRIDGE ACTUATED, M53 REMANUFACTURED METAL PARTS ASSEMBLY[CUST: OS 99] [REVIEW: 70] INITIATOR, CARTRIDGE ACTUATED, M53 ASSEMBLY[CUST: OS 99] [REVIEW: 70] TEST REQUIREMENTS AND METHODS FOR AIRCRAFT HYDRAULIC AND EMERGENCY PNEUMATIC SYSTEMS[Test Method Standard][CUST: AV AS 99] [REVIEW: 82 CG GS MC MI] BEARINGS, PLAIN, SELF-ALIGNING, (BE-CU BALL, CRES RACE), GENERAL SPECIFICATION FOR CRIMPING AND BEADING MACHINES, SHEET METAL, MANUALLY OPERATED, ROTARY TYPE, DEEP THROAT STYLE[CUST: AL 99 GS] [REVIEW: 84] MANDRELS, MACHINE, SOLID[CUST: AL 99 GS] [REVIEW: 84] CHUCKS, DRILL, KEY TYPE, THREE-JAW, GEARED[CUST: AL 99 GS] [REVIEW: 84] TANK, STORAGE, LIQUID OXYGEN/LIQUID NITROGEN, TMU-24/E[CUST: AV AS 99 GS] [REVIEW: 11 MI YD] TANK, MOBILE STORAGE, LIQUID OXYGEN TMU-27/M[CUST: AV AS 99 GS] [REVIEW: YD] TRUCK, LIFT, FORK, DIESEL-ENGINE-DRIVEN, PNEUMATIC-TIRED, 10,000 POUND CAPACITY[CUST: MI 99] HOSE, TETRAFLUOROETHYLENE, HIGH TEMPERATURE, MEDIUM PRESSURE SCREW, MACHINE - STEEL, SLOTTED, HEXAGON HEAD,.190-32, NI-CAD PLATE[CUST: AS IS] SCREW, MACHINE - STEEL, SLOTTED HEXAGON HEAD,.250-28 NI-CAD PLATE[CUST: AS IS] SCREW MACHINE HEXAGON HEAD STEEL 164-36 UNJF-3A[CUST: AS 11 IS] SCREW, MACHINE STEEL AMS 6322, CADMIUM PLATE, HEXAGON HEAD,.138-40 UNJF-3A[CUST: AV AS 99 IS] SCREW, MACHINE STEEL AMS 6322, CADMIUM PLATE, HEXAGON HEAD,.164-36 UNJF-3A[CUST: AV AS 99 IS] SCREW, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, DRILLED, PD SHANK, SILVER PLATED,.138-40 UNJF-3A[CUST: AV AS] SCREW, MACHINE - HEXAGON HEAD, PD SHANK, TITANIUM AMS 4967,.138-40 UNJF-3A[CUST: AS 99] BOLT, MACHINE - STEEL, AMS 6322, CADMIUM PLATED, DOUBLE HEXAGON, EXTENDED WASHER HEAD, CUP WASHER LOCKED,.190-32 UNJF-3A[CUST: AS 99] SCREW, MACHINE - DOUBLE HEXAGON, EXTENDED WASHER HEAD, DRILLED, SILVER PLATED, CORROSION AND HEAT RESISTANT STEEL,.138-40 UNJF-3A[CUST: AV AS 99] BOLT, MACHINE - STEEL AMS 6304, DIFFUSED NICKEL-CADMIUM PLATED, DOUBLE HEXAGON EXTENDED WASHER HEAD,.190-32 UNJF-3A[CUST: AS IS] BOLT, MACHINE - STEEL AMS 6322, BLACK OXIDE, DRILLED, 1 HOLE, HEXAGON HEAD,.190-32 UNJF-3A[CUST: AS 99 IS] BOLT, TEE HEAD - AMS 6322, CHAMFERED,.190-32 UNJF-3A, CADMIUM PLATE (ASG)[CUST: AS 99 IS] BOLT, TEE HEAD - AMS 6322, CHAMFERED,.250-28 UNJF-3A, CADMIUM PLATE (ASG)[CUST: AS IS] BOLT, MACHINE - STEEL AMS 6304, DIFFUSED NICKEL-CADMIUM PLATED, HEXAGON HEAD, DRILLED,.3125-24 UNJF-3A (ASG)[CUST: AS 99 IS] BOLT, MACHINE, HEXAGON HEAD, STEEL,.375-24 UNJF-3A[CUST: AS 99 IS] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, DRILLED, PD SHANK, SILVER PLATED,.375-24 UNJF-3A[CUST: AV AS] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, DRILLED, PD SHANK, AMS 5731, SILVER PLATED,.500-20 UNJF-3A[CUST: AV AS 99] BOLT, MACHINE - HEXAGON HEAD, DRILLED, 6 HOLES, FULL SHANK,.190-32 UNJF-3A[CUST: AS 99] BOLT, MACHINE - CRES, AMS 5731, DOUBLE HEXAGON, EXTENDED WASHER HEAD, CUP WASHER LOCKED,.3125-24 UNJF-3A[CUST: AS 99] BOLT, MACHINE - CRES, AMS 5731, DOUBLE HEXAGON, EXTENDED WASHER HEAD, CUP WASHER LOCKED,.375-24 UNJF-3A[CUST: AS 99] BOLT, MACHINE - STEEL, AMS 6322, CADMIUM PLATED, DOUBLE HEXAGON, EXTENDED WASHER HEAD, CUP WASHER LOCKED,.250-28 UNJF-3A[CUST: AS 99] BOLT, MACHINE - HEXAGON HEAD, DRILLED, 1 HOLE, PD SHANK, STEEL AMS 6304, DIFFUSED NICKEL CADMIUM PLATE,.190-32 UNJF-3A[CUST: AS 99] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, PD SHANK, CRES AMS 5643,.190-32 UNJF-3A[CUST: AS 99] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, PD SHANK, TITANIUM AMS 4967,.190-32 UNJF-3A[CUST: AS] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, PD SHANK, TITANIUM AMS 4967,.250-28 UNJF-3A[CUST: AS] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, DRILLED, PD SHANK, TITANIUM AMS 4967,.190-32 UNJF-3A[CUST: AS] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, DRILLED, PD SHANK, TITANIUM AMS 4967,.250-28 UNJF-3A[CUST: AS] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, PD SHANK, STEEL AMS 6322, CADMIUM PLATED,.4375-20 UNJF-3A[CUST: AS 99] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, DRILLED, FULL SHANK, STEEL AMS 6322, CADMIUM PLATED,.375-24 UNJF-3A[CUST: AS 99] STUD, SHOULDERED, HEXAGON WRENCHING, DRILLED, STEEL,.190-32 NF-3A X.190-32 NF-3A[CUST: AR AS 99 IS] WASHER, KEY - CRES, AMS 5510, 180 DEG. LOCKING[CUST: AV AS 11 IS] NUT, CASTELLATED, HEXAGON-A-286[CUST: AV AS 11 IS] NUT, PLAIN, HEX-DRILLED - A-286, SILVER PLATED[CUST: AV AS IS] CAPS, VENT, FUEL STORAGE TANK[CUST: YD 99] [REVIEW: 82 84] SWITCHES, PUSH, MOMENTARY, 2 CIRCUIT, UNSEALED AND SEALED[CUST: CR EC 11 CC] [REVIEW: AR AS AV MC MI OS SH] SWITCHES, SENSITIVE, SPST, 5 AMPERES, RESILIENT SEAL[CUST: CR EC 11 CC] [REVIEW: 99 AR AS AV CR4 MC MI OS SH] SWITCHES, SENSITIVE, SPST, 5 AMPERES, RESILIENT SEAL[CUST: CR EC 11 CC] [REVIEW: 99 AR AS AV CR4 MC MI OS SH]

22-SEP-00 13-SEP-00 12-SEP-00 12-SEP-00 17-MAR-00 14-AUG-00 25-SEP-00 25-SEP-00 25-SEP-00 11-SEP-00 11-SEP-00 25-SEP-00 18-SEP-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 AUG-00 12-JUN-97 19-SEP-00 19-SEP-00 19-SEP-00
M MIL-G-1298A NOT 2 M MIL-DTL-22653D M MIL-DTL-48412B M MIL-DTL-60286C M MIL-STD-5522 M QPL-SAE-AS81936-1 M A-A-51159B M A-A-51129C M A-A-51140B M MIL-PRF-27720F M MIL-PRF-38170H M A-A-59340A M QPL-27267-17 N SAE-AS9316 N SAE-AS9317 N SAE-AS9450 N SAE-AS9516 N SAE-AS9517 N SAE-AS9572 N SAE-AS9631 N SAE-AS9680 N SAE-AS9712 N SAE-AS9208 N SAE-AS9294 N SAE-AS9397 N SAE-AS9398 N SAE-AS9442 N SAE-AS9454 N SAE-AS9577 N SAE-AS9579 N SAE-AS9583 N SAE-AS9678 N SAE-AS9679 N SAE-AS9681 N SAE-AS9685 N SAE-AS9732 N SAE-AS9750 N SAE-AS9751 N SAE-AS9759 N SAE-AS9760 N SAE-AS9918 N SAE-AS9944 N SAE-AS9308 N SAE-AS9276 N SAE-AS9358 N SAE-AS9360 N F-C-2916 M MIL-PRF-8805/20K(1) M MIL-PRF-8805/44E M MIL-PRF-8805/45F
A 1005 A 1377 A 1377 A 1377 A 1650 A 3120 A 3441 A 3460 A 3460 A 3655 A 3655 A 3930 A 4720 A 5305 A 5305 A 5305 A 5305 A 5305 A 5305 A 5305 A 5305 A 5305 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5307 A 5310 A 5310 A 5310 A 5430 A 5930 A 5930 A 5930 / / / / /
AR OS OS OS AS AS GS GS GS 84 CC IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS YD CC CC CC
SWITCHES, SENSITIVE, SPST, 4 AMPERES, HERMETIC[CUST: CR EC 11 CC] [REVIEW: AM AS AT AV MC MI OS SH] SWITCHES, SENSITIVE, DPDT AND 4PDT, PLUNGER OR ROLLER, 4 AMPERES, HERMETICALLY SEALED CONTACTS, RESILIENT SEALED PLUNGER[CUST: CR EC 11 CC] [REVIEW: AR AS AV MC MI OS SH] CONNECTOR, RECEPTACLE, ELECTRICAL, GENERAL PURPOSE, DUPLEX, GENERAL GRADE AND HOSPITAL GRADE, GROUNDING, 2 POLE, 3 WIRE, 20 AMPERES, 125 VOLTS, 50/60 HERTZ, BOX MOUNT AND SNAP-IN MOUNT[CUST: CR EC 11 CC] [REVIEW: AS AV CR4 MC MI SH] SOCKETS AND ACCESSORIES FOR PLUG-IN ELECTRONIC COMPONENTS, GENERAL SPECIFICATION FOR RELAYS, ELECTROMAGNETIC, ESTABLISHED RELIABILITY, DPDT, LOW LEVEL TO 10 AMPERES, PERMANENT MAGNET DRIVE, HERMETICALLY SEALED, ALL WELDED, AC COILS[CUST: CR EC 11 CC] [REVIEW: 99] RELAYS, ELECTROMAGNETIC, ESTABLISHED RELIABILITY, DPDT, LOW LEVEL TO 10 AMPERES, MAGNETIC LATCH, HERMETICALLY SEALED, ALL WELDED, TRANSIENT SUPPRESSED DC COILS[CUST: CR EC 11 CC] [REVIEW: 99] RELAYS, ELECTROMAGNETIC, ESTABLISHED RELIABILITY, 4PDT, LOW LEVEL TO 10 AMPERES, PERMANENT MAGNET DRIVE, HERMETICALLY SEALED, ALL WELDED, TRANSIENT SUPPRESSED DC COIL[CUST: CR EC 11 CC] [REVIEW: 99] RELAYS, ELECTROMAGNETIC, ESTABLISHED RELIABILITY, 4PDT, LOW LEVEL TO 10 AMPERES, MAGNETIC LATCH, HERMETICALLY SEALED, ALL WELDED, TRANSIENT SUPPRESSED DC COILS[CUST: CR EC 11 CC] [REVIEW: 99] RELAYS, ELECTROMAGNETIC, ESTABLISHED RELIABILITY, 3PDT, LOW LEVEL TO 10 AMPERES, PERMANENT MAGNET DRIVE, HERMETICALLY SEALED, ALL WELDED, TRANSIENT SUPPRESSED DC COILS[CUST: CR EC 11 CC] [REVIEW: 99] RELAYS, ELECTROMAGNETIC, ESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR SEMICONDUCTOR DEVICE, TRANSISTOR, NPN, SILICON, SWITCHING TYPES 2N2369A, 2N3227, 2N4449, 2N2369AU, 2N3227U, 2N4449U, 2N2369AUA, 2N3227UA, 2N4449UA, 2N2369AUB, 2N3227UB, AND 2N4449UB, JAN, JANTX, JANTXV, JANS, JANHC AND JANKC[CUST: CR EC 11 CC NA] [REVIEW: 99 AR AS CG MC MI SM] SEMICONDUCTOR DEVICE, DIODE, SILICON, RECTIFIER, MODULE HIGH VOLTAGE, 1N5597, 1N5600, 1N5603, JAN, JANTX AND JANTXV[CUST: CR EC 11 CC] [REVIEW: 70 AS CG MC OS] AMPLIFIER, RADIO FREQUENCY AND MICROWAVE, SOLID-STATE, NARROWBAND, DIP CONFIGURATION[CUST: CR EC 11 CC] [REVIEW: AS AV MC MI OS SH] AMPLIFIERS, RADIO-FREQUENCY AND MICROWAVE, SOLID-STATE, LOW NOISE, WIDEBAND, TO CONFIGURATION[CUST: CR EC 11 CC] [REVIEW: 99 AS AV MC OS SH] AMPLIFIERS, RADIO-FREQUENCY AND MICROWAVE, SOLID-STATE, LOW NOISE, WIDEBAND, COAXIAL CONFIGURATION[CUST: CR EC 11 CC] [REVIEW: AV MC MI OS SH] AMPLIFIERS, RADIO-FREQUENCY & MICROWAVE, SOLID- STATE, POWER, WIDEBAND, TO CONFIGURATION[CUST: CR EC 11 CC] [REVIEW: 99 AS AV MC MI OS SH] AMPLIFIERS, RADIO-FREQUENCY AND MICROWAVE, SOLID-STATE, WIDEBAND, TO CONFIGURATION[CUST: CR EC 11 CC] [REVIEW: AS AV MC MI OS SH] AMPLIFIERS, RADIO-FREQUENCY AND MICROWAVE, SOLID-STATE, WIDEBAND, LOW PROFILE, TO CONFIGURATION[CUST: CR EC 11 CC] [REVIEW: AS AV MC MI OS SH] BATTERY, RECHARGEABLE, SEALED, BB-XX68/U[CUST: CR] DRY CLEANING AND DEGREASING SOLVENT, PD680[CUST: GS] PAN ROASTING, AND SHEET PAN: ALUMINUM, WITH NO-STICK COATED FINISH[CUST: GL SA 99] [REVIEW: 84 MC MD1 QM1 SS] WOOL FELT, STANDARD SPECIFICATION FOR[CUST: GL NU 11 CT] SCREEN, LATRINE, FIRE, WATER WEATHER AND MILDEW RESISTANT TREATED[CUST: GL 82 CT] [REVIEW: MD] TENTS, EXTENDABLE, MODULAR, PERSONNEL (TEMPER), ASSEMBLY COMPONENTS[CUST: GL NU CT] [REVIEW: MC] VEST, CONDITIONING MICROCLIMATE: AIR[CUST: GL MC CT] [REVIEW: MD] COVER, WATERPROOF, MULTIPURPOSE[CUST: GL NU CT] [REVIEW: MC] LUBRICANT, SOLID FILM: HEAT CURED, CORROSION INHIBITING LUBRICANT, SOLID FILM, AIR CURED (CORROSION INHIBITING) BRAKE FLUID, SILICONE, AUTOMOTIVE, ALL WEATHER, OPERATIONAL AND PRESERVATIVE, METRIC ARMOR PLATE, STEEL, WROUGHT, HOMOGENEOUS (FOR USE IN COMBAT-VEHICLES AND FOR AMMUNITION TESTING)[CUST: MR] [REVIEW: AR AT AV IS TE] PACKAGING OF PETROLEUM AND RELATED PRODUCTS[Military Standard][CUST: SM SA 68 GS] [REVIEW: AR AS CR4 MC MI MR PS SH YD] ANALOG-TO-DIGITAL CONVERSION OF VOICE BY 2,400 BIT/SECOND MIXED EXCITATION LINEAR PREDICTION (MELP)[Military Standard][CUST: CR EC 02 NS] [REVIEW: AM DC1 MC NC TD]

19-SEP-00 19-SEP-00 30-AUG-00 18-SEP-00 12-OCT-00 12-OCT-00 12-OCT-00 12-OCT-00 12-OCT-00 20-SEP-00 08-SEP-00
M MIL-PRF-8805/46D M MIL-PRF-8805/70J M W-C-596/40D M QPL-12883-31 M MIL-PRF-83536/11A M MIL-PRF-83536/13A M MIL-PRF-83536/16B M MIL-PRF-83536/19A M MIL-PRF-83536/22A M QPL-39016-85 M MIL-PRF-19500/317H
A 5930 A 5930 A 5935 A 5935 A 5945 A 5945 A 5945 A 5945 A 5945 A 5945 A 5961 /
CC CC CC CC CC CC CC CC CC CC CC
M MIL-PRF-19500/404C(1) M MIL-DTL-28875/1A M MIL-DTL-28875/5A M MIL-DTL-28875/6A M MIL-DTL-28875/8A M MIL-DTL-28875/10A M MIL-DTL-28875/12A N MIL-PRF-32052/11 N A-A-59601 N A-A-59605 M ASTM-D2475-88R93 M MIL-DTL-43176D M MIL-DTL-44271B M MIL-DTL-44132C M A-A-55080A M QPL-46010-13 M QPL-46147-6 M QPL-46176-9 M MIL-A-12560H(3) M MIL-STD-290F N MIL-STD-3005
A 5961 A 5985 A 5985 A 5985 A 5985 A 5985 A 5985 A 6140 A 6850 A 7330 A 8305 A 8340 A 8340 A 8415 A 8465 A 9150 A 9150 A 9150 A 9515 A PACK A TCSS / / /
CC CC CC CC CC CC CC CR GS GL CT CT CT CT CT AT AT AT MR GS NS
06-SEP-00 24-AUG-00 24-AUG-00 24-AUG-00 24-AUG-00 24-AUG-00 24-AUG-00 26-SEP-00 27-SEP-00 19-SEP-00 29-APR-88 15-SEP-00 15-SEP-00 23-AUG-00 24-AUG-00 12-SEP-00 12-SEP-00 12-SEP-00 27-SEP-00 17-JUL-00 20-DEC-99

INACTIVE SECTION

KNIFE, BAYONET, MULTIPURPOSE, M9 WITH SCABBARD[CUST: AR] RELAY, ELECTROMAGNETIC, GENERAL SPECIFICATION FOR TRANSFORMERS, POWER, ISOLATION, SHIELDED[CUST: CR EC 11 CC] [REVIEW: AR AS MC MI OS SH] ELECTRON TUBE, RECEIVING TYPE 5751[CUST: CR EC 11 CC] [REVIEW: 99 AR AS CG MC]
18-AUG-00 22-SEP-00 14-SEP-00 11-AUG-00
M MIL-K-70606(3) NOT 1 M QPL-5757-97 M MIL-PRF-27/235D M MIL-E-1/10H(2) NOT 3
A 1005 A 5945 A 5950 A 5960

AR CC CC CC

CANCELED SECTION
TEST REQUIREMENTS AND METHODS FOR AIRCRAFT HYDRAULIC AND EMERGENCY PNEUMATIC SYSTEMS (S/S BY MIL-STD-5522)[CUST: AV AS 99] [REVIEW: CG GS MC MI] VALVE, RELIEF, CYLINDRICAL, TYPE II SYSTEM (NO S/S DOCUMENT)[CUST: 99] SCREW, MACHINE - STEEL, SLOTTED HEXAGON HEAD,.190-32, NI-CAD PLATE (S/S BY SAE-AS9316)[CUST: AS IS] SCREW, MACHINE-STEEL, SLOTTED HEXAGON HEAD,.250-28 NI-CAD PLATE (S/S BY SAE-AS9317)[CUST: AS IS] SCREW MACHINE HEXAGON HEAD STEEL 164-36 UNJF-3A (S/S BY SAE-AS9450)[CUST: AS 11 IS] [REVIEW: 82] SCREW, MACHINE STEEL AMS 6322, CADMIUM PLATE, HEXAGON HEAD,.138-40 UNJF-3A (S/S BY SAE-AS9516)[CUST: AV AS 99 IS] SCREW, MACHINE STEEL AMS 6322, CADMIUM PLATE, HEXAGON HEAD,.164-36 UNJF-3A (S/S BY SAE-AS9517)[CUST: AV AS 99 IS] SCREW, MACHINE-DOUBLE HEXAGON EXTENDED WASHER HEAD, DRILLED, PD SHANK, SILVER PLATED,.138-40 UNJF-3A (S/S BY SAE-AS9572)[CUST: AV AS] [REVIEW: 82 AR] SCREW, MACHINE - HEXAGON HEAD, PD SHANK, TITANIUM AMS 4967,.138-40 UNJF-3A (S/S BY SAE-AS9631)[CUST: AS 99 IS] SCREW, MACHINE-DOUBLE HEXAGON, EXTENDED WASHER HEAD, DRILLED, SILVER PLATED, CORROSION AND HEAT RESISTANT STEEL,.138-40 UNJF-3A (S/S BY SAE-AS9712)[CUST: AV AS 99 IS] [REVIEW: 11]

26-SEP-00 05-SEP-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 31-AUG-00 25-AUG-00 25-AUG-00 25-AUG-00 14-SEP-00 14-SEP-00 13-SEP-00 13-SEP-00 14-SEP-00 30-SEP-00 30-SEP-00
M MIL-T-5522D(1) NOT 2 M MS28887D NOT 3 M MS9316 NOT 1 M MS9317A NOT 1 M MS9450A NOT 1 M MS9516C NOT 1 M MS9517C NOT 2 M MS9572D NOT 1 M MS9631B NOT 1 M MS9712A NOT 1
A 1650 A 4820 A 5305 A 5305 A 5305 A 5305 A 5305 A 5305 A 5305 A 5305 A 5305 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5306 A 5307 A 5310 A 5310 A 5310 A 6505 A 6505 A 6505 A 6610 A 7310 A 7310 A 7310 A 8340 A CMAN A CMAN / / / / / /
AS 71 IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS IS MB MB MB GS SS SS SS CT SE SE
M AN117001THRUAN117040 REV 1 NOT 2 SCREW - OVAL FILLISTER HEAD,.164-32 (S/S BY SAE-AS117001THRUAS117040)[CUST: AV AS 99 IS] [REVIEW: MI] M MS9208 NOT 2 M MS9219 NOT 2 M MS9294(1) NOT 1 M MS9397(1) NOT 1 M MS9398 NOT 1 M MS9442(1) NOT 1 M MS9577B(1) NOT 1 M MS9579C NOT 2 M MS9583B(1) NOT 2 M MS9678B(1) NOT 2 M MS9679B(1) NOT 1 M MS9680B(1) NOT 1 M MS9681B NOT 2 M MS9685 NOT 2 M MS9732(1) NOT 1 M MS9750 NOT 2 M MS9751 NOT 2 M MS9759 NOT 2 M MS9760 NOT 2 M MS9918 NOT 2 M MS9944 NOT 2 M MS9308B NOT 1 M MS9276B NOT 2 M MS9358C NOT 1 M MS9360B NOT 2 M A-A-51926A NOT 1 M A-A-53553 NOT 1 M A-A-54059 NOT 1 M QPL-7968-6 NOT 2 M A-A-50042A NOT 1 M S-O-865B NOT 2 M W-T-550D NOT 2 M MIL-F-1461H NOT 1 M MIL-STD-973 NOT 4 M MIL-STD-973(I3) NOT 4 BOLT, MACHINE - STEEL AMS 6304, DIFFUSED NICKEL-CADMIUM PLATED, DOUBLE HEXAGON EXTENDED WASHER HEAD,.190-32 UNJF-3A (S/S BY SAE-AS9208)[CUST: AS IS] BOLT, MACHINE - STEEL AMS 6304, DIFFUSED NICKEL-CADMIUM PLATE, DOUBLE HEXAGON EXTENDED WASHER HEAD,.3125-24 UNJF-3A (S/S BY SAE-AS9219)[CUST: AS IS] BOLT, MACHINE-STEEL AMS 6322, BLACK OXIDE, DRILLED, 1 HOLE, HEXAGON HEAD,.190-32 UNJF-3A (S/S BY SAE-AS9294)[CUST: AS 99 IS] BOLT, TEE HEAD - AMS 6322, CHAMFERED,.190-32 UNJF-3A, CADMIUM PLATE (ASG) (S/S BY SAE-AS9397)[CUST: AS 99 IS] BOLT, TEE HEAD - AMS 6322, CHAMFERED,.250-28 UNJF-3A, CADIUM PLATE(ASG) (S/S BY SAE-AS9398)[CUST: AS IS] BOLT, MACHINE - STEEL AMS 6304, DIFFUSED NICKEL-CADMIUM PLATED, HEXAGON HEAD, DRILLED,.3125-24 UNJF-3A (ASG) (S/S BY SAE-AS9442)[CUST: AS 99 IS] BOLT, MACHINE-DOUBLE HEXAGON EXTENDED WASHER HEAD, DRILLED, PD SHANK, SILVER PLATED,.375-24 UNJF-3A (S/S BY SAE-AS9577)[CUST: AV AS IS] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, DRILLED, PD SHANK, AMS 5731, SILVER PLATED,.500-20 UNJF-3A (S/S BY SAE-AS9579)[CUST: AV AS 99] [REVIEW: AR] BOLT, MACHINE-HEXAGON HEAD, DRILLED, 6 HOLES, FULL SHANK,.190-32 UNJF-3A (S/S BY SAE-AS9583)[CUST: AS 99 IS] BOLT, MACHINE-CRES, AMS 5731, DOUBLE HEXAGON, EXTENDED WASHER HEAD, CUP WASHER LOCKED,.3125-24 UNJF-3A (S/S BY SAE-AS9678)[CUST: AS 99 IS] BOLT, MACHINE-CRES, AMS5731, DOUBLE HEXAGON, EXTENDED WASHER HEAD, CUP WASHER LOCKED,.375-24 UNJF-3A (S/S BY SAE-AS9679)[CUST: AS 99 IS] BOLT, MACHINE-STEEL, AMS 6322, CADMIUM PLATED, DOUBLE HEXAGON, EXTENDED WASHER HEAD, CUP WASHER LOCKED,.190-32 UNJF-3A (S/S BY SAE-AS9680)[CUST: AS 99 IS] BOLT, MACHINE-STEEL AMS 6322, CADMIUM PLATED, DOUBLE HEXAGON EXTENDED WASHER HEAD, CUPWASHER LOCKED,.250-28 UNJF-3A (S/S BY SAE-AS9681)[CUST: AS 99] [REVIEW: 82] BOLT, MACHINE - HEXAGON HEAD, DRILLED, 1 HOLE, PD SHANK, STEEL AMS 6304, DIFFUSED NICKEL CADMIUM PLATE,.190-32 UNJF-3A (S/S BY SAE-AS9685)[CUST: AS 99] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, PD SHANK, CRES AMS 5643,.190-32 UNJF-3A (S/S BY SAE-AS9732)[CUST: AS 99 IS] [REVIEW: 11] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, PD SHANK, TITANIUM AMS 4967,.190-32 UNJF-3A (S/S BY SAE-AS9750)[CUST: AS] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, PD SHANK, TITANIUM AMS 4967,.250-28 UNJF-3A (S/S BY SAE-AS9751)[CUST: AS] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, DRILLED, PD SHANK, TITANIUM AMS 4967,.190-32 UNJF-3A (S/S BY SAE-AS9759)[CUST: AS] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, DRILLED, PD SHANK, TITANIUM AMS 4967,.250-28 UNJF-3A (S/S BY SAE-AS9760)[CUST: AS] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, PD SHANK, STEEL AMS 6322, CADMIUM PLATED,.4375-20 UNJF-3A (S/S BY SAE-AS9918)[CUST: AS 99] BOLT, MACHINE - DOUBLE HEXAGON EXTENDED WASHER HEAD, DRILLED, FULL SHANK, STEEL AMS 6322, CADMIUM PLATED,.375-24 UNJF-3A (S/S BY SAE-AS9944)[CUST: AS 99] [REVIEW: 82 CG MC] STUD, SHOULDERED, HEXAGON WRENCHING, DRILLED, STEEL,.190-32 NF-3A X.190-32 NF-3A (S/S BY SAE-AS9308)[CUST: AR AS 99 IS] [REVIEW: 82] WASHER, KEY-CRES, AMS 5510, 180 DEG. LOCKING (S/S BY SAE-AS9276)[CUST: AV AS 11 IS] [REVIEW: CG SH] NUT, CASTELLATED, HEXAGON-A-286 (S/S BY SAE-AS9358)[CUST: AV AS 11 IS] [REVIEW: 82 AR CR MI] NUT, PLAIN, HEX-DRILLED - A-286, SILVER PLATED (S/S BY SAE-AS9360)[CUST: AV AS IS] [REVIEW: CR MI] DIPHENHYDRAMINE HYDROCHLORIDE CAPSULES, USP (NO S/S DOCUMENT)[CUST: MD MS 03] DIPYRIDAMOLE TABLETS, USP (NO S/S DOCUMENT)[CUST: MD MS 03 MB] DIENESTROL CREAM, USP (NO S/S DOCUMENT)[CUST: MD MS 03 MB] POSITION INDICATING ASSEMBLIES, ELECTRICAL, WHEELS AND FLAPS (NO S/S DOCUMENT) OVENS, BAKING AND ROASTING, FORCED CONVECTION, GAS (NO S/S DOCUMENT)[CUST: GL YD 99 SS] [REVIEW: 84 MC MD] OVEN, REVOLVING TRAY, BAKING AND ROASTING, COMPACT, (GAS, ELECTRIC) (NO S/S DOCUMENT)[CUST: GL YD 99 SS] [REVIEW: MD] TOASTER, ELECTRIC, POP-UP/POP-DOWN, HEAVY-DUTY, INTERMITTENT (NO S/S DOCUMENT)[CUST: GL SH 99 SS] [REVIEW: 82 MD YD] FRAME SECTIONS, TENT, MAINTENANCE (NO S/S DOCUMENT)[CUST: GL 99 CT] [REVIEW: 11 82] CONFIGURATION MANAGEMENT (NO S/S DOCUMENT)[Military Standard][CUST: AR AS 10 SE] [REVIEW: 19 AC AL AM AT AV CE CG CR CR4 DH EA GL HD IE LM MC MD MI MR NM OS PT SH SM TM YD] CONFIGURATION MANAGEMENT (NO S/S DOCUMENT)[Military Standard][CUST: AR]

CONFIGURATION MANAGEMENT DATA INTERFACE (NO S/S DOCUMENT)[Interface Standard][CUST: AR NM 16 NS] [REVIEW: 94 AC AL AM AS AT AV CE CG CH CR CR4 CR5 DC DC1 DC5 DH DI EA EC GL HD IE LM MC MD MI MR ND NP OM OS OST PT SH SM TD TM TM2 US YD]

30-SEP-00

M MIL-STD-2549 NOT 1

A CMAN