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1.—(1) The Table 1 referred to in paragraph 4 of Part 2 (NORM industrial activities) is—
Radionuclide | Solid or relevant liquid concentration in becquerels per gram (Bq/g) | Any other liquid concentration in becquerels per litre (Bq/l) | Gaseous concentration in becquerels per cubic metre (Bq/m3) |
---|---|---|---|
U-238sec M1 | [F11] | 0.1 | 0.001 |
U-238+ | 5 | 10 | 0.01 |
U-234 | 5 | 10 | 0.01 |
Th-230 | 10 | 10 | 0.001 |
Ra-226+ | [F11] | 1 | 0.01 |
Pb-210+ | 5 | 0.1 | 0.01 |
Po-210 | 5 | 0.1 | 0.01 |
U-235sec | 1 | 0.1 | 0.0001 |
U-235+ | 5 | 10 | 0.01 |
Pa-231 | 5 | 1 | 0.001 |
Ac-227+ | 1 | 0.1 | 0.001 |
Th-232sec | [F11] | 0.1 | 0.001 |
Th-232 | 5 | 10 | 0.001 |
Ra-228+ | 1 | 0.1 | 0.01 |
Th-228+ | [F11] | 1 | 0.001 |
(2) The Table 1 summation rule in respect of column 2, 3 or 4 means the sum of the quotients A/B where—
(a)“A” means the concentration of each radionuclide listed in column 1 of Table 1 that is present in the substance or article, and
(b)“B” means the concentration of that radionuclide specified in column 2, 3 or 4 (as appropriate) of Table 1.
Textual Amendments
F1Figures in Sch. 23 Pt. 3 para. 1(1) Table 1 substituted (2.5.2018) by The Environmental Permitting (England and Wales) (Amendment) (No. 2) Regulations 2018 (S.I. 2018/428), reg. 1, Sch. para. 8
Marginal Citations
M1For the meaning of ‘sec’ and ‘+’ in this Part, see paragraph 3.
2.—(1) The Table 2 referred to in paragraph 5 of Part 2 (processed radionuclides of natural terrestrial or cosmic origin) and paragraph 6 of that Part (radionuclides not of natural terrestrial or cosmic origin) is—
[F2Radionuclide | Concentration in becquerels per gram (Bq/g) |
---|---|
H-3 | 102 |
Be-7 | 10 |
C-14 | 10 |
F-18 | 10 |
Na-22 | 0.1 |
Na-24 | 1 |
Si-31 | 103 |
P-32 | 103 |
P-33 | 103 |
S-35 | 102 |
Cl-36 | 1 |
Cl-38 | 10 |
K-42 | 102 |
K-43 | 10 |
Ca-45 | 102 |
Ca-47 | 10 |
Sc-46 | 0.1 |
Sc-47 | 102 |
Sc-48 | 1 |
V-48 | 1 |
Cr-51 | 102 |
Mn-51 | 10 |
Mn-52 | 1 |
Mn-52m | 10 |
Mn-53 | 102 |
Mn-54 | 0.1 |
Mn-56 | 10 |
Fe-52+ | 10 |
Fe-55 | 103 |
Fe-59 | 1 |
Co-55 | 10 |
Co-56 | 0.1 |
Co-57 | 1 |
Co-58 | 1 |
Co-58m | 104 |
Co-60 | 0.1 |
Co-60m | 103 |
Co-61 | 102 |
Co-62m | 10 |
Ni-59 | 102 |
Ni-63 | 102 |
Ni-65 | 10 |
Cu-64 | 102 |
Zn-65 | 0.1 |
Zn-69 | 103 |
Zn-69m+ | 10 |
Ga-72 | 10 |
Ge-71 | 104 |
As-73 | 103 |
As-74 | 10 |
As-76 | 10 |
As-77 | 103 |
Se-75 | 1 |
Br-82 | 1 |
Rb-86 | 102 |
Sr-85 | 1 |
Sr-85m | 102 |
Sr-87m | 102 |
Sr-89 | 103 |
Sr-90+ | 1 |
Sr-91+ | 10 |
Sr-92 | 10 |
Y-90 | 103 |
Y-91 | 102 |
Y-91m | 102 |
Y-92 | 102 |
Y-93 | 102 |
Zr-93 | 10 |
Zr-95+ | 1 |
Zr-97+ | 10 |
Nb-93m | 10 |
Nb-94 | 0.1 |
Nb-95 | 1 |
Nb-97+ | 10 |
Nb-98 | 10 |
Mo-90 | 10 |
Mo-93 | 10 |
Mo-99+ | 10 |
Mo-101+ | 10 |
Tc-96 | 1 |
Tc-96m | 103 |
Tc-97 | 10 |
Tc-97m | 102 |
Tc-99 | 1 |
Tc-99m | 102 |
Ru-97 | 10 |
Ru-103+ | 1 |
Ru-105+ | 10 |
Ru-106+ | 0.1 |
Rh-103m | 104 |
Rh-105 | 102 |
Pd-103+ | 103 |
Pd-109+ | 102 |
Ag-105 | 1 |
Ag-108m+ | 0.1 |
Ag-110m+ | 0.1 |
Ag-111 | 102 |
Cd-109+ | 1 |
Cd-115+ | 10 |
Cd-115m+ | 102 |
In-111 | 10 |
In-113m | 102 |
In-114m+ | 10 |
In-115m | 102 |
Sn-113+ | 1 |
Sn-125 | 10 |
Sb-122 | 10 |
Sb-124 | 1 |
Sb-125+ | 0.1 |
Te-123m | 1 |
Te-125m | 103 |
Te-127 | 103 |
Te-127m+ | 10 |
Te-129 | 102 |
Te-129m+ | 10 |
Te-131 | 102 |
Te-131m+ | 10 |
Te-132+ | 1 |
Te-133+ | 1 |
Te-133m+ | 1 |
Te-134 | 10 |
I-123 | 102 |
I-125 | 102 |
I-126 | 10 |
I-129 | 0.01 |
I-130 | 10 |
I-131+ | 1 |
I-132 | 10 |
I-133 | 10 |
I-134 | 10 |
I-135 | 10 |
Cs-129 | 10 |
Cs-131 | 103 |
Cs-132 | 10 |
Cs-134 | 0.1 |
Cs-134m | 103 |
Cs-135 | 102 |
Cs-136 | 1 |
Cs-137+ | 1 |
Cs-138 | 10 |
Ba-131 | 10 |
Ba-140 | 1 |
La-140 | 1 |
Ce-139 | 1 |
Ce-141 | 102 |
Ce-143 | 10 |
Ce-144+ | 10 |
Pr-142 | 102 |
Pr-143 | 103 |
Nd-147 | 102 |
Nd-149 | 102 |
Pm-147 | 103 |
Pm-149 | 103 |
Sm-151 | 103 |
Sm-153 | 102 |
Eu-152 | 0.1 |
Eu-152m | 102 |
Eu-154 | 0.1 |
Eu-155 | 1 |
Gd-153 | 10 |
Gd-159 | 102 |
Tb-160 | 1 |
Dy-165 | 103 |
Dy-166 | 102 |
Ho-166 | 102 |
Er-169 | 103 |
Er-171 | 102 |
Tm-170 | 102 |
Tm-171 | 103 |
Yb-175 | 102 |
Lu-177 | 102 |
Hf-181 | 1 |
Ta-182 | 0.1 |
W-181 | 10 |
W-185 | 103 |
W-187 | 10 |
Re-186 | 103 |
Re-188 | 102 |
Os-185 | 1 |
Os-191 | 102 |
Os-191m | 103 |
Os-193 | 102 |
Ir-190 | 1 |
Ir-192 | 1 |
Ir-194 | 102 |
Pt-191 | 10 |
Pt-193m | 103 |
Pt-197 | 103 |
Pt-197m | 102 |
Au-198 | 10 |
Au-199 | 102 |
Hg-197 | 102 |
Hg-197m | 102 |
Hg-203 | 10 |
Tl-200 | 10 |
Tl-201 | 102 |
Tl-202 | 10 |
Tl-204 | 1 |
Pb-203 | 10 |
Pb-210+ | 0.01 |
Pb-212+ | 1 |
Bi-206 | 1 |
Bi-207 | 0.1 |
Bi-210 | 10 |
Bi-212+ | 1 |
Po-203 | 10 |
Po-205 | 10 |
Po-207 | 10 |
Po-210 | 0.01 |
At-211 | 103 |
Ra-223+ | 1 |
Ra-224+ | 1 |
Ra-225 | 10 |
Ra-226+ | 0.01 |
Ra-227 | 102 |
Ra-228+ | 0.01 |
Ac-227+ | 0.01 |
Ac-228 | 1 |
Th-226+ | 102 |
Th-227 | 1 |
Th-228+ | 0.1 |
Th-229+ | 0.1 |
Th-230 | 0.1 |
Th-231 | 102 |
Th-232 | 0.01 |
Th-232+ | 0.01 |
Th-232sec | 0.01 |
Th-234+ | 10 |
Pa-230 | 10 |
Pa-231 | 0.01 |
Pa-233 | 10 |
U-230+ | 1 |
U-231 | 102 |
U-232+ | 0.1 |
U-233 | 1 |
U-234 | 1 |
U-235+ | 1 |
U-235sec | 0.01 |
U-236 | 10 |
U-237 | 102 |
U-238+ | 1 |
U-238sec | 0.01 |
U-239 | 102 |
U-240+ | 102 |
Np-237+ | 1 |
Np-239 | 102 |
Np-240 | 10 |
Pu-234 | 102 |
Pu-235 | 102 |
Pu-236 | 1 |
Pu-237 | 102 |
Pu-238 | 0.1 |
Pu-239 | 0.1 |
Pu-240 | 0.1 |
Pu-241 | 10 |
Pu-242 | 0.1 |
Pu-243 | 103 |
Pu-244+ | 0.1 |
Am-241 | 0.1 |
Am-242 | 103 |
Am-242m+ | 0.1 |
Am-243+ | 0.1 |
Cm-242 | 10 |
Cm-243 | 1 |
Cm-244 | 1 |
Cm-245 | 0.1 |
Cm-246 | 0.1 |
Cm-247+ | 0.1 |
Cm-248 | 0.1 |
Bk-249 | 102 |
Cf-246 | 103 |
Cf-248 | 1 |
Cf-249 | 0.1 |
Cf-250 | 1 |
Cf-251 | 0.1 |
Cf-252 | 1 |
Cf-253 | 102 |
Cf-253+ | 1 |
Cf-254 | 1 |
Es-253 | 102 |
Es-254+ | 0.1 |
Es-254m+ | 10 |
Fm-254 | 10 4 |
Fm-255 | 102 |
0.01 | |
Any other solid or relevant liquid radionuclide that is not of natural terrestrial or cosmic origin | or that concentration which gives rise to a dose to a member of the public of 10 microsieverts per year calculated by reference to the International Atomic Energy Agency publication “Application of the Concepts of Exclusion, Exemption and Clearance”, IAEA Safety Standards Series No. RS-G-1.7.] |
(2) The Table 2 column 2 summation rule means the sum of the quotients A/B where—
(a)“A” means the concentration of each radionuclide listed in column 1 of Table 2 that is present in the substance or article, and
(b)“B” means the concentration of that radionuclide specified in column 2 of Table 2.
Textual Amendments
F2Sch. 23 Pt. 3 para. 2(1) Table 2 substituted (2.5.2018) by The Environmental Permitting (England and Wales) (Amendment) (No. 2) Regulations 2018 (S.I. 2018/428), reg. 1, Sch. para. 9
3. Where any radionuclide carries the suffix “+” or “sec” in Table 1 or Table 2—
(a)that radionuclide represents the parent radionuclide in secular equilibrium with the corresponding daughter radionuclides which are identified in column 2 of Table 3 in respect of that parent radionuclide, and
(b)a concentration value given in a table in this Part in respect of such a parent radionuclide is the value for the parent radionuclide alone, but already takes into account the daughter radionuclides present.
4. The Table 3 referred to in paragraph 3 is—
Parent radionuclide | Daughter radionuclides |
---|---|
Fe-52+ | Mn-52m |
Zn-69m+ | Zn-69 |
Sr-90+ | Y-90 |
Sr-91+ | Y-91m |
Zr-95+ | Nb-95m |
Zr-97+ | Nb-97m, Nb-97 |
Nb-97+ | Nb-97m |
Mo-99+ | Tc-99m |
Mo-101+ | Tc-101 |
Ru-103+ | Rh-103m |
Ru-105+ | Rh-105m |
Ru-106+ | Rh-106 |
Pd-103+ | Rh-103m |
Pd-109+ | Ag-109m |
Ag-108m+ | Ag-108 |
Ag-110m+ | Ag-110 |
Cd-109+ | Ag-109m |
Cd-115+ | In-115m |
Cd-115m+ | In-115m |
In-114m+ | In-114 |
Sn-113+ | In-113m |
Sb-125+ | Te-125m |
Te-127m+ | Te-127 |
Te-129m+ | Te-129 |
Te-131m+ | Te-131 |
Te-132+ | I-132 |
Te-133+ | I-133, Xe-133m, Xe-133 |
Te-133m+ | Te-133, I-133, Xe-133m, Xe-133 |
I-131+ | Xe-131m |
Cs-137+ | Ba-137m |
Ce-144+ | Pr-144, Pr-144m |
Pb-210+ | Bi-210, Po-210 |
Pb-212+ | Bi-212, Tl-208 |
Bi-212+ | Tl-208 |
Ra-223+ | Rn-219, Po-215, Pb-211, Bi-211, Tl-207 |
Ra-224+ | Rn-220, Po-216, Pb-212, Bi-212, Tl-208 |
Ra-226+ | Rn-222, Po-218, Pb-214, Bi-214, Po-214 |
Ra-228+ | Ac-228 |
Ac-227+ | Th-227, Fr-223, Ra-223, Rn-219, Po-215, Pb-211, Bi-211, Tl-207, Po-211 |
Th-226+ | Ra-222, Rn-218, Po-214 |
Th-228+ | Ra-224, Rn-220, Po-216, Pb-212, Bi-212, Tl-208 |
Th-229+ | Ra-225, Ac-225, Fr-221, At-217, Bi-213, Tl-209, Pb-209 |
Th-232+ | Ra-228, Ac-228, Th-228, Ra-224, Rn-220, Po-216, Pb-212, Bi-212, Tl-208 |
Th-232sec | Ra-228, Ac-228, Th-228, Ra-224, Rn-220, Po-216, Pb-212, Bi-212, Po-212, Tl-208 |
Th-234+ | Pa-234m, Pa-234 |
U-230+ | Th-226, Ra-222, Rn-218, Po-214 |
U-232+ | Th-228, Ra-224, Rn-220, Po-216, Pb-212, Bi-212, Tl-208 |
U-235+ | Th-231 |
U-235sec | Th-231, Pa-231, Ac-227, Th-227, Fr-223, Ra-223, Rn-219, Po-215, Pb-211, Bi-211, Tl-207, Po-211 |
U-238+ | Th-234, Pa-234m, Pa-234 |
U-238sec | Th-234, Pa-234m, Pa-234, U-234, Th-230, Ra-226, Rn-222, Po-218, Pb-214, Bi-214, Po-214, Pb-210, Bi-210, Po-210 |
U-240+ | Np-240m, Np-240 |
Np-237+ | Pa-233 |
Pu-244+ | U-240, Np-240m, Np-240 |
Am-242m+ | Np-238 |
Am-243+ | Np-239 |
Cm-247+ | Pu-243 |
Cf-253+ | Cm-249 |
Es-254+ | Bk-250 |
Es-254m+ | Fm-254 |