environmental accounting and life cycle analysis
TRANSCRIPT
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Environmental Accounting and Life Cycle Analysis
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Outline
Some basic concepts Inflation Discounting Accounting
Environmental AccountingLife-cycle Analysis
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Inflation
Price increases due to macroeconomic factors5% annual inflation means prices increase by
5% each year. FV = PV(1+i)
PV is price todayFV is price next year i is rate of inflation
Accounting for inflation is important if you are comparing expenditures or revenues across time periods.
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Discounting
Time value of money Would you rather have $100 today? Or
$100 next month? If you know you will get $10,000 in 10
years, would you agree to take less money if you could have it now?
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Discounting
$10,000 10 years from now I will give you $5,584 now and I will get
your $10,000 in 10 years.Why did I pick $5,584?PV = FV/(1+r)n
r is discount raten is number of years into the future
$5584 = $10,000/(1.06)10
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Would you accept $5,584?If I give you $5,584 and you deposit it
into a savings account that earns 6% per year for 10 years,
$5584 (1.06)10 = $10,000Discounting is important if you are
comparing expenditures or revenues across time periods.
Discounting
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Accounting
Credits Money in
Debits Money out
An business’s accounting system keeps track of everything that is spent and everything that is earned.
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Environmental Accounting
What is spent on environmentally related inputs or outputs?
What income is generated from environmentally related inputs or outputs?
Environmental audits are conducted to discover these things and whether they are being accurately accounted for.
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Conventional Company Costs Often Factored Into Decision-making
Environmental costs potentially overlooked in decision-making – regulatory, voluntary, upfront, operational, back-end, overhead, future, contingent and image/relationship costs
Social Costs
Social Costs
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Evaluating Abatement Options
1. Measure baseline waste generation2. Measure baseline abatement costs3. Identify options4. Measure costs and benefits of each
option5. Discount costs and benefits to present
value6. Compare options and baseline7. Conduct sensitivity analysis
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Measure Baseline Waste Generation
Describe production processLocate waste sourcesIdentify types of waste for each
sourceMeasure waste generation per
source
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Measure Baseline Costs C(W)
Abatement costs (estimate inputs and input prices) Waste water (e.g., waste water
treatment plant) Waste gases (e.g., baghouse,
electrostatic precipitator) Solid waste (e.g., incineration, landfill,
hazardous waste disposal)
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Measure Baseline Costs C(W)
Regulatory costs (estimate inputs and input prices) Up-front (e.g., permits, training) Operating (e.g., record-keeping,
reporting, monitoring) Back-end (e.g., decommissioning) Contingent (e.g., noncompliance fines,
accident clean-up)
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Identify Abatement Options
Waste management (disposal, treatment, recycling)
Waste reduction (product redesign, good housekeeping, material substitution, process redesign)
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Measure Costs and Benefits of Options
Costs Abatement costs
Investment costs (equipment, installation, training, permits)
Annual operating costs (labor, energy, materials, depreciation)
Regulatory costsBenefits
Revenue gains (e.g., recycled materials)
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Discounting Costs and Benefits
PV = FVt / (1 + r)t
Choose r to reflect next best opportunity forgone (e.g., rate of return earned in next best investment)
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Compare Options
Change in costs from baseline
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Sensitivity Analysis
Inflation assumptionDiscount rate assumptionRisk assumption
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Example
Firm that cleans used metal parts
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Measure Baseline Waste Generation
New solvent
Waste disposal
Fugitive emissions
CLEANING PROCESS
4,000 gallons
3,950 gallons
50 gallons
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Measure Baseline Costs
Input solvent $3.50/gallon × 4,000 = $14,000 per
yearWaste disposal
$2.50/gallon × 3,950 = $9,875 per year
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Assumptions
5% inflation rateReal price increase for solvent of 1%
annuallyReal price increase for disposal of
4% annuallyDiscount rate of 6%
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Baseline Costs
Year Annual Cost
Inflation 5%+real price increases
PV (using 6%)
1 23875 23875 23875
2 23875 25603.75 24154.50
3 23875 27462.89 24441.87
4 23875 29462.64 24737.4
5 23875 31614.05 25041.29
6 23875 33929.07 25353.77
7 23875 36420.63 25675.11
8 23875 39102.71 26005.54
9 23875 41990.43 26345.31
10 23875 45100.15 26694.71total 252324.00
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Identify Options
1. Recycle solvent2. Use non-hazardous cleaning
method
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Measure Waste Generation for Option 1
New solvent
RECYCLE
Fugitive emissions
CLEANING PROCESS
360 gallons
3,950 gallons
50 gallons
Waste disposal
3,640 gallons
310 gallons
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Measure Benefits Option 1
No change in production of output, so no revenue change for output
No revenue from recycled solvent because it is used rather than sold.
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Measure Costs Option 1Investment Expense ($66,500)
$40,500 Tanks, pumps, mixers $20,000 Installation (design, piping, labor) $6,000 Contingency
Operating Expense $240 Utilities $5,000 Operations labor $3,325 Maintenance $1,260 New solvent (360gallons @ $3.50
per gallon) $775 Waste disposal (310 gallons @ $2.50
per gallon) $120 for training
$8,565
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Assumptions10 year equipment life, no salvage valueStraight-line annual depreciation (divide
capital cost by 10)Cost of capital is 12% annually for 3 year
equal payments5% inflation rateReal price increase for solvent of 1% annuallyReal price increase for disposal of 4%
annuallyDiscount rate of 6%
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Measure Waste Generation for Option 2
New solvent
Non-hazardous waste disposal to sewer
CLEANING PROCESS
4,000 gallons
4000 gallons
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Assumptions
5% inflation rateWaste solvent can be sewered at
negligible costDiscount rate of 6%
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4000 gallons solvent at $4.60/gallon.$120 for training
Measure Costs Option 2
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Outcome?
Comparing recycling to current practice, would save $81,317.23 over 10 years
Comparing material substitution to current practice, would save $75,702.02 over 10 years