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  1. Pulp and Paper Effluent Regulations - SOR/92-269 (SCHEDULE II : Effluent Monitoring)

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    • 1 (1) Effluent from a mill other than the effluent from a mill that is deposited into a wastewater system, shall be monitored in accordance with this Schedule for

      • [...]

      • (d) volume; and

    [...]

    • 6 (1) For the purpose of monitoring the BOD of BOD matter and the quantity of suspended solids in the case of a mill whose effluent is described in subsection 1(1), there shall be collected, from each outfall structure during each daily period that the mill is depositing effluent,

      • [...]

      • (c) samples of the effluent in a quantity proportional to the effluent’s volume, collected at least every 15 minutes, for the preparation of a composite sample.

    [...]

    Volume of Effluent

    • 10 (1) For the purpose of monitoring the volume of effluent in the case of a mill whose effluent is described in subsection 1(1), the volume of effluent that is deposited through each outfall structure during each daily period shall be determined using the monitoring equipment referred to in paragraph 8(1)(b) of these Regulations.

    • (2) If the actual volume of effluent that is deposited cannot be determined because the monitoring equipment is malfunctioning, the volume shall be calculated based on flow rates that are estimated using generally accepted engineering principles.

    [...]

    13 If, under the authority of an authorization, treated effluent is combined with other effluent at a mill before being deposited, the effluent at the mill shall, in addition to being monitored in accordance with the other requirements of this Schedule, be monitored for the presence of acutely lethal effluent, for the BOD of BOD matter and for volume in accordance with sections 14 to 16.

    [...]

    • [...]

    • (2) The samples shall be collected in accordance with section 6 using equipment that is installed, maintained and calibrated so that it is capable of taking duplicate samples of effluent or a sufficient volume of effluent to obtain split samples, or

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    • 16 (1) For the purpose of monitoring the volume of effluent, the volume of each of the effluents referred to in section 15 shall, during each daily period that a sample is collected in accordance with that section, be determined as follows:

      • (a) if samples are collected in accordance with section 6 using equipment referred to in subsection 15(2), by using equipment that is installed, maintained and calibrated so that it permits the determination of the volume of the effluent using a method that accords with generally accepted engineering principles, such as a method referred to in paragraph 8(1)(b) of these Regulations; and

    • (2) If the volume of effluent is determined using equipment referred to in subsection (1), the requirements of subsections 8(2) and (3) of these Regulations apply in respect of that equipment.

    [...]

    • 20 (1) The sampling and testing, other than testing for pH levels and electrical conductivity, of the effluent that is deposited through each outfall structure may be conducted at a reduced frequency of once a month, and the volume of effluent that is deposited through that outfall structure may be calculated based on flow rates that are estimated using generally accepted engineering principles, if either of the following conditions is met:

      [...]

    [...]


  2. Federal-Provincial Fiscal Arrangements Regulations, 2007 - SOR/2007-303 (Section 8)

    • 8 (1) For the purpose of sections 3.71 to 3.9 of the Act, the expression revenue base means, in respect of a revenue source for a fiscal year,

      • [...]

      • (j) in the case of alcoholic beverage revenues described in paragraph 7(1)(j), the sum of

        • (i) the revenue derived by all provinces from the sale of spirits in the fiscal year, as determined by the Minister on the basis of information provided by the provinces and Statistics Canada, multiplied by a fraction whose numerator is the volume of spirits sold in the province in the fiscal year, as determined by Statistics Canada for the purpose of CANSIM table 183-0024, Sales of alcoholic beverages by volume, value and per capita 15 years and over, fiscal years ended March 31, and whose denominator is the aggregate, over all provinces, of those numerators,

        • (ii) the revenue derived by all provinces from the sale of wine in the fiscal year, as determined by the Minister on the basis of information provided by the provinces and Statistics Canada, multiplied by a fraction whose numerator is the volume of wine sold in the province in the fiscal year, as determined by Statistics Canada for the purpose of CANSIM table 183-0024, Sales of alcoholic beverages by volume, value and per capita 15 years and over, fiscal years ended March 31, and whose denominator is the aggregate, over all provinces, of those numerators, and

        • (iii) the revenue derived by all provinces from the sale of beer in the fiscal year, as determined by the Minister on the basis of information provided by the provinces and Statistics Canada, multiplied by a fraction whose numerator is the volume of beer sold in the province in the fiscal year, as determined by Statistics Canada for the purpose of CANSIM table 183-0024, Sales of alcoholic beverages by volume, value and per capita 15 years and over, fiscal years ended March 31, and whose denominator is the aggregate, over all provinces, of those numerators;

      • [...]

      • (l) in the case of forestry revenues described in paragraph 7(1)(l),

        • (i) from Crown land in the province, the value of production from logging on that land in the calendar year that ends in the fiscal year, which is the aggregate of the following products, for each of which the net merchantable volume is determined by Natural Resources Canada’s Canadian Forest Service for the purpose of its National Forestry Database, Table 5.1, Net Merchantable Volume of Roundwood Harvested by Category, Ownership, and Province/Territory:

          • (A) the net marketable volume of hardwood logs and bolts harvested from that land multiplied by the regional price of hardwood logs and bolts,

          • (B) the net marketable volume of softwood logs and bolts harvested from that land multiplied by the regional price of softwood logs and bolts,

          • (C) the net marketable volume of softwood pulpwood harvested from that land multiplied by the regional price of softwood pulpwood,

          • (D) the net marketable volume of hardwood pulpwood harvested from that land multiplied by the regional price of hardwood pulpwood,

          • (E) the net marketable volume of industrial roundwood, other than industrial roundwood referred to in clauses (A) to (D), harvested from that land multiplied by the regional price of industrial roundwood, other than industrial roundwood referred to in clauses (A) to (D), and

          • (F) the net marketable volume of fuelwood and firewood harvested from that land multiplied by the regional price of fuelwood and firewood, and

        • (ii) from private land in the province, the value of production from logging on that land in the calendar year that ends in the fiscal year, which is the sum of the products referred to in clauses (i)(A) to (F), for each of which the net merchantable volume is determined by Natural Resources Canada’s Canadian Forest Service for the purpose of its National Forestry Database, Table 5.1, Net Merchantable Volume of Roundwood Harvested by Category, Ownership, and Province/Territory;

      • [...]

      • (u) in the case of oil and gas revenues described in paragraph 7(1)(u), the sum of

        • (i) the total volume of the marketable production of oil, synthetic petroleum and condensate from hydrocarbon deposits in the province in the calendar year that ends in the fiscal year, as classified and determined by Statistics Canada on the basis of its survey Oil and Gas Extraction, and

        • (ii) the product of 0.968 and the total volume of the net production of gas from hydrocarbon deposits in the province in the calendar year that ends in the fiscal year, as classified and determined by Statistics Canada on the basis of its survey Oil and Gas Extraction;

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  3. Weights and Measures Regulations - C.R.C., c. 1605 (SCHEDULE IV : Tolerances for Local Standards)

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    PART IX

    Tolerance for Stoppered Pycnometer Standards

    Column I Column II
    Item Nominal Value of Local Standard Tolerance
    1 Any volume 0.02% of the volume

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    PART XI

    Tolerances for Cylindrical Graduated Standards of Volume that Have a Nominal Value Shown in Metric Units

    PART XII

    Tolerances for Cylindrical Graduated Standards of Volume that Have a Nominal Value Shown in Canadian Units

    PART XIII

    Tolerance for Master Meter Standards That are Used to Examine Liquefied Gas Measuring Machines

    Column I Column II
    Item Nominal Value of Local Standard Tolerance
    1 A volume corresponding to a delivery lasting at least one minute Not more than 0.05% difference in the registered volume for any number of tests made under the same controlled conditions

    PART XIV

    Tolerance for Master Meter Standards That are Used to Examine Meters Other Than Liquefied Gas Measuring Machines

    Column I Column II
    Item Nominal Value of Local Standard Tolerance
    1 A volume corresponding to a delivery lasting at least one minute No more than 0.03% difference in the registered volume for any number of tests made under the same controlled conditions

    PART XV

    Tolerance for Pipe Prover Standards with Entirely Mechanical Means of Registration

    Column I Column II
    Item Nominal Value of Local Standard Tolerance
    1 Any base volume 0.05% of the volume

    PART XVI

    Tolerance for Pipe Prover Standards with a Means of Registration other than Entirely Mechanical

    Column I Column II
    Item Nominal Value of Local Standard Tolerance
    1 Any base volume 0.02% of the volume

    [...]


  4. Weights and Measures Regulations - C.R.C., c. 1605 (Section 325)

    • 325 (1) Subject to subsection (5), when a measuring tank is tested for acceptance limits of error using a known test volume determined in relation to a relevant local standard and set out in Column I of an item of a table to subsection (3) or (4), the measuring tank is within the acceptance limits of error in respect of that known test volume if the actual volume of the measuring tank

      • (a) does not exceed the test volume by an amount in excess of the amount set out in Column II of that item; and

      • (b) is not less than the test volume by an amount in excess of the amount set out in Column II of that item.

    • (2) Subject to subsection (5), when a measuring tank is tested for in-service limits of error using a known test volume determined in relation to a relevant local standard and set out in Column I of an item of a table to subsection (3) or (4), the measuring tank is within the in-service limits of error in respect of that known test volume if the actual volume of the measuring tank

      • (a) does not exceed the test volume by an amount in excess of the amount set out in Column III of that item; and

      • (b) is not less than the test volume by an amount in excess of the amount set out in Column III of that item.

    • (3) Subject to subsection (5), the limits of error set out in the table to this subsection apply to all measuring tanks that are calibrated in terms of metric units of volume.

      TABLE

      Item Column I Column II Column III
      Known Test Volume Acceptance Limits of Error In-Service Limits of Error
      4 Over 200 ¼% of known test volume ¼% of known test volume

    • (4) Subject to subsection (5), the limits of error set out in the table to this subsection apply to all measuring tanks that are calibrated in terms of Canadian units of volume.

      TABLE

      Item Column I Column II Column III
      Known Test Volume Acceptance Limits of Error In-Service Limits of Error
      4 Over 50 ¼% of known test volume ¼% of known test volume

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  5. Hull Construction Regulations - C.R.C., c. 1431 (SCHEDULE I : Calculation of Maximum Length of Watertight Compartments)

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    3 The assumptions of permeability, which shall be taken into account in determining the floodable length at any point in ships to which this Division applies, shall be as follows:

    • (a) machinery space:

      • (i) in the case of ships not propelled by internal combustion engines, the assumed average permeability throughout the machinery space shall be determined by the following formula:

        80 + 12.5 (a - c) / v

        where

        a 
        = volume of the passenger spaces and crew spaces below the margin line within the limits of the machinery space;
        c 
        = volume of the between deck spaces below the margin line within the limits of the machinery space which are appropriated to cargo, coal or stores; and
        v 
        = volume of the machinery space below the margin line,

    • (b) portions before and abaft the machinery space:

      • (i) the assumed average permeability throughout the portions of the ship before and abaft the machinery space shall be determined:

        • (A) by the following formula:

          63 + 35 a / v

          where

          a 
          = volume of the passenger spaces and crew spaces which are situated below the margin line before or abaft the machinery space, as the case may be; and
          v 
          = volume of the portion of the ship below the margin line before or abaft the machinery space, as the case may be, or

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    5 The criterion numeral for ships to which this Division applies shall be determined by the following formulae:

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    Cs = 72 M + 2P / V

    where

    M 
    = the volume of the machinery space, with the addition thereto of the volume of any permanent oil fuel bunkers which may be situated above the inner bottom and before or abaft the machinery space;
    P 
    = the volume of the passenger spaces and crew spaces below the margin line;
    V 
    = the volume of the ship below the margin line;

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    • (a) where the value of 0.056LN is greater than the sum of P and the whole volume of the passenger spaces above the margin line, the figure to be taken as P1 shall be that sum or 0.037LN whichever is the greater;

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    • (7) Where in any ship a main transverse watertight compartment contains local subdivision and the Board is satisfied that, after any assumed side damage extending over a length of 0.03L + 3.05 m, or 10.67 m, or 0.1L, whichever is the least, the whole volume of the main compartment will not be flooded, a proportionate allowance may be made in the permissible length otherwise required for such compartment; in such a case the volume of effective buoyancy assumed on the undamaged side shall not be greater than that assumed on the damaged side.

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    8 In ships to which this Division applies, the assumed average permeability throughout the portions of the ship before and abaft the machinery space shall be determined

    • (a) by the following formula:

      95 - 35b / v

      where

      b = 
      the volume of the spaces that are situated below the margin line before or abaft the machinery space, as the case may be, and above the tops of floors, inner bottom, or peak tanks, and which are appropriated for use as coal or oil fuel bunkers, store rooms, baggage rooms, mail rooms, chain lockers or fresh water tanks and of spaces appropriated for cargo if the Board is satisfied the greater part of the volume of the space is intended to be occupied by cargo; and
      v = 
      v =the volume of the portion of the ship below the margin line before or abaft the machinery space, as the case may be; or

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    11 In this Division,

    • [...]

    • (l) the block coefficient of fineness of displacement to the subdivision load water line shall be determined as follows: volume of displacement to moulded lines divided by (L.B.d.);

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    Subdivision Length (L)= m From summary Volume of Ship (V) =
    No. of Passengers (N)= Volume of Machinery Space (M) =
    P1 = 0.056LN = m3 Volume of Passenger and Crew Space (P) =

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    Passenger Spaces and Crew Spaces (a) Footnote  Footnote ‡‡ Whole Volume of
    Compartment Identification Measurements Volume m3 Longitudinal Extent Volume m3

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    Passenger Spaces and Crew Spaces (a) Footnote  Footnote ‡‡ Whole Volume of
    Compartment Identification Measurements Volume m3 Longitudinal Extent Volume m3

    [...]

    Passenger Spaces and Crew Spaces (a) Footnote  Footnote ‡‡ Whole Volume of
    Compartment Identification Measurements Volume m3 Longitudinal Extent Volume m3
    Volume (c) =

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    Compartment Volume above Inner Bottom or Line of Floors Compartment Volume above Inner Bottom or Line of Floors

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    Whole Volume (V) Machinery Space (M) Passenger Spaces and Crew Spaces (P)

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