Take the chart detailing the transported quantities and distances and table 3.2 as your basis for calculating the total energy consumption for transport. You do this by means of the following formula:

3.1.2.6 Total statement

You now need to present a total statement, accounting for all the energy consumed for the various processes.

For products where transport is not a significant issue, we recommend that you adapt the MECO chart by removing the "transport" column.

You now have to convert the energy consumption values into the equivalent consumption of oil resources. This is done by means of the following formula:

Enter the resultant values for energy resources, measured in mPR, in the MECO chart for each life-cycle phase.

3.1.3 Chemicals

In this connection, "chemicals" is a wide concept. Chemicals comprise chemical substances used in the product itself as well as all ancillary materials used throughout the product life-cycle. This will mainly concern ancillary materials used to manufacture the product, but ancillary materials used for e.g. maintenance during the use phase should also be included. If you know of any specific chemical substances which are being emitted or discharged into the environment, you should also include them in your assessment.

Take tables 2.3 – 2.5 in chapter 2 as your point of departure and prepare a list of all the ancillary materials and other chemicals used during the product life-cycle. Include information on the quantities used.

3.1.3.1 Information about chemicals

It is usually difficult to get exact information about the chemical substances found in a given product. It is, however, necessary to collect as much information as possible in order to assess the environmental impact.

Good supplier directions comprise 16 items, include a PR number (Product Register No.) and should not be older than two years.

Item 2 of suppliers' directions list the contents of hazardous substances, including information on the approximate quantities and a danger classification.

Appendix B includes an overview of individual danger categories. It also provides explanations of R phrases and S phrases.

If you need to look for more information about a substance, having a CAS number is helpful. CAS is short for Chemical Abstract Service, and each CAS number is unique for the chemical substance in question.

3.1.3.2 Assessing chemicals

You should collect the information about all the chemical substances included in the product life-cycle in a chart as illustrated in table 3.2

Table 3.2
Assessment of chemicals

Fill in the first four columns of the chart with the information you have.

The "Impact List" is a special list prepared by the Danish Environmental Protection Agency. It comprises approximately 1,400 substances which are regarded as particularly problematic due to their environmental and health-related properties.

As at 2000, the "List of Undesirable Substances" numbered approximately 60 substances. The relevant substances have been included on this list because they are widely used and because the Danish Environmental Protection Agency regards them as particularly problematic.

The "List of Dangerous Substances" comprises a very large number of substances which have been assessed by the EU in terms of the danger they represent to the environment and human health. These substances are known as classified substances. The List of Dangerous Substances is essentially a list of examples, but even so it contains many substances which are widely used.

Check whether any of the substances on your chart are included in these lists. If a substance appears in one of the lists, mark this in the table by checking one or both of the columns with the headings "Impact List" and "List of Undesirable Substances". If the substance appears in the List of Dangerous Substances, you should enter the substance classification in the relevant column.

The lists mentioned above do not address chemical substances which degrade the ozone layer, as these substances are already largely banned in Denmark. If, however, you are dealing with products such as cooling systems, fire extinguishers or foam insulation, you need to be aware of whether the substances are ozone-depleting. You can look this op in Appendix B, table B.7.

3.1.4 Other

Use the column "other" to note down any issues which are significant for the environment and which have not been addressed in connection with your work with raw materials, energy, or chemicals.

Relevant issues might involve working-environment issues or special conditions regarding noise or odours which have not been addressed in any of the other sections.

You should also think about whether you need to look at any other issues in connection with the external environment. For example, this might involve changes to or sequestration of large areas of land in connection with raw materials extraction or landfilling. If the extraction of raw materials involves use of energy from waterpower, it may be relevant to look at the changes made to large areas of land due to damming.

3.2 Interpreting the MECO chart

3.2.1 The MECO chart

Start by preparing a full MECO chart with all information as described in the last section if you have not done so already.

If your environmental assessment involves several products, the charts should look as similar as possible. It is important that you save any secondary charts for later, in case you need them for a more in-depth assessment.

3.2.2 Interpreting the information on materials

The assessment of resources, measured in mPR, takes into account whether the materials used in the product have been made from scarce or plentiful resources. As a result, the assessment can be used directly for environmental comparisons.

All materials consumption in this initial environmental assessment has been calculated for new resources. This makes for a conservative assessment if it is possible to use reprocessed materials in the relevant product. For example, it is important to use new aluminium if you wish to exploit the conductive properties of this material, whereas it would be perfectly possible to use reprocessed aluminium for e.g. a coffee maker.

If the MECO chart features waste, you should be aware that various categories of waste cannot be immediately compared.

When carrying out your comparisons, you should take note of any comments in the "other" box in connection with materials.

3.2.3 Interpreting energy figures

The energy consumption has been measured in terms of process energy and the energy contents of the materials used.

For example, you can prepare energy balance sheets measured in MJ for two different products and compare them.

The calculations on energy resources measured in mPR can be used for comparisons with other resource consumption under "materials".

Bear in mind that the primary energy consumption has been converted into oil consumption. This makes for a very conservative assessment. Energy can be generated from other, less environmentally harmful raw materials.

Even so, energy consumption measured in mPR tells us something about the resource consumption involved, and so these figures can be used to carry out comparisons with the resource consumptions calculated under the heading "materials".

3.2.4 Interpreting chemical figures

To interpret the figures established for chemicals, you should use your additional chart, as illustrated in table 3.2, in addition to the MECO chart.

3.2.4.1 Chemicals lists

If a substance is listed in the List of Undesirable Substances, this is a clear indication that the substance has problematic properties in terms of the environment and/or working environment. It is likely that the substance will be banned or subject to stringent regulation in the short or longer term.

If a substance is listed in the Impact List, this signifies that it has undesirable properties in terms of the environment or working environment. The substance may be subject to regulations in the near future.

The List of Dangerous Substances is a list of examples. It comprises a wide range of substances which have primarily been assessed on the basis of their impact on human health. For some substances, assessment of environmental issues has also been carried out.

If a given substance does not appear in the List of Dangerous Substances, this does not mean that the substance is insignificant. All you can conclude from such an absence is that you know nothing about its properties.

3.2.4.2 An initial sorting

You can use the three lists mentioned above to carry out an initial sorting of the impacts on the environment and working environment associated with the substances found in the life-cycle of your product. In what follows, we describe one possible way to sort substances into one of three categories: type 1, 2 or 3.

Table 3.3 shows some examples of assessments of chemicals. As it will appear, the substances cadmium and chromium are designated as highly problematic, as they are toxic and are listed in both the Impact List and the List of Undesirable Substances. Xylene and 2-propanole are less harmful to the environment than the two metals, as will be apparent from their classification and type.

Table 3.3
Examples of assessments of chemicals

Exactly how many substances you choose to assess further depends on your overall goal, the relevant quantities of the individual substances, and the number of substances involved. Begin by including the most important substances; you can supplement this later if you wish.

3.2.4.3 Impact on human beings and the environment

As an aid to interpreting the importance of the chemicals, you might want to carry out further assessment of what happens to a given chemical during and after use - what are the possibilities for exposure to the relevant chemical? (Human exposure and/or environmental exposure). Even if you do not calculate the quantities involved, the results may well indicate where the chemicals might be problematical.

If several chemicals or ancillary materials are used during a product's life-cycle, or if large quantities are used, it is important to be clear on how they may affect their surroundings.

During use, some chemicals may give rise to problematic working-environment conditions. In other contexts, the impact on human beings will be minimal.

A number of ancillary materials will follow the product, e.g. paint. Others will be regarded as waste after use, e.g. discarded roller oil, and yet others will be emitted with wastewater from the company, e.g. alkaline degreasing agents.

Figure 3.2
Chart for assessment of the impact of a given substance

Use a chart like the one illustrated in figure 3.2 for each chemical or ancillary material that you choose to assess in greater detail. State the substance name in the first line of the chart.

You need to assess whether the chemical follows the product during its lifetime, thereby creating potential problems in connection with disposal. Enter a "yes" or "no" in the second line of the chart.

Then state which type you believe the chemical to be (highly problematical, problematical, or less problematical).

If you find that the substance affects the working environment, put an X in the appropriate box. If you do not know its impact, put a question mark instead.

The three boxes marked "Air", "Water", and "Waste" are used to assess how the substance enters the environment. If you know where the substance ends up, place an X in the appropriate box(es); if you are unsure, put a question mark instead. If, for example, you know that the substance emitted is not emitted into air, put a minus in the relevant box. Once all boxes are filled in, you have linked your previous sorting of the substance (identifying it as type 1, 2 or 3) and your knowledge about its fate in the environment.

The substances which have been identified as highly problematic or problematic and which are also emitted or discharged into the environment pose the greatest potential environmental threat and should be assessed in greater detail. Conversely, substances which are less problematic and which are not emitted pose only a minor threat to the environment.

Chapter 5 presents the semi-quantitative EDIP screening method which you can use to assign priorities to the substances which need to be assessed in greater detail.

The following conditions for environmental impacts can be used to carry out a rough interpretation of the significance of chemicals in relation to energy generation. For some of the most toxic of the highly problematic substances, the environmental impact of an emission of 1 g into the environment corresponds to the total environmental impact of the production of 1,000 – 10,000 MJ electricity (produced in Denmark). For the less dangerous, but still highly problematic substances, the corresponding figure would be approximately 10-100 MJ Danish electricity, whereas the problematic substances correspond to 1-10 MJ and the environmental impact of less problematic substances corresponds to that of less than 1 MJ Danish electricity.

You should always assign priorities to any substances which you have identified as type 1 substances, as well as any type 2 substances which appear in large quantities. For such substances, you should go on to carry out an actual chemical assessment – see chapter 5.

3.2.5 Other

Under the heading "other", you may have listed a number of different issues for which no specific instructions can be given.

Working-environment issues may concern noise or repetitive work in connection with production. They may involve allergy problems in connection with products that contain nickel, or emissions of solvents associated with certain paints. Ergonomic problems caused by poorly designed chairs may also be an issue.

Other issues might include use of large areas of land in the manufacture of vegetable oils or other, similar products. Energy generation based on waterpower also requires use of extensive areas.

One common feature of the issues listed above is that they are difficult to measure. You will have to make do with looking at these issues in a qualitative manner.

If you believe that the issues listed are significant to the overall impact assessment, or if you have any doubts about their importance, you should contact an expert to get advice on how to continue. See section 3.4.

3.3 Did you get answers to your questions?

You are now about to examine whether the MECO chart for your product(s) gives you the answers to the questions you asked when you defined the goal of your environmental assessment.

It is a good idea to always go through your work with someone else, explaining the various assumptions you have made. If your company does not have a person with relevant qualifications among the staff, you will have to consult with someone from outside the company.

The interpretation of your results and the overall assessment in relation to the objective of your work depends on how your assessment is to be used. This is why it is important to correlate your original goal with the uncertainties associated with the MECO chart.

If the goal is that your work should be used internally at the company in connection with product development, the requirements for documentation will be relatively modest.

Use table 1 in Appendix B to see which materials are regarded as less resource-intensive.

If you want to use a comparison between two products for marketing purposes, thorough documentation is crucial.

An environmental assessment carried out by means of a MECO chart will usually not provide sufficient documentation if the results are to be used externally. In such cases, it is also important to have an external expert review the materials.

3.3.1 Insufficiently clarified issues

If you have many insufficiently clarified questions, or if you feel something is missing, you will have to decide what sort of additional information you need.

It is important to distinguish between issues caused by:

	The preconditions
	Data uncertainty
	Lack of data

3.3.1.1 Preconditions

If the unclarified issues concern the product and the scope definition established for it, you will have to review the preconditions you made earlier. Perhaps you need to include more.

For example, you may need to find more information about the most common form of disposal for your product. If you do not know what the most common form is, but know that there are two options, you will have to consider both of them. Prepare a MECO chart for both options to assess whether the difference matters.

In other cases, you may face several options. In that case, you will have to establish some assumptions and see what their consequences are by preparing MECO charts – one for each option.

3.3.1.2 Data uncertainty

In order to be able to assess and compare your results, it is important that you carry out an assessment of the uncertainties associated with your results. There are two types of important uncertainties.

One type of uncertainty concerns the various figures measured. This kind of uncertainty will typically appear in connection with inventories of consumption of chemicals or energy. If you know the level of uncertainty, or if you can make an estimate of it, you should use the relevant figures. If you do not know the level of uncertainty, you should assume that all measured figures are subject to uncertainties of 25% and other figures are subject to uncertainties of 50%.

The second type of uncertainty has to do with the type of data you have been able to obtain. If your work has involved use of empirical figures or other figures from literature, variations in relation to your particular product(s) can be very significant. If you cannot assess this uncertainty yourself, you should assume that the figures may vary by a factor of 100%.

3.3.1.3 Lack of data

If you have difficulties in obtaining information about all the materials used to manufacture your product, or if other information is missing, you must try to assess the consequences of leaving out those elements.

For example, your lack of data may have to do with plastics. Most types of plastic are very similar. They are mainly made from oil and gas, the energy necessary to produce them is more or less the same for all types, and they have almost identical energy contents. In such cases, we recommend that you start by considering the total quantities: carry out calculations in the MECO chart to see whether it is important to know the exact type of plastic involved. If the precise nature of the plastic is important, you will need to seek further information – see section 3.4.

3.3.2 Where do you go from here?

You can continue your work in several different ways. The options described in this Handbook are outlined in figure

Figure 3.3
Options for further efforts once the MECO chart is complete

Examples of other possible assessments would be working-environment assessments, workplace assessments or risk assessments focusing on accidents and emissions into the surroundings. These possible types of assessment will not be addressed in any more detail in this Handbook.

The following contains some instructions which can be used as rules of thumb as you choose your next course of action.

3.3.2.1 Task complete

If you find that the MECO chart answers your questions with sufficient certainty in relation to the goal definition, your task is complete.

The MECO chart is suitable for providing a first indication of the most significant issues associated with the life-cycle of a given product. It also provides an excellent basis for choosing between various materials in connection with product development or for internal information within your company.

The MECO chart also shows that transport (primarily of coffee) is very significant to the total energy consumption.

As regards the raw materials used to manufacture the coffee maker, aluminium and copper account for the greatest environmental load. If the amounts used of these quantities can be minimised, the negative environmental impacts will also be reduced.

If you have the answers you were looking for, you are now ready to proceed to chapter 6. This chapter features recommendations on how to present your work.

3.3.2.2 Further data

If your review of the MECO chart shows that you need more data to describe the system or data about materials and energy, please consult section 3.4. Here, you will find instructions on how to find additional data.

Once you have obtained the additional data you need, you must enter them into your MECO chart and once again assess whether you need to continue your work.

3.3.2.3 Model simulations by means of a PC tool

If you want your assessment to be based on calculations of inputs and outputs, you should consider using a PC tool.

It may also be relevant to carry out a model simulation by means of the PC tool if you want to consider various changes to the product. This will make it possible to carry out the calculations in a more efficient manner.

If the MECO chart shows that a number of chemicals and ancillary materials are significant, you should carry out a chemical assessment and then later consider whether you wish to proceed with the PC tool.

3.3.2.4 Chemical assessment

If, by following the instructions in section 3.3.1.3, you have found out that chemicals and ancillary materials are significant to your environmental assessment, you should carry out a proper chemical assessment.

It is difficult to provide specific instructions on when it is relevant to carry out chemical assessment instead of a detailed LCA or as a supplement to a detailed LCA. The most important parameter for this choice is whether the chemicals in the product can be expected to have significant negative impacts on human health and the environment in relation to the raw materials contained within the product itself.

Please read chapter 5 before you start. It may be crucial to carry out a chemical assessment, but this can also be very difficult. You should consider having the entire chemical assessment – or parts of it –carried out by consultants/knowledge centres.

Once a chemical assessment has been carried out, you may want to proceed by using the PC tool. We recommend that you contact a knowledge centre which works with LCA in order to clarify this issue.

3.4 Find additional data

You will almost always need to seek additional data to supplement those already obtained.

If the supplier is also the manufacturer of the materials, you will be able to obtain excellent information about the contents of a given material or ancillary material. If the supplier acts only as dealer or importer, you may have to contact the actual manufacturer instead.

	For metals, it is important to identify the main component and any added materials.
	For plastics, it is important to identify the main component, any fillers and other additives as well as any residues of heavy metals and other impurities that may have an impact on the environment.
	For renewable resources, such as paper made from wood or oil made from plant seeds, it is important to obtain information on which substances and materials are used for manufacture. For example, paper production involves the use of chemicals as ancillary materials, and these ancillary materials account for more than 20% of the weight of the finished paper.
	In Denmark, the best documentation for chemicals is, generally speaking, a Danish Material Safety Data Sheet. You can requisition such safety sheets (often called MSDSs) from manufacturers or importers.
	If you need information in connection with the raw materials phase, e.g. information on the manufacture of a metal or manufacture of a particular kind of plastic, you will have to contact a knowledge centre for an expert opinion.
	Information about energy issues, energy consumption or energy contents in raw materials can be obtained on the Internet. Even so, it will often be necessary to seek advice from a knowledge centre.
	If you need conversion factors to calculate mPR values, you will have to contact a knowledge centre with experience of establishing such factors.

Of course, it is always possible to seek information on the Internet. Generally speaking, however, the data found on the Internet will usually not be given in a form which renders them suitable for your purposes.

At the website of the Danish Environmental Protection Agency, you can search for reports and projects which involve life-cycle assessments of one or more products. If one or more of these projects are about your product type, you may find relevant information that way. Some project reports are available at the website (http:// www.mst.dk), while others can be ordered from Miljøbutikken.

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