MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

The solid blue curve represents the participant's results, x_i, with expanded uncertainty bars (k = 2), U_iS.
The solid red curve represents the key comparison reference value.
The two red dash curves correspond to (x_R + U_R) and (x_R - U_R), where U_R is the expanded uncertainty (k = 2) of x_R.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

The solid blue curve represents the participant's results, x_i, with expanded uncertainty bars (k = 2), U_iS.
The solid red curve represents the key comparison reference value.
The two red dash curves correspond to (x_R + U_R) and (x_R - U_R), where U_R is the expanded uncertainty (k = 2) of x_R.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

The solid blue curve represents the participant's results, x_i, with expanded uncertainty bars (k = 2), U_iS.
The solid red curve represents the key comparison reference value.
The two red dash curves correspond to (x_R + U_R) and (x_R - U_R), where U_R is the expanded uncertainty (k = 2) of x_R.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

The solid blue curve represents the participant's results, x_i, with expanded uncertainty bars (k = 2), U_iS.
The solid red curve represents the key comparison reference value.
The two red dash curves correspond to (x_R + U_R) and (x_R - U_R), where U_R is the expanded uncertainty (k = 2) of x_R.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

The solid blue curve represents the participant's results, x_i, with expanded uncertainty bars (k = 2), U_iS.
The solid red curve represents the key comparison reference value.
The two red dash curves correspond to (x_R + U_R) and (x_R - U_R), where U_R is the expanded uncertainty (k = 2) of x_R.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

The solid blue curve represents the participant's results, x_i, with expanded uncertainty bars (k = 2), U_iS.
The solid red curve represents the key comparison reference value.
The two red dash curves correspond to (x_R + U_R) and (x_R - U_R), where U_R is the expanded uncertainty (k = 2) of x_R.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

The solid blue curve represents the participant's results, x_i, with expanded uncertainty bars (k = 2), U_iS.
The solid red curve represents the key comparison reference value.
The two red dash curves correspond to (x_R + U_R) and (x_R - U_R), where U_R is the expanded uncertainty (k = 2) of x_R.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

The solid blue curve represents the participant's results, x_i, with expanded uncertainty bars (k = 2), U_iS.
The solid red curve represents the key comparison reference value.
The two red dash curves correspond to (x_R + U_R) and (x_R - U_R), where U_R is the expanded uncertainty (k = 2) of x_R.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

The solid blue curve represents the participant's results, x_i, with expanded uncertainty bars (k = 2), U_iS.
The solid red curve represents the key comparison reference value.
The two red dash curves correspond to (x_R + U_R) and (x_R - U_R), where U_R is the expanded uncertainty (k = 2) of x_R.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

The solid blue curve represents the participant's results, x_i, with expanded uncertainty bars (k = 2), U_iS.
The solid red curve represents the key comparison reference value.
The two red dash curves correspond to (x_R + U_R) and (x_R - U_R), where U_R is the expanded uncertainty (k = 2) of x_R.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

The solid blue curve represents the participant's results, x_i, with expanded uncertainty bars (k = 2), U_iS.
The solid red curve represents the key comparison reference value.
The two red dash curves correspond to (x_R + U_R) and (x_R - U_R), where U_R is the expanded uncertainty (k = 2) of x_R.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

Equivalence is demonstrated by providing the D_i and En_i values for one participating laboratory over the complete range of flow rates. The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

Results are presented under A4 printable format in Summary Results (PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO 80000-1:2009 Annex B Rule B.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

Equivalence is demonstrated by providing the D_i and En_i values for one participating laboratory over the complete range of flow rates. The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

Results are presented under A4 printable format in Summary Results (PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO 80000-1:2009 Annex B Rule B.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

Equivalence is demonstrated by providing the D_i and En_i values for one participating laboratory over the complete range of flow rates. The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

Results are presented under A4 printable format in Summary Results (PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO 80000-1:2009 Annex B Rule B.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

Equivalence is demonstrated by providing the D_i and En_i values for one participating laboratory over the complete range of flow rates. The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

Results are presented under A4 printable format in Summary Results (PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO 80000-1:2009 Annex B Rule B.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

Equivalence is demonstrated by providing the D_i and En_i values for one participating laboratory over the complete range of flow rates. The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

Results are presented under A4 printable format in Summary Results (PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO 80000-1:2009 Annex B Rule B.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

Equivalence is demonstrated by providing the D_i and En_i values for one participating laboratory over the complete range of flow rates. The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

Results are presented under A4 printable format in Summary Results (PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO 80000-1:2009 Annex B Rule B.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

Equivalence is demonstrated by providing the D_i and En_i values for one participating laboratory over the complete range of flow rates. The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

Results are presented under A4 printable format in Summary Results (PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO 80000-1:2009 Annex B Rule B.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

Equivalence is demonstrated by providing the D_i and En_i values for one participating laboratory over the complete range of flow rates. The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

Results are presented under A4 printable format in Summary Results (PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO 80000-1:2009 Annex B Rule B.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

Equivalence is demonstrated by providing the D_i and En_i values for one participating laboratory over the complete range of flow rates. The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

Results are presented under A4 printable format in Summary Results (PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO 80000-1:2009 Annex B Rule B.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

Equivalence is demonstrated by providing the D_i and En_i values for one participating laboratory over the complete range of flow rates. The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

Results are presented under A4 printable format in Summary Results (PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO 80000-1:2009 Annex B Rule B.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

Equivalence is demonstrated by providing the D_i and En_i values for one participating laboratory over the complete range of flow rates. The curve of the key comparison reference value is added on the graph showing the values x_i and U_iS obtained by this participant.

Results are presented under A4 printable format in Summary Results (PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO 80000-1:2009 Annex B Rule B.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

x_i: relative error of the transfer standard as obtained by laboratory i
x_i = 100 [(V_t - V_s)/V_s], where V_t and V_s are the volumes indicated by the transfer standard (in m³) and measured by the national reference standard (in m³), respectively
U_i: expanded uncertainty (k = 2) of the measurement reported by laboratory i 

The values of x_i and U_i, expressed in %, are reported in Tables 4 and 5, respectively on pages 8 and 10 of the Final Report, for the complete range of flow rates and for all participants.
They are also presented under the form of one single table for all participants in Summary Results, and reproduced in the individual participant's page "Degrees of equivalence".

The standard uncertainty of the corrections and stability of the transfer standard is estimated to be equal to 0.031 % and is combined by root-sum-of-squares with the (U_i/2) values (see Section 5.6 of the Final Report). The resulting expanded uncertainty (k = 2), U_iS, are given in the following tables.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

x_i: relative error of the transfer standard as obtained by laboratory i
x_i = 100 [(V_t - V_s)/V_s], where V_t and V_s are the volumes indicated by the transfer standard (in m³) and measured by the national reference standard (in m³), respectively
U_i: expanded uncertainty (k = 2) of the measurement reported by laboratory i

The values of x_i and U_i, expressed in %, are reported in Tables 4 and 5, respectively on pages 8 and 10 of the Final Report, for the complete range of flow rates and for all participants.
They are also presented under the form of one single table for all participants in Summary Results, and reproduced in the individual participant's page "Degrees of equivalence".

The standard uncertainty of the corrections and stability of the transfer standard is estimated to be equal to 0.031 % and is combined by root-sum-of-squares with the (U_i/2) values (see Section 5.6 of the Final Report). The resulting expanded uncertainty (k = 2), U_iS, are given in the following tables.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

x_i: relative error of the transfer standard as obtained by laboratory i
x_i = 100 [(V_t - V_s)/V_s], where V_t and V_s are the volumes indicated by the transfer standard (in m³) and measured by the national reference standard (in m³), respectively
U_i: expanded uncertainty (k = 2) of the measurement reported by laboratory i

The values of x_i and U_i, expressed in %, are reported in Tables 4 and 5, respectively on pages 8 and 10 of the Final Report, for the complete range of flow rates and for all participants.
They are also presented under the form of one single table for all participants in Summary Results, and reproduced in the individual participant's page "Degrees of equivalence".

The standard uncertainty of the corrections and stability of the transfer standard is estimated to be equal to 0.031 % and is combined by root-sum-of-squares with the (U_i/2) values (see Section 5.6 of the Final Report). The resulting expanded uncertainty (k = 2), U_iS, are given in the following tables.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

x_i: relative error of the transfer standard as obtained by laboratory i
x_i = 100 [(V_t - V_s)/V_s], where V_t and V_s are the volumes indicated by the transfer standard (in m³) and measured by the national reference standard (in m³), respectively
U_i: expanded uncertainty (k = 2) of the measurement reported by laboratory i

The values of x_i and U_i, expressed in %, are reported in Tables 4 and 5, respectively on pages 8 and 10 of the Final Report, for the complete range of flow rates and for all participants.
They are also presented under the form of one single table for all participants in Summary Results, and reproduced in the individual participant's page "Degrees of equivalence".

The standard uncertainty of the corrections and stability of the transfer standard is estimated to be equal to 0.031 % and is combined by root-sum-of-squares with the (U_i/2) values (see Section 5.6 of the Final Report). The resulting expanded uncertainty (k = 2), U_iS, are given in the following tables.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

x_i: relative error of the transfer standard as obtained by laboratory i
x_i = 100 [(V_t - V_s)/V_s], where V_t and V_s are the volumes indicated by the transfer standard (in m³) and measured by the national reference standard (in m³), respectively
U_i: expanded uncertainty (k = 2) of the measurement reported by laboratory i

The values of x_i and U_i, expressed in %, are reported in Tables 4 and 5, respectively on pages 8 and 10 of the Final Report, for the complete range of flow rates and for all participants.
They are also presented under the form of one single table for all participants in Summary Results, and reproduced in the individual participant's page "Degrees of equivalence".

The standard uncertainty of the corrections and stability of the transfer standard is estimated to be equal to 0.031 % and is combined by root-sum-of-squares with the (U_i/2) values (see Section 5.6 of the Final Report). The resulting expanded uncertainty (k = 2), U_iS, are given in the following tables.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

x_i: relative error of the transfer standard as obtained by laboratory i
x_i = 100 [(V_t - V_s)/V_s], where V_t and V_s are the volumes indicated by the transfer standard (in m³) and measured by the national reference standard (in m³), respectively
U_i: expanded uncertainty (k = 2) of the measurement reported by laboratory i

The values of x_i and U_i, expressed in %, are reported in Tables 4 and 5, respectively on pages 8 and 10 of the Final Report, for the complete range of flow rates and for all participants.
They are also presented under the form of one single table for all participants in Summary Results, and reproduced in the individual participant's page "Degrees of equivalence".

The standard uncertainty of the corrections and stability of the transfer standard is estimated to be equal to 0.031 % and is combined by root-sum-of-squares with the (U_i/2) values (see Section 5.6 of the Final Report). The resulting expanded uncertainty (k = 2), U_iS, are given in the following tables.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

x_i: relative error of the transfer standard as obtained by laboratory i
x_i = 100 [(V_t - V_s)/V_s], where V_t and V_s are the volumes indicated by the transfer standard (in m³) and measured by the national reference standard (in m³), respectively
U_i: expanded uncertainty (k = 2) of the measurement reported by laboratory i

The values of x_i and U_i, expressed in %, are reported in Tables 4 and 5, respectively on pages 8 and 10 of the Final Report, for the complete range of flow rates and for all participants.
They are also presented under the form of one single table for all participants in Summary Results, and reproduced in the individual participant's page "Degrees of equivalence".

The standard uncertainty of the corrections and stability of the transfer standard is estimated to be equal to 0.031 % and is combined by root-sum-of-squares with the (U_i/2) values (see Section 5.6 of the Final Report). The resulting expanded uncertainty (k = 2), U_iS, are given in the following tables.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

x_i: relative error of the transfer standard as obtained by laboratory i
x_i = 100 [(V_t - V_s)/V_s], where V_t and V_s are the volumes indicated by the transfer standard (in m³) and measured by the national reference standard (in m³), respectively
U_i: expanded uncertainty (k = 2) of the measurement reported by laboratory i

The values of x_i and U_i, expressed in %, are reported in Tables 4 and 5, respectively on pages 8 and 10 of the Final Report, for the complete range of flow rates and for all participants.
They are also presented under the form of one single table for all participants in Summary Results, and reproduced in the individual participant's page "Degrees of equivalence".

The standard uncertainty of the corrections and stability of the transfer standard is estimated to be equal to 0.031 % and is combined by root-sum-of-squares with the (U_i/2) values (see Section 5.6 of the Final Report). The resulting expanded uncertainty (k = 2), U_iS, are given in the following tables.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

x_i: relative error of the transfer standard as obtained by laboratory i
x_i = 100 [(V_t - V_s)/V_s], where V_t and V_s are the volumes indicated by the transfer standard (in m³) and measured by the national reference standard (in m³), respectively
U_i: expanded uncertainty (k = 2) of the measurement reported by laboratory i

The values of x_i and U_i, expressed in %, are reported in Tables 4 and 5, respectively on pages 8 and 10 of the Final Report, for the complete range of flow rates and for all participants.
They are also presented under the form of one single table for all participants in Summary Results, and reproduced in the individual participant's page "Degrees of equivalence".

The standard uncertainty of the corrections and stability of the transfer standard is estimated to be equal to 0.031 % and is combined by root-sum-of-squares with the (U_i/2) values (see Section 5.6 of the Final Report). The resulting expanded uncertainty (k = 2), U_iS, are given in the following tables.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

x_i: relative error of the transfer standard as obtained by laboratory i
x_i = 100 [(V_t - V_s)/V_s], where V_t and V_s are the volumes indicated by the transfer standard (in m³) and measured by the national reference standard (in m³), respectively
U_i: expanded uncertainty (k = 2) of the measurement reported by laboratory i

The values of x_i and U_i, expressed in %, are reported in Tables 4 and 5, respectively on pages 8 and 10 of the Final Report, for the complete range of flow rates and for all participants.
They are also presented under the form of one single table for all participants in Summary Results, and reproduced in the individual participant's page "Degrees of equivalence".

The standard uncertainty of the corrections and stability of the transfer standard is estimated to be equal to 0.031 % and is combined by root-sum-of-squares with the (U_i/2) values (see Section 5.6 of the Final Report). The resulting expanded uncertainty (k = 2), U_iS, are given in the following tables.

MEASURAND : Relative error of a gas flow meter
GAS FLOW RATE : 2 m³/h to 100 m³/h
TRANSFER STANDARD : A rotary gas meter (see Section 3 of the Final Report)

x_i: relative error of the transfer standard as obtained by laboratory i
x_i = 100 [(V_t - V_s)/V_s], where V_t and V_s are the volumes indicated by the transfer standard (in m³) and measured by the national reference standard (in m³), respectively
U_i: expanded uncertainty (k = 2) of the measurement reported by laboratory i

The values of x_i and U_i, expressed in %, are reported in Tables 4 and 5, respectively on pages 8 and 10 of the Final Report, for the complete range of flow rates and for all participants.
They are also presented under the form of one single table for all participants in Summary Results, and reproduced in the individual participant's page "Degrees of equivalence".

The standard uncertainty of the corrections and stability of the transfer standard is estimated to be equal to 0.031 % and is combined by root-sum-of-squares with the (U_i/2) values (see Section 5.6 of the Final Report). The resulting expanded uncertainty (k = 2), U_iS, are given in the following tables.