Regulation 3(1)
SCHEDULE 1E+W+S
PART 1 E+W+STable of radionuclides
Commencement Information
I1Sch. 1 Pt. 1 in force at 22.5.2019, see reg. 1(1)
Radionuclide | Form | Activity (Bq) |
---|---|---|
Actinium | ||
Ac-224 | 2 x 1011 | |
Ac-225 | 3 x 1009 | |
Ac-226 | 2 x 1010 | |
Ac-227 | 5 x 1007 | |
Ac-228 | 7 x 1011 | |
Aluminium | ||
Al-26 | 6 x 1011 | |
Americium | ||
Am-237 | 2 x 1014 | |
Am-238 | 9 x 1013 | |
Am-239 | 3 x 1013 | |
Am-240 | 1 x 1013 | |
Am-241 | 3 x 1008 | |
Am-242 | 1 x 1012 | |
Am-242m | 3 x 1008 | |
Am-243 | 3 x 1008 | |
Am-244 | 7 x 1012 | |
Am-244m | 2 x 1014 | |
Am-245 | 1 x 1014 | |
Am-246 | 9 x 1013 | |
Am-246m | 1 x 1014 | |
Antimony | ||
Sb-115 | 2 x 1014 | |
Sb-116 | 9 x 1013 | |
Sb-116m | 4 x 1013 | |
Sb-117 | 3 x 1014 | |
Sb-118m | 3 x 1013 | |
Sb-119 | 1 x 1014 | |
Sb-120 | 3 x 1014 | |
Sb-120m | 7 x 1012 | |
Sb-122 | 5 x 1012 | |
Sb-124 | 2 x 1012 | |
Sb-124n | 1 x 1015 | |
Sb-125 | 2 x 1012 | |
Sb-126 | 3 x 1012 | |
Sb-126m | 1 x 1014 | |
Sb-127 | 4 x 1012 | |
Sb-128 | 1 x 1013 | |
Sb-128m | 1 x 1014 | |
Sb-129 | 2 x 1013 | |
Sb-130 | 4 x 1013 | |
Sb-131 | 5 x 1013 | |
Argon | ||
Ar-37 | 2 x 1020 | |
Ar-39 | 4 x 1016 | |
Ar-41 | 7 x 1013 | |
Arsenic | ||
As-69 | 1 x 1014 | |
As-70 | 3 x 1013 | |
As-71 | 2 x 1013 | |
As-72 | 5 x 1012 | |
As-73 | 2 x 1013 | |
As-74 | 5 x 1012 | |
As-76 | 5 x 1012 | |
As-77 | 2 x 1013 | |
As-78 | 3 x 1013 | |
Astatine | ||
At-207 | 1 x 1013 | |
At-211 | 2 x 1011 | |
Barium | ||
Ba-126 | 3 x 1013 | |
Ba-128 | 4 x 1012 | |
Ba-131 | 1 x 1013 | |
Ba-131m | 1 x 1015 | |
Ba-133 | 2 x 1012 | |
Ba-133m | 1 x 1013 | |
Ba-135m | 2 x 1013 | |
Ba-139 | 7 x 1013 | |
Ba-140 | 3 x 1012 | |
Ba-141 | 1 x 1014 | |
Ba-142 | 2 x 1014 | |
Berkelium | ||
Bk-245 | 9 x 1012 | |
Bk-246 | 2 x 1013 | |
Bk-247 | 4 x 1008 | |
Bk-249 | 2 x 1011 | |
Bk-250 | 2 x 1013 | |
Beryllium | ||
Be-7 | 2 x 1014 | |
Be-10 | 8 x 1011 | |
Bismuth | ||
Bi-200 | 6 x 1013 | |
Bi-201 | 4 x 1013 | |
Bi-202 | 4 x 1013 | |
Bi-203 | 2 x 1013 | |
Bi-205 | 8 x 1012 | |
Bi-206 | 4 x 1012 | |
Bi-207 | 2 x 1012 | |
Bi-210 | 3 x 1011 | |
Bi-210m | 8 x 1009 | |
Bi-212 | 1 x 1012 | |
Bi-213 | 1 x 1012 | |
Bi-214 | 3 x 1012 | |
Bromine | ||
Br-74 | 3 x 1013 | |
Br-74m | 3 x 1013 | |
Br-75 | 6 x 1013 | |
Br-76 | 1 x 1013 | |
Br-77 | 8 x 1013 | |
Br-80 | 3 x 1014 | |
Br-80m | 7 x 1013 | |
Br-82 | 1 x 1013 | |
Br-83 | 1 x 1014 | |
Br-84 | 6 x 1013 | |
Cadmium | ||
Cd-104 | 2 x 1014 | |
Cd-107 | 1 x 1014 | |
Cd-109 | 2 x 1012 | |
Cd-113 | 2 x 1011 | |
Cd-113m | 2 x 1011 | |
Cd-115 | 6 x 1012 | |
Cd-115m | 2 x 1012 | |
Cd-117 | 3 x 1013 | |
Cd-117m | 2 x 1013 | |
Caesium | ||
Cs-125 | 1 x 1014 | |
Cs-127 | 2 x 1014 | |
Cs-129 | 1 x 1014 | |
Cs-130 | 2 x 1014 | |
Cs-131 | 2 x 1014 | |
Cs-132 | 2 x 1013 | |
Cs-134 | 4 x 1011 | |
Cs-134m | 2 x 1014 | |
Cs-135 | 3 x 1012 | |
Cs-135m | 1 x 1014 | |
Cs-136 | 5 x 1012 | |
Cs-137 | 4 x 1011 | |
Cs-138 | 5 x 1013 | |
Calcium | ||
Ca-41 | 6 x 1013 | |
Ca-45 | 2 x 1012 | |
Ca-47 | 2 x 1012 | |
Californium | ||
Cf-244 | 3 x 1012 | |
Cf-246 | 6 x 1010 | |
Cf-248 | 3 x 1009 | |
Cf-249 | 4 x 1008 | |
Cf-250 | 9 x 1008 | |
Cf-251 | 4 x 1008 | |
Cf-252 | 1 x 1009 | |
Cf-253 | 2 x 1010 | |
Cf-254 | 5 x 1008 | |
Carbon | ||
C-11 | 2 x 1014 | |
carbon dioxide | 2 x 1014 | |
carbon monoxide | 3 x 1014 | |
methane | 3 x 1014 | |
vapour | 2 x 1014 | |
C-14 | 5 x 1012 | |
carbon dioxide | 3 x 1012 | |
carbon monoxide | 3 x 1012 | |
methane | 3 x 1012 | |
vapour | 3 x 1012 | |
Cerium | ||
Ce-134 | 3 x 1012 | |
Ce-135 | 1 x 1013 | |
Ce-137 | 3 x 1014 | |
Ce-137m | 1 x 1013 | |
Ce-139 | 9 x 1012 | |
Ce-141 | 5 x 1012 | |
Ce-143 | 7 x 1012 | |
Ce-144 | 4 x 1011 | |
Chlorine | ||
Cl-36 | 3 x 1012 | |
Cl-38 | 5 x 1013 | |
Cl-39 | 6 x 1013 | |
Chromium | ||
Cr-48 | 4 x 1013 | |
Cr-49 | 9 x 1013 | |
Cr-51 | 2 x 1014 | |
Cobalt | ||
Co-55 | 9 x 1012 | |
Co-56 | 1 x 1012 | |
Co-57 | 1 x 1013 | |
Co-58 | 5 x 1012 | |
Co-58m | 4 x 1014 | |
Co-60 | 6 x 1011 | |
Co-60m | 5 x 1015 | |
Co-61 | 1 x 1014 | |
Co-62m | 7 x 1013 | |
Copper | ||
Cu-60 | 4 x 1013 | |
Cu-61 | 5 x 1013 | |
Cu-64 | 6 x 1013 | |
Cu-67 | 2 x 1013 | |
Curium | ||
Cm-238 | 6 x 1012 | |
Cm-240 | 8 x 1009 | |
Cm-241 | 7 x 1011 | |
Cm-242 | 5 x 1009 | |
Cm-243 | 4 x 1008 | |
Cm-244 | 5 x 1008 | |
Cm-245 | 3 x 1008 | |
Cm-246 | 3 x 1008 | |
Cm-247 | 3 x 1008 | |
Cm-248 | 8 x 1007 | |
Cm-249 | 2 x 1014 | |
Cm-250 | 1 x 1007 | |
Dysprosium | ||
Dy-155 | 6 x 1013 | |
Dy-157 | 1 x 1014 | |
Dy-159 | 4 x 1013 | |
Dy-165 | 7 x 1013 | |
Dy-166 | 5 x 1012 | |
Einsteinium | ||
Es-250m | 4 x 1013 | |
Es-251 | 1 x 1013 | |
Es-253 | 1 x 1010 | |
Es-254 | 3 x 1009 | |
Es-254m | 6 x 1010 | |
Erbium | ||
Er-161 | 7 x 1013 | |
Er-165 | 5 x 1014 | |
Er-169 | 1 x 1013 | |
Er-171 | 2 x 1013 | |
Er-172 | 8 x 1012 | |
Europium | ||
Eu-145 | 1 x 1013 | |
Eu-146 | 7 x 1012 | |
Eu-147 | 1 x 1013 | |
Eu-148 | 3 x 1012 | |
Eu-149 | 4 x 1013 | |
Eu-150 | 5 x 1011 | |
Eu-150m | 2 x 1013 | |
Eu-152 | 6 x 1011 | |
Eu-152m | 2 x 1013 | |
Eu-154 | 5 x 1011 | |
Eu-155 | 4 x 1012 | |
Eu-156 | 3 x 1012 | |
Eu-157 | 1 x 1013 | |
Eu-158 | 6 x 1013 | |
Fermium | ||
Fm-252 | 9 x 1010 | |
Fm-253 | 7 x 1010 | |
Fm-254 | 4 x 1011 | |
Fm-255 | 1 x 1011 | |
Fm-257 | 3 x 1009 | |
Fluorine | ||
F-18 | 8 x 1013 | |
Francium | ||
Fr-222 | 3 x 1012 | |
Fr-223 | 4 x 1012 | |
Gadolinium | ||
Gd-145 | 7 x 1013 | |
Gd-146 | 3 x 1012 | |
Gd-147 | 1 x 1013 | |
Gd-148 | 1 x 1009 | |
Gd-149 | 1 x 1013 | |
Gd-151 | 1 x 1013 | |
Gd-152 | 2 x 1009 | |
Gd-153 | 7 x 1012 | |
Gd-159 | 2 x 1013 | |
Gallium | ||
Ga-65 | 1 x 1014 | |
Ga-66 | 7 x 1012 | |
Ga-67 | 4 x 1013 | |
Ga-68 | 6 x 1013 | |
Ga-70 | 3 x 1014 | |
Ga-72 | 8 x 1012 | |
Ga-73 | 3 x 1013 | |
Germanium | ||
Ge-66 | 7 x 1013 | |
Ge-67 | 9 x 1013 | |
Ge-68 | 2 x 1012 | |
Ge-69 | 3 x 1013 | |
Ge-71 | 6 x 1014 | |
Ge-75 | 2 x 1014 | |
Ge-77 | 2 x 1013 | |
Ge-78 | 7 x 1013 | |
Gold | ||
Au-193 | 6 x 1013 | |
Au-194 | 2 x 1013 | |
Au-195 | 1 x 1013 | |
Au-198 | 7 x 1012 | |
Au-198m | 6 x 1012 | |
Au-199 | 2 x 1013 | |
Au-200 | 1 x 1014 | |
Au-200m | 8 x 1012 | |
Au-201 | 3 x 1014 | |
Hafnium | ||
Hf-170 | 2 x 1013 | |
Hf-172 | 7 x 1011 | |
Hf-173 | 4 x 1013 | |
Hf-175 | 1 x 1013 | |
Hf-177m | 5 x 1013 | |
Hf-178m | 1 x 1011 | |
Hf-179m | 4 x 1012 | |
Hf-180m | 4 x 1013 | |
Hf-181 | 4 x 1012 | |
Hf-182 | 1 x 1011 | |
Hf-182m | 1 x 1014 | |
Hf-183 | 8 x 1013 | |
Hf-184 | 2 x 1013 | |
Holmium | ||
Ho-155 | 1 x 1014 | |
Ho-157 | 4 x 1014 | |
Ho-159 | 4 x 1014 | |
Ho-161 | 6 x 1014 | |
Ho-162 | 1 x 1015 | |
Ho-162m | 2 x 1014 | |
Ho-164 | 7 x 1014 | |
Ho-164m | 5 x 1014 | |
Ho-166 | 6 x 1012 | |
Ho-166m | 2 x 1011 | |
Ho-167 | 7 x 1013 | |
Hydrogen | ||
H-3 | 1 x 1014 | |
organically bound tritium | 3 x 1014 | |
elemental gas | 7 x 1014 | |
tritiated methane | 2 x 1015 | |
tritiated water vapour | 7 x 1014 | |
Indium | ||
In-109 | 9 x 1013 | |
In-110 | 3 x 1013 | |
In-110m | 5 x 1013 | |
In-111 | 3 x 1013 | |
In-112 | 5 x 1014 | |
In-113m | 2 x 1014 | |
In-114 | 4 x 1015 | |
In-114m | 9 x 1011 | |
In-115 | 7 x 1010 | |
In-115m | 8 x 1013 | |
In-116m | 5 x 1013 | |
In-117 | 1 x 1014 | |
In-117m | 7 x 1013 | |
In-119m | 2 x 1014 | |
Iodine | ||
I-120 | 2 x 1013 | |
methyl iodide | 2 x 1013 | |
elemental | 1 x 1013 | |
I-120m | 2 x 1013 | |
methyl iodide | 2 x 1013 | |
elemental | 2 x 1013 | |
I-121 | 9 x 1013 | |
methyl iodide | 9 x 1013 | |
elemental | 8 x 1013 | |
I-123 | 3 x 1013 | |
methyl iodide | 3 x 1013 | |
elemental | 3 x 1013 | |
I-124 | 6 x 1011 | |
methyl iodide | 5 x 1011 | |
elemental | 4 x 1011 | |
I-125 | 1 x 1012 | |
methyl iodide | 1 x 1012 | |
elemental | 8 x 1011 | |
I-126 | 3 x 1011 | |
methyl iodide | 3 x 1011 | |
elemental | 2 x 1011 | |
I-128 | 2 x 1014 | |
methyl iodide | 2 x 1014 | |
elemental | 2 x 1014 | |
I-129 | 2 x 1011 | |
methyl iodide | 2 x 1011 | |
elemental | 1 x 1011 | |
I-130 | 3 x 1012 | |
methyl iodide | 3 x 1012 | |
elemental | 3 x 1012 | |
I-131 | 3 x 1011 | |
methyl iodide | 2 x 1011 | |
elemental | 2 x 1011 | |
I-132 | 4 x 1013 | |
methyl iodide | 3 x 1013 | |
elemental | 3 x 1013 | |
I-132m | 3 x 1013 | |
methyl iodide | 3 x 1013 | |
elemental | 2 x 1013 | |
I-133 | 4 x 1012 | |
methyl iodide | 3 x 1012 | |
elemental | 2 x 1012 | |
I-134 | 4 x 1013 | |
methyl iodide | 4 x 1013 | |
elemental | 4 x 1013 | |
I-135 | 2 x 1013 | |
methyl iodide | 1 x 1013 | |
elemental | 1 x 1013 | |
Iridium | ||
Ir-182 | 1 x 1014 | |
Ir-184 | 3 x 1013 | |
Ir-185 | 3 x 1013 | |
Ir-186 | 2 x 1013 | |
Ir-186m | 7 x 1013 | |
Ir-187 | 6 x 1013 | |
Ir-188 | 1 x 1013 | |
Ir-189 | 2 x 1013 | |
Ir-190 | 5 x 1012 | |
Ir-190m | 1 x 1015 | |
Ir-190n | 8 x 1013 | |
Ir-192 | 3 x 1012 | |
Ir-192n | 8 x 1011 | |
Ir-193m | 2 x 1013 | |
Ir-194 | 6 x 1012 | |
Ir-194m | 1 x 1012 | |
Ir-195 | 7 x 1013 | |
Ir-195m | 3 x 1013 | |
Iron | ||
Fe-52 | 7 x 1012 | |
Fe-55 | 2 x 1013 | |
Fe-59 | 3 x 1012 | |
Fe-60 | 8 x 1010 | |
Krypton | ||
Kr-74 | 2 x 1014 | |
Kr-76 | 2 x 1014 | |
Kr-77 | 1 x 1014 | |
Kr-79 | 4 x 1014 | |
Kr-81 | 3 x 1016 | |
Kr-81m | 7 x 1016 | |
Kr-83m | 3 x 1018 | |
Kr-85 | 2 x 1016 | |
Kr-85m | 6 x 1014 | |
Kr-87 | 1 x 1014 | |
Kr-88 | 5 x 1013 | |
Lanthanum | ||
La-131 | 1 x 1014 | |
La-132 | 2 x 1013 | |
La-135 | 3 x 1014 | |
La-137 | 3 x 1012 | |
La-138 | 2 x 1011 | |
La-140 | 1 x 1013 | |
La-141 | 2 x 1013 | |
La-142 | 3 x 1013 | |
La-143 | 2 x 1014 | |
Lead | ||
Pb-195m | 1 x 1014 | |
Pb-198 | 8 x 1013 | |
Pb-199 | 9 x 1013 | |
Pb-200 | 2 x 1013 | |
Pb-201 | 5 x 1013 | |
Pb-202 | 2 x 1012 | |
Pb-202m | 4 x 1013 | |
Pb-203 | 3 x 1013 | |
Pb-205 | 3 x 1013 | |
Pb-209 | 1 x 1014 | |
Pb-210 | 5 x 1009 | |
Pb-211 | 2 x 1012 | |
Pb-212 | 1 x 1011 | |
Pb-214 | 3 x 1012 | |
Lutetium | ||
Lu-169 | 2 x 1013 | |
Lu-170 | 9 x 1012 | |
Lu-171 | 1 x 1013 | |
Lu-172 | 6 x 1012 | |
Lu-173 | 7 x 1012 | |
Lu-174 | 5 x 1012 | |
Lu-174m | 5 x 1012 | |
Lu-176 | 4 x 1011 | |
Lu-176m | 5 x 1013 | |
Lu-177 | 1 x 1013 | |
Lu-177m | 1 x 1012 | |
Lu-178 | 2 x 1014 | |
Lu-178m | 1 x 1014 | |
Lu-179 | 4 x 1013 | |
Magnesium | ||
Mg-28 | 4 x 1012 | |
Manganese | ||
Mn-51 | 7 x 1013 | |
Mn-52 | 5 x 1012 | |
Mn-52m | 6 x 1013 | |
Mn-53 | 2 x 1014 | |
Mn-54 | 4 x 1012 | |
Mn-56 | 3 x 1013 | |
Mendelevium | ||
Md-257 | 1 x 1012 | |
Md-258 | 4 x 1009 | |
Mercury | ||
Hg-193 | inorganic | 6 x 1013 |
organic | 8 x 1013 | |
vapour | 2 x 1013 | |
Hg-193m | inorganic | 2 x 1013 |
organic | 3 x 1013 | |
vapour | 7 x 1012 | |
Hg-194 | inorganic | 2 x 1012 |
organic | 9 x 1011 | |
vapour | 7 x 1011 | |
Hg-195 | inorganic | 8 x 1013 |
organic | 1 x 1014 | |
vapour | 2 x 1013 | |
Hg-195m | inorganic | 1 x 1013 |
organic | 2 x 1013 | |
vapour | 3 x 1012 | |
Hg-197 | inorganic | 3 x 1013 |
organic | 5 x 1013 | |
vapour | 6 x 1012 | |
Hg-197m | inorganic | 1 x 1013 |
organic | 2 x 1013 | |
vapour | 4 x 1012 | |
Hg-199m | inorganic | 2 x 1014 |
organic | 2 x 1014 | |
vapour | 1 x 1014 | |
Hg-203 | inorganic | 8 x 1012 |
organic | 8 x 1012 | |
vapour | 3 x 1012 | |
Molybdenum | ||
Mo-90 | 2 x 1013 | |
Mo-93 | 6 x 1012 | |
Mo-93m | 3 x 1013 | |
Mo-99 | 1 x 1013 | |
Mo-101 | 1 x 1014 | |
Neodymium | ||
Nd-136 | 9 x 1013 | |
Nd-138 | 1 x 1013 | |
Nd-139 | 2 x 1014 | |
Nd-139m | 3 x 1013 | |
Nd-141 | 8 x 1014 | |
Nd-147 | 6 x 1012 | |
Nd-149 | 6 x 1013 | |
Nd-151 | 2 x 1014 | |
Neon | ||
Ne-19 | 1 x 1016 | |
Neptunium | ||
Np-232 | 2 x 1014 | |
Np-233 | 2 x 1015 | |
Np-234 | 1 x 1013 | |
Np-235 | 3 x 1013 | |
Np-236 | 4 x 1009 | |
Np-236m | 3 x 1012 | |
Np-237 | 6 x 1008 | |
Np-238 | 6 x 1012 | |
Np-239 | 9 x 1012 | |
Np-240 | 6 x 1013 | |
Nickel | ||
Ni-56 | 9 x 1012 | |
nickel carbonyl | 9 x 1012 | |
Ni-57 | 1 x 1013 | |
nickel carbonyl | 1 x 1013 | |
Ni-59 | 6 x 1013 | |
nickel carbonyl | 3 x 1013 | |
Ni-63 | 2 x 1013 | |
nickel carbonyl | 1 x 1013 | |
Ni-65 | 4 x 1013 | |
nickel carbonyl | 3 x 1013 | |
Ni-66 | 3 x 1012 | |
nickel carbonyl | 3 x 1012 | |
Nitrogen | ||
N-13 | gas | 4 x 1014 |
Niobium | ||
Nb-88 | 5 x 1013 | |
Nb-89 | 2 x 1013 | |
Nb-89m | 5 x 1013 | |
Nb-90 | 7 x 1012 | |
Nb-93m | 1 x 1013 | |
Nb-94 | 5 x 1011 | |
Nb-95 | 9 x 1012 | |
Nb-95m | 1 x 1013 | |
Nb-96 | 8 x 1012 | |
Nb-97 | 9 x 1013 | |
Nb-98m | 4 x 1013 | |
Osmium | ||
Os-180 | 5 x 1014 | |
Os-181 | 6 x 1013 | |
Os-182 | 2 x 1013 | |
Os-185 | 7 x 1012 | |
Os-189m | 4 x 1014 | |
Os-191 | 9 x 1012 | |
Os-191m | 7 x 1013 | |
Os-193 | 1 x 1013 | |
Os-194 | 3 x 1011 | |
Oxygen | ||
O-15 | gas | 2 x 1015 |
Palladium | ||
Pd-100 | 1 x 1013 | |
Pd-101 | 8 x 1013 | |
Pd-103 | 3 x 1013 | |
Pd-107 | 5 x 1013 | |
Pd-109 | 1 x 1013 | |
Phosphorus | ||
P-32 | 7 x 1011 | |
P-33 | 4 x 1012 | |
Platinum | ||
Pt-186 | 8 x 1013 | |
Pt-188 | 1 x 1013 | |
Pt-189 | 7 x 1013 | |
Pt-191 | 3 x 1013 | |
Pt-193 | 2 x 1014 | |
Pt-193m | 2 x 1013 | |
Pt-195m | 1 x 1013 | |
Pt-197 | 2 x 1013 | |
Pt-197m | 1 x 1014 | |
Pt-199 | 2 x 1014 | |
Pt-200 | 8 x 1012 | |
Plutonium | ||
Pu-234 | 1 x 1012 | |
Pu-235 | 2 x 1015 | |
Pu-236 | 8 x 1008 | |
Pu-237 | 4 x 1013 | |
Pu-238 | 3 x 1008 | |
Pu-239 | 3 x 1008 | |
Pu-240 | 3 x 1008 | |
Pu-241 | 1 x 1010 | |
Pu-242 | 3 x 1008 | |
Pu-243 | 8 x 1013 | |
Pu-244 | 3 x 1008 | |
Pu-245 | 1 x 1013 | |
Pu-246 | 2 x 1012 | |
Polonium | ||
Po-203 | 8 x 1013 | |
Po-205 | 7 x 1013 | |
Po-206 | 1 x 1011 | |
Po-207 | 5 x 1013 | |
Po-208 | 3 x 1009 | |
Po-209 | 2 x 1009 | |
Po-210 | 4 x 1009 | |
Potassium | ||
K-40 | 1 x 1012 | |
K-42 | 2 x 1013 | |
K-43 | 3 x 1013 | |
K-44 | 5 x 1013 | |
K-45 | 8 x 1013 | |
Praseodymium | ||
Pr-136 | 1 x 1014 | |
Pr-137 | 1 x 1014 | |
Pr-138m | 4 x 1013 | |
Pr-139 | 2 x 1014 | |
Pr-142 | 6 x 1012 | |
Pr-142m | 6 x 1014 | |
Pr-143 | 5 x 1012 | |
Pr-144 | 2 x 1014 | |
Pr-145 | 2 x 1013 | |
Pr-147 | 2 x 1014 | |
Promethium | ||
Pm-141 | 2 x 1014 | |
Pm-143 | 9 x 1012 | |
Pm-144 | 2 x 1012 | |
Pm-145 | 8 x 1012 | |
Pm-146 | 1 x 1012 | |
Pm-147 | 5 x 1012 | |
Pm-148 | 3 x 1012 | |
Pm-148m | 2 x 1012 | |
Pm-149 | 8 x 1012 | |
Pm-150 | 3 x 1013 | |
Pm-151 | 1 x 1013 | |
Protactinium | ||
Pa-227 | 4 x 1011 | |
Pa-228 | 4 x 1011 | |
Pa-230 | 4 x 1010 | |
Pa-231 | 2 x 1008 | |
Pa-232 | 3 x 1012 | |
Pa-233 | 5 x 1012 | |
Pa-234 | 1 x 1013 | |
Radium | ||
Ra-223 | 3 x 1009 | |
Ra-224 | 8 x 1009 | |
Ra-225 | 4 x 1009 | |
Ra-226 | 3 x 1009 | |
Ra-227 | 6 x 1013 | |
Ra-228 | 2 x 1009 | |
Rhenium | ||
Re-177 | 5 x 1014 | |
Re-178 | 1 x 1014 | |
Re-181 | 2 x 1013 | |
Re-182 | 5 x 1012 | |
Re-182m | 3 x 1013 | |
Re-184 | 6 x 1012 | |
Re-184m | 3 x 1012 | |
Re-186 | 5 x 1012 | |
Re-186m | 2 x 1012 | |
Re-187 | 1 x 1015 | |
Re-188 | 6 x 1012 | |
Re-188m | 3 x 1014 | |
Re-189 | 1 x 1013 | |
Rhodium | ||
Rh-99 | 1 x 1013 | |
Rh-99m | 9 x 1013 | |
Rh-100 | 1 x 1013 | |
Rh-101 | 4 x 1012 | |
Rh-101m | 4 x 1013 | |
Rh-102 | 2 x 1012 | |
Rh-102m | 9 x 1011 | |
Rh-103m | 2 x 1015 | |
Rh-105 | 2 x 1013 | |
Rh-106m | 3 x 1013 | |
Rh-107 | 3 x 1014 | |
Rubidium | ||
Rb-79 | 9 x 1013 | |
Rb-81 | 9 x 1013 | |
Rb-81m | 8 x 1014 | |
Rb-82m | 3 x 1013 | |
Rb-83 | 6 x 1012 | |
Rb-84 | 4 x 1012 | |
Rb-86 | 3 x 1012 | |
Rb-87 | 6 x 1012 | |
Rb-88 | 9 x 1013 | |
Rb-89 | 8 x 1013 | |
Ruthenium | ||
Ru-94 | 9 x 1013 | |
ruthenium tetroxide | 8 x 1013 | |
Ru-97 | 6 x 1013 | |
ruthenium tetroxide | 6 x 1013 | |
Ru-103 | 7 x 1012 | |
ruthenium tetroxide | 1 x 1013 | |
Ru-105 | 3 x 1013 | |
ruthenium tetroxide | 3 x 1013 | |
Ru-106 | 4 x 1011 | |
ruthenium tetroxide | 8 x 1011 | |
Samarium | ||
Sm-141 | 1 x 1014 | |
Sm-141m | 7 x 1013 | |
Sm-142 | 5 x 1013 | |
Sm-145 | 1 x 1013 | |
Sm-146 | 3 x 1009 | |
Sm-147 | 3 x 1009 | |
Sm-151 | 7 x 1012 | |
Sm-153 | 1 x 1013 | |
Sm-155 | 3 x 1014 | |
Sm-156 | 3 x 1013 | |
Scandium | ||
Sc-43 | 4 x 1013 | |
Sc-44 | 2 x 1013 | |
Sc-44m | 4 x 1012 | |
Sc-46 | 2 x 1012 | |
Sc-47 | 1 x 1013 | |
Sc-48 | 5 x 1012 | |
Sc-49 | 1 x 1014 | |
Selenium | ||
Se-70 | 6 x 1013 | |
Se-73 | 3 x 1013 | |
Se-73m | 2 x 1014 | |
Se-75 | 4 x 1012 | |
Se-79 | 2 x 1012 | |
Se-81 | 3 x 1014 | |
Se-81m | 1 x 1014 | |
Se-83 | 6 x 1013 | |
Silicon | ||
Si-31 | 6 x 1013 | |
Si-32 | 3 x 1011 | |
Silver | ||
Ag-102 | 7 x 1013 | |
Ag-103 | 1 x 1014 | |
Ag-104 | 5 x 1013 | |
Ag-104m | 7 x 1013 | |
Ag-105 | 1 x 1013 | |
Ag-106 | 2 x 1014 | |
Ag-106m | 6 x 1012 | |
Ag-108m | 6 x 1011 | |
Ag-110m | 1 x 1012 | |
Ag-111 | 6 x 1012 | |
Ag-112 | 2 x 1013 | |
Ag-115 | 1 x 1014 | |
Sodium | ||
Na-22 | 1 x 1012 | |
Na-24 | 1 x 1013 | |
Strontium | ||
Sr-80 | 3 x 1013 | |
Sr-81 | 8 x 1013 | |
Sr-82 | 1 x 1012 | |
Sr-83 | 2 x 1013 | |
Sr-85 | 1 x 1013 | |
Sr-85m | 6 x 1014 | |
Sr-87m | 2 x 1014 | |
Sr-89 | 2 x 1012 | |
Sr-90 | 2 x 1011 | |
Sr-91 | 1 x 1013 | |
Sr-92 | 2 x 1013 | |
Sulphur | ||
S-35 | inorganic | 1 x 1013 |
organic | 1 x 1013 | |
gas / vapour | 1 x 1011 | |
Tantalum | ||
Ta-172 | 7 x 1013 | |
Ta-173 | 4 x 1013 | |
Ta-174 | 8 x 1013 | |
Ta-175 | 4 x 1013 | |
Ta-176 | 2 x 1013 | |
Ta-177 | 7 x 1013 | |
Ta-178m | 7 x 1013 | |
Ta-179 | 3 x 1013 | |
Ta-180 | 1 x 1014 | |
Ta-182 | 2 x 1012 | |
Ta-182m | 4 x 1014 | |
Ta-183 | 5 x 1012 | |
Ta-184 | 1 x 1013 | |
Ta-185 | 1 x 1014 | |
Ta-186 | 1 x 1014 | |
Technetium | ||
Tc-93 | 7 x 1013 | |
Tc-93m | 1 x 1014 | |
Tc-94 | 3 x 1013 | |
Tc-94m | 5 x 1013 | |
Tc-95 | 4 x 1013 | |
Tc-95m | 8 x 1012 | |
Tc-96 | 8 x 1012 | |
Tc-96m | 7 x 1014 | |
Tc-97 | 2 x 1013 | |
Tc-97m | 6 x 1012 | |
Tc-98 | 5 x 1011 | |
Tc-99 | 2 x 1012 | |
Tc-99m | 3 x 1014 | |
Tc-101 | 3 x 1014 | |
Tc-104 | 6 x 1013 | |
Tellurium | ||
Te-116 | 5 x 1013 | |
vapour | 6 x 1013 | |
Te-121 | 2 x 1013 | |
vapour | 2 x 1013 | |
Te-121m | 3 x 1012 | |
vapour | 2 x 1012 | |
Te-123 | 4 x 1012 | |
vapour | 2 x 1012 | |
Te-123m | 4 x 1012 | |
vapour | 3 x 1012 | |
Te-125m | 5 x 1012 | |
vapour | 6 x 1012 | |
Te-127 | 4 x 1013 | |
vapour | 5 x 1013 | |
Te-127m | 2 x 1012 | |
vapour | 2 x 1012 | |
Te-129 | 1 x 1014 | |
vapour | 1 x 1014 | |
Te-129m | 2 x 1012 | |
vapour | 2 x 1012 | |
Te-131 | 9 x 1013 | |
vapour | 8 x 1013 | |
Te-131m | 4 x 1012 | |
vapour | 3 x 1012 | |
Te-132 | 4 x 1012 | |
vapour | 2 x 1012 | |
Te-133 | 8 x 1013 | |
vapour | 8 x 1013 | |
Te-133m | 2 x 1013 | |
vapour | 2 x 1013 | |
Te-134 | 6 x 1013 | |
vapour | 6 x 1013 | |
Terbium | ||
Tb-147 | 3 x 1013 | |
Tb-149 | 5 x 1012 | |
Tb-150 | 2 x 1013 | |
Tb-151 | 2 x 1013 | |
Tb-153 | 1 x 1013 | |
Tb-154 | 1 x 1013 | |
Tb-155 | 4 x 1013 | |
Tb-156 | 7 x 1012 | |
Tb-156m | 5 x 1013 | |
Tb-156n | 9 x 1013 | |
Tb-157 | 2 x 1013 | |
Tb-158 | 6 x 1011 | |
Tb-160 | 2 x 1012 | |
Tb-161 | 9 x 1012 | |
Thallium | ||
Tl-194 | 2 x 1014 | |
Tl-194m | 7 x 1013 | |
Tl-195 | 1 x 1014 | |
Tl-197 | 2 x 1014 | |
Tl-198 | 5 x 1013 | |
Tl-198m | 7 x 1013 | |
Tl-199 | 2 x 1014 | |
Tl-200 | 3 x 1013 | |
Tl-201 | 9 x 1013 | |
Tl-202 | 2 x 1013 | |
Tl-204 | 6 x 1012 | |
Thorium | ||
Th-226 | 6 x 1011 | |
Th-227 | 3 x 1009 | |
Th-228 | 7 x 1008 | |
Th-229 | 1 x 1008 | |
Th-230 | 3 x 1008 | |
Th-231 | 2 x 1013 | |
Th-232 | 3 x 1008 | |
Th-234 | 2 x 1012 | |
Thulium | ||
Tm-162 | 9 x 1013 | |
Tm-166 | 2 x 1013 | |
Tm-167 | 1 x 1013 | |
Tm-170 | 2 x 1012 | |
Tm-171 | 2 x 1013 | |
Tm-172 | 5 x 1012 | |
Tm-173 | 3 x 1013 | |
Tm-175 | 2 x 1014 | |
Tin | ||
Sn-110 | 3 x 1013 | |
Sn-111 | 2 x 1014 | |
Sn-113 | 6 x 1012 | |
Sn-117m | 7 x 1012 | |
Sn-119m | 9 x 1012 | |
Sn-121 | 3 x 1013 | |
Sn-121m | 5 x 1012 | |
Sn-123 | 2 x 1012 | |
Sn-123m | 2 x 1014 | |
Sn-125 | 2 x 1012 | |
Sn-126 | 8 x 1011 | |
Sn-127 | 3 x 1013 | |
Sn-128 | 5 x 1013 | |
Titanium | ||
Ti-44 | 2 x 1011 | |
Ti-45 | 4 x 1013 | |
Tungsten | ||
W-176 | 1 x 1014 | |
W-177 | 9 x 1013 | |
W-178 | 5 x 1013 | |
W-179 | 2 x 1015 | |
W-181 | 9 x 1013 | |
W-185 | 2 x 1013 | |
W-187 | 1 x 1013 | |
W-188 | 4 x 1012 | |
Uranium | ||
U-230 | 2 x 1009 | |
U-231 | 2 x 1013 | |
U-232 | 8 x 1008 | |
U-233 | 3 x 1009 | |
U-234 | 3 x 1009 | |
U-235 | 3 x 1009 | |
U-236 | 3 x 1009 | |
U-237 | 8 x 1012 | |
U-238 | 4 x 1009 | |
U-239 | 3 x 1014 | |
U-240 | 8 x 1012 | |
Vanadium | ||
V-47 | 9 x 1013 | |
V-48 | 3 x 1012 | |
V-49 | 3 x 1014 | |
Xenon | ||
Xe-120 | 3 x 1014 | |
Xe-121 | 7 x 1013 | |
Xe-122 | 2 x 1015 | |
Xe-123 | 2 x 1014 | |
Xe-125 | 4 x 1014 | |
Xe-127 | 4 x 1014 | |
Xe-129m | 4 x 1015 | |
Xe-131m | 1 x 1016 | |
Xe-133 | 3 x 1015 | |
Xe-133m | 3 x 1015 | |
Xe-135 | 4 x 1014 | |
Xe-135m | 4 x 1014 | |
Xe-138 | 1 x 1014 | |
Ytterbium | ||
Yb-162 | 3 x 1014 | |
Yb-166 | 1 x 1013 | |
Yb-167 | 6 x 1014 | |
Yb-169 | 6 x 1012 | |
Yb-175 | 2 x 1013 | |
Yb-177 | 8 x 1013 | |
Yb-178 | 7 x 1013 | |
Yttrium | ||
Y-86 | 9 x 1012 | |
Y-86m | 2 x 1014 | |
Y-87 | 2 x 1013 | |
Y-88 | 2 x 1012 | |
Y-90 | 3 x 1012 | |
Y-90m | 4 x 1013 | |
Y-91 | 2 x 1012 | |
Y-91m | 3 x 1014 | |
Y-92 | 2 x 1013 | |
Y-93 | 7 x 1012 | |
Y-94 | 9 x 1013 | |
Y-95 | 1 x 1014 | |
Zinc | ||
Zn-62 | 9 x 1012 | |
Zn-63 | 7 x 1013 | |
Zn-65 | 3 x 1012 | |
Zn-69 | 2 x 1014 | |
Zn-69m | 2 x 1013 | |
Zn-71m | 3 x 1013 | |
Zn-72 | 6 x 1012 | |
Zirconium | ||
Zr-86 | 1 x 1013 | |
Zr-88 | 6 x 1012 | |
Zr-89 | 1 x 1013 | |
Zr-93 | 1 x 1012 | |
Zr-95 | 3 x 1012 | |
Zr-97 | 4 x 1012 |
PART 2E+W+SQuantity ratios for more than one radionuclide
Commencement Information
I2Sch. 1 Pt. 2 in force at 22.5.2019, see reg. 1(1)
For the purpose of regulation 3(4), the quantity ratio for more than one radionuclide is the sum of the quotients of the quantity of a radionuclide present Qp divided by the quantity of that radionuclide specified in the appropriate column of Part 1 of this Schedule Qlim, namely—
Regulation 3(1)
SCHEDULE 2E+W+S
E+W+S
For the purpose of regulation 3(1), the specified mass of a fissile material set out below is—
(a)plutonium as Pu-239 or Pu-241 or as a mixture of plutonium isotopes containing Pu-239 or Pu-241 – 150 grams;
(b)uranium as U-233 – 150 grams;
(c)uranium enriched in U-235 to more than 1% but not more than 5% - 500 grams; and
(d)uranium enriched in U-235 to more than 5% - 250 grams.
Regulation 5(1)
SCHEDULE 3E+W+S
1. The following requirements must be complied with in the assessment of consequences required by regulation 5.E+W+S
Commencement Information
I4Sch. 3 para. 1 in force at 22.5.2019, see reg. 1(1)
2. The assessment must be based on a suitable and sufficient range of source terms representing a range of potential radiation emergencies which might arise from the work with ionising radiation.E+W+S
Commencement Information
I5Sch. 3 para. 2 in force at 22.5.2019, see reg. 1(1)
3. The calculations undertaken in support of the assessment must consider a range of weather conditions (if weather conditions are capable of affecting the extent of the impact of the radiation emergency) to account for—E+W+S
(a)the likely consequences arising from such conditions; and
(b)consequences which are less likely, but with greater impact.
Commencement Information
I6Sch. 3 para. 3 in force at 22.5.2019, see reg. 1(1)
4. The assessment must consider the consequences of the potential radiation emergencies identified in regulation 4 on the population within the geographical extent of the potential radiation emergency, accounting. for different characteristics, including, for example age and other characteristics which would render specific members of the public especially vulnerable.E+W+S
Commencement Information
I7Sch. 3 para. 4 in force at 22.5.2019, see reg. 1(1)
5. The assessment must consider what would be an effective and, where relevant, equivalent dose to the thyroid in the context of each potential radiation emergency identified.E+W+S
Commencement Information
I8Sch. 3 para. 5 in force at 22.5.2019, see reg. 1(1)
6. The assessment must include all relevant pathways by which members of the public could be exposed to radiation in the context of each potential radiation emergency identified.E+W+S
Commencement Information
I9Sch. 3 para. 6 in force at 22.5.2019, see reg. 1(1)
7. The assessment must identify any protective action that may need to be taken for the range of potential radiation emergencies.E+W+S
Commencement Information
I10Sch. 3 para. 7 in force at 22.5.2019, see reg. 1(1)
8. The assessment must assess the consequences of suitable and sufficient source terms by distance and by exposure pathway, and the distances to which protective action would be required based on the United Kingdom's Emergency Reference Levels, published by [F1the UK Health Security Agency] M1.E+W+S
Textual Amendments
F1Words in Sch. 3 para. 8 substituted (1.11.2021) by The Radiation Emergency and Consultation Regulations 2021 (S.I. 2021/1110), regs. 1(1), 2(3)
Commencement Information
I11Sch. 3 para. 8 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M1Available at https://www.gov.uk/government/publications/radiation-emergency-reference-levels or in hard copy from the Department for Business, Energy and Industrial Strategy, 1 Victoria Street, London, SW1H 0ET. The functions of the National Radiological Protection Board were transferred to the Health Protection Agency by section 3 of the Health Protection Act 2004 (c. 17). The Health Protection Agency was abolished by section 56 of the Health and Social Care Act 2012 (c. 7) and its functions are now exercised by Public Health England.
[F28A. If the United Kingdom’s Emergency Reference Levels have not been published by the UK Health Security Agency, the assessment referred to in paragraph 8 must instead be based on the United Kingdom’s Emergency Reference Levels published by Public Health England]E+W+S
Textual Amendments
F2Sch. 3 para. 8A inserted (1.11.2021) by The Radiation Emergency and Consultation Regulations 2021 (S.I. 2021/1110), regs. 1(1), 2(4)
9. In this Schedule “source term” means the radioactivity which could give rise to direct external exposures from the premises or which could be released to the environment in a radiation emergency and, for releases, includes—E+W+S
(a)the amount of each radionuclide released;
(b)the time distribution of the release;
(c)the energy associated with atmospheric release; and
(d)the likely chemical and physical form of the radionuclides in the release.
Commencement Information
I12Sch. 3 para. 9 in force at 22.5.2019, see reg. 1(1)
Regulation 7(3)
SCHEDULE 4E+W+SParticulars to be included in a consequences report
PART 1 E+W+SFactual Information
1. The following factual information must be provided in the operator's consequences report—E+W+S
(a)the name and address of the operator;
(b)the postal address of the premises where the radioactive substance will be processed, manufactured, used or stored, or where the facilities for processing, manufacture, use or storage exist;
(c)the date on which it is anticipated that the work with ionising radiation will commence or, if it has already commenced, a statement to that effect.
Commencement Information
I13Sch. 4 para. 1 in force at 22.5.2019, see reg. 1(1)
PART 2 E+W+SRecommendations
2. The operator must include the following recommendations in the consequences report—E+W+S
(a)the proposed minimum geographical extent from the premises to be covered by the local authority's off-site emergency plan; and
(b)the minimum distances to which urgent protective action may need to be taken, marking against each distance the timescale for implementation of the relevant action.
Commencement Information
I14Sch. 4 para. 2 in force at 22.5.2019, see reg. 1(1)
3. In relation to a minimum geographical extent recommended under paragraph 2, the operator must also include within the consequences report—E+W+S
(a)the recommended urgent protective actions to be taken within that zone, if any, together with timescales for the implementation of those actions; and
(b)details of the environmental pathways at risk in order to support the determination of food and water restrictions in the event of a radiation emergency.
Commencement Information
I15Sch. 4 para. 3 in force at 22.5.2019, see reg. 1(1)
PART 3 E+W+SRationale
4. The operator must set out the rationale supporting each recommendation made in the consequences report.E+W+S
Commencement Information
I16Sch. 4 para. 4 in force at 22.5.2019, see reg. 1(1)
5. In particular, the operator must set out—E+W+S
(a)the rationale for its recommendation on the minimum distances for which urgent protective action may need to be taken; and
(b)where the operator and local authority have agreed that no off-site planning is required, and therefore no emergency planning is recommended, the rationale for that agreement.
Commencement Information
I17Sch. 4 para. 5 in force at 22.5.2019, see reg. 1(1)
Regulation 9(1)(a)
SCHEDULE 5E+W+S
1. The following table applies for the purpose of setting the outline planning zone under regulation 9(1)(a).E+W+S
Category | Nature of site | Outline planning zone |
---|---|---|
1 | Sites involved in the processing of High Level Waste or storing in excess of 100 tonnes of Plutonium | 50 kilometres |
2 | Operating nuclear power plants and decommissioning nuclear power plants with a presence of irradiated fuels | 30 kilometres |
3 | Sites with a significant presence of enriched uranium and decommissioning nuclear sites (other than power plants) with a significant presence of irradiated fuels | 5 kilometres |
4 | Decommissioned sites without a significant presence of irradiated fuels | 1 kilometre |
5 | Sites involved in the production of radiopharmaceuticals | No outline planning zone |
Commencement Information
I18Sch. 5 para. 1 in force at 22.5.2019, see reg. 1(1)
2. In the Table at paragraph 1 “High Level Waste” means waste which is radioactive enough for the heat released as a result of radioactive decay to increase significantly its temperature and the temperature of its surroundings and includes—E+W+S
(a)the liquid residue that contains most of the radioactivity from the reprocessing of spent nuclear fuel;
(b)this residue once it has solidified; or
(c)any other waste with similar radiological characteristics.
Commencement Information
I19Sch. 5 para. 2 in force at 22.5.2019, see reg. 1(1)
Regulations 10(3) and 11(3)
SCHEDULE 6E+W+SInformation to be included in emergency plans
PART 1 E+W+SInformation to be included in an operator's emergency plan
1. The information referred to in regulation 10(3) is as follows—E+W+S
(a)the arrangements to set emergency procedures in motion;
(b)the arrangements to co-ordinate the on-site mitigatory action;
(c)the name or position of the person with responsibility for liaison with the local authority responsible for preparing the off-site emergency plan;
(d)for conditions or events which could be significant in bringing about a radiation emergency, a description of the action which should be taken to control the conditions or events and to limit their consequences, including a description of the safety equipment and resources available;
(e)the arrangements for limiting the risks to persons on the premises including how warnings are to be given and the protective action persons are expected to take on receipt of a warning;
(f)the arrangements for providing early warning of the incident to the responder or responders identified in the local authority's off-site emergency plan to set the off-site emergency planning in motion, the type of information which should be contained in an initial warning and the arrangements for the provision of more detailed information as it becomes available;
(g)the arrangements for providing assistance to the local authority with its off-site protective action;
(h)the arrangements for providing information about the incident to the Secretary of State and the regulator;
(i)the arrangements for providing information about the incident to the Scottish Government or the Welsh Ministers, if appropriate;
(j)the arrangements for dealing with emergency exposures including the dose levels which have been determined as appropriate for the purposes of putting into effect the emergency plan;
(k)the arrangements to prioritise keeping doses within the reference levels set out in regulation 20(1);
(l)any specific arrangements which take account of lessons learned from past emergency situations, whether at the operator's premises or otherwise;
(m)what protective action is proposed to be taken, and how far each such action extends within any detailed emergency planning zone; and
(n)the arrangements which the operator considers may assist in the transition from a radiation emergency to an existing exposure situation, including who will be involved in such transition, what information they are to receive and when.
Commencement Information
I20Sch. 6 para. 1 in force at 22.5.2019, see reg. 1(1)
PART 2 E+W+SInformation to be included in the off-site emergency plan
CHAPTER 1E+W+SInformation about detailed emergency planning zones
2. The information referred to in regulation 11(3)(a) is as follows—E+W+S
(a)the arrangements to set emergency procedures in motion;
(b)the arrangements to co-ordinate the off-site protective action;
(c)the arrangements for receiving early warning of incidents, and alert and call-out procedures;
(d)the arrangements for co-ordinating resources necessary to implement the off-site emergency plan;
(e)the arrangements for providing assistance to the operator with on-site mitigatory action;
(f)the arrangements for off-site protective action;
(g)the arrangements for providing the public with specific information relating to the emergency and the response or responses recommended to the public as a whole or parts of it as a result of the emergency;
(h)the arrangements for dealing with emergency exposures including the dose levels which have been determined as appropriate for the purposes of putting into effect the emergency plan;
(i)the arrangements to prioritise keeping doses within the reference levels set out at regulation 20(1);
(j)any specific arrangements which take account of lessons learned from past emergency situations, whether at the operator's premises or otherwise;
(k)the arrangements for carrying out an assessment of the impacts of the radiation; and
(l)the arrangements which the local authority considers necessary in the transition from a radiation emergency to an existing exposure situation, including who will be involved in such a transition and what information they are to receive.
Commencement Information
I21Sch. 6 para. 2 in force at 22.5.2019, see reg. 1(1)
CHAPTER 2E+W+SInformation about outline planning zones
3. The information referred to in regulation 11(3)(b) is as follows—E+W+S
(a)where there is no detailed emergency planning zone, the information set out at paragraph 2; and
(b)in all cases—
(i)at what stage and how the response to a radiation emergency triggers a response within the outline planning zone; and
(ii)whether there are any areas of detailed planning within the outline planning zone and, if so, the detailed planning arrangements in respect of any such area.
Commencement Information
I22Sch. 6 para. 3 in force at 22.5.2019, see reg. 1(1)
4. In paragraph 3(b)(ii), an area of detailed planning within the outline planning zone means an area within which a greater degree of planning is necessary as a result of the existence of particular factors such as schools or hospitals within that area.E+W+S
Commencement Information
I23Sch. 6 para. 4 in force at 22.5.2019, see reg. 1(1)
CHAPTER 3E+W+SInformation which an off-site emergency plan must contain
5. In order to comply with regulation 11(3)(c) an off-site emergency plan must—E+W+S
(a)set out the extent of the detailed emergency planning zone (if any) and the outline planning zone (if any);
(b)in respect of the detailed emergency planning zone, set out—
(i)the severity of the consequences in terms of dose quantity; and
(ii)the extent to which the consequences can be mitigated by timely action;
(c)set out how the off-site emergency plan aims to mitigate the consequences of an emergency, in response to the factors listed at (b); and
(d)set out the process for determining when the site and the surrounding area is no longer in an emergency state.
Commencement Information
I24Sch. 6 para. 5 in force at 22.5.2019, see reg. 1(1)
Regulations 10(3) and 11(3)
SCHEDULE 7E+W+SPrinciples and purposes of emergency plans
PART 1 E+W+SPrinciples to which emergency plans must have regard
1. Any person with responsibility for preparing an emergency plan under these Regulations must consider the following principles when preparing that plan—E+W+S
(a)the necessity for the plan to respond to the particular characteristics of a given radiation emergency as those characteristics emerge;
(b)the necessity to optimise protection strategies to ensure that the proposed response, as a whole, is predicted to do more to mitigate the radiation emergency and facilitate transition from that emergency to an existing exposure situation than to increase its duration or consequences, taking into account—
(i)the health risks arising from exposure to ionising radiation as a result of the radiation emergency, in both the long and the short term;
(ii)the economic consequences of the radiation emergency;
(iii)the effects of the disruption, both on the premises and the area immediately surrounding it, and on the public perception of the effects of the radiation emergency;
(c)the necessity of avoiding, so far as possible, the occurrence of serious physical injury to any person; and
(d)the necessity of ensuring that an appropriate balance is struck between the expected harms and benefits of any particular protective action so as to maximise the benefit of that action.
Commencement Information
I25Sch. 7 para. 1 in force at 22.5.2019, see reg. 1(1)
PART 2 E+W+SPurposes of emergency plans
2. Any person with responsibility for preparing an emergency plan under these Regulations must ensure that the plan, if implemented, would fulfil the following purposes—E+W+S
(a)to reduce or stop the effects of the radiation emergency;
(b)to reduce the exposure to individuals and to the environment resulting from the release of ionising radiation;
(c)if necessary, to ensure that provision is made for the medical treatment of those affected by the radiation emergency; and
(d)to prioritise the implementation of the plan in relation to any person exposed to a dose in excess of the reference levels set out in regulation 20.
Commencement Information
I26Sch. 7 para. 2 in force at 22.5.2019, see reg. 1(1)
Regulation 21(3)
SCHEDULE 8E+W+SPrior information for members of the public
PART 1 E+W+SInformation in relation to detailed emergency planning zones
1. Basic facts about ionising radiation and its effects on persons and on the environment.E+W+S
Commencement Information
I27Sch. 8 para. 1 in force at 22.5.2019, see reg. 1(1)
2. The various types of radiation emergency identified and their consequences for the general public and the environment.E+W+S
Commencement Information
I28Sch. 8 para. 2 in force at 22.5.2019, see reg. 1(1)
3. Protective action envisaged to alert, protect and assist the general public in the event of a radiation emergency.E+W+S
Commencement Information
I29Sch. 8 para. 3 in force at 22.5.2019, see reg. 1(1)
4. Appropriate information on protective action to be taken by the general public in the event of a radiation emergency.E+W+S
Commencement Information
I30Sch. 8 para. 4 in force at 22.5.2019, see reg. 1(1)
5. The authority or authorities responsible for implementing the protective action referred to in paragraphs 3 and 4 above.E+W+S
Commencement Information
I31Sch. 8 para. 5 in force at 22.5.2019, see reg. 1(1)
6. The extent of the detailed emergency planning zone.E+W+S
Commencement Information
I32Sch. 8 para. 6 in force at 22.5.2019, see reg. 1(1)
PART 2 E+W+SInformation in relation to outline planning zones
7. Where the information set out at paragraphs 1 to 5 can be obtained.E+W+S
Commencement Information
I33Sch. 8 para. 7 in force at 22.5.2019, see reg. 1(1)
8. The extent of the outline planning zone.E+W+S
Commencement Information
I34Sch. 8 para. 8 in force at 22.5.2019, see reg. 1(1)
9. The factors which would cause the plan in respect of the outline planning zone to be triggered, and whether there are any areas of detailed planning within the outline planning zone as defined at paragraph 4 of Part 2 of Schedule 6.E+W+S
Commencement Information
I35Sch. 8 para. 9 in force at 22.5.2019, see reg. 1(1)
Regulation 22(4)
SCHEDULE 9E+W+SInformation to be supplied in the event of a radiation emergency
1. Information on the type of emergency which has occurred, and, where possible, its characteristics, for example, its origin, extent and probable development.E+W+S
Commencement Information
I36Sch. 9 para. 1 in force at 22.5.2019, see reg. 1(1)
2. Advice on protective action which may include, depending on the type of emergency—E+W+S
(a)any restrictions on the consumption of certain foodstuffs and water supply likely to be contaminated;
(b)any basic rules on hygiene and decontamination;
(c)any recommendation to stay indoors;
(d)the distribution and use of protective substances;
(e)any evacuation arrangements;
(f)special warnings for certain population groups.
Commencement Information
I37Sch. 9 para. 2 in force at 22.5.2019, see reg. 1(1)
3. Details concerning any announcements recommending cooperation with instructions or requests by the regulator.E+W+S
Commencement Information
I38Sch. 9 para. 3 in force at 22.5.2019, see reg. 1(1)
4. Where an incident which is likely to give rise to a release of radioactivity or ionising radiation has taken place but no release has yet occurred, the information and advice should include the following—E+W+S
(a)details of the relevant communications channels on which information about the incident will be available;
(b)preparatory advice to establishments with particular collective responsibilities; and
(c)recommendations to occupational groups particularly affected.
Commencement Information
I39Sch. 9 para. 4 in force at 22.5.2019, see reg. 1(1)
5. If time permits, information setting out the basic facts about radioactivity and its effects on persons and on the environment.E+W+S
Commencement Information
I40Sch. 9 para. 5 in force at 22.5.2019, see reg. 1(1)
6. In paragraph 4(b), “establishments with particular collective responsibilities” means hospitals, care homes, schools or similar establishments.E+W+S
Commencement Information
I41Sch. 9 para. 6 in force at 22.5.2019, see reg. 1(1)
Regulation 29
SCHEDULE 10E+W+SConsequential amendments
Road Vehicles (Construction and Use) Regulations 1986E+W+S
1. Regulation 37 of the Road Vehicles (Construction and Use) Regulations 1986 M2 is amended as follows—
(a)in paragraph (5)(k) omit “radiation accident or” in both place it occurs; and
(b)in paragraph (9A) for the definition of “radiation accident” and “radiation emergency” substitute—
““radiation emergency” has the same meaning as in the Radiation (Emergency Preparedness and Public Information) Regulations 2019.”.
Commencement Information
I42Sch. 10 para. 1 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M2S.I. 1986/1078. Paragraph (5)(k) and (9A) were substituted by S.I. 2011/935. There are other amendments, but none are relevant to this instrument.
Road Vehicles Lighting Regulations 1989E+W+S
2. Regulation 3 of the Road Vehicles Lighting Regulations 1989 M3 is amended as follows—
(a)in the definition of “emergency vehicle” omit “radiation accident or” in both places it occurs; and
(b)in the definition of “radiation accident” and “radiation emergency”—
(i)omit “radiation accident and”; and
(ii)for “2001” substitute “ 2019 ”.
Commencement Information
I43Sch. 10 para. 2 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M3S.I. 1989/1796. Regulation 3 was amended by S.I. 2005/2559. There are other amendments, but none are relevant to this instrument.
Health and Safety (Enforcing Authority) Regulations 1998E+W+S
3. In regulation 4A(2)(aa) of the Health and Safety (Enforcing Authority) Regulations 1998 M4 for “Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”.
Commencement Information
I44Sch. 10 para. 3 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M4S.I. 1998/494. Regulation 4A was inserted by S.I. 2014/469 and amended by S.I. 2017/1075.
Civil Contingencies Act 2004 (Contingency Planning) (Scotland) Regulations 2005E+W+S
4. In regulation 9(c) of the Civil Contingencies Act 2004 (Contingency Planning) (Scotland) Regulations 2005 M5 for “Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”.
Commencement Information
I45Sch. 10 para. 4 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M5S.S.I. 2005/494. Regulation 9 has been amended, but that amendment is not relevant to this instrument.
Civil Contingencies Act 2004 (Contingency Planning) Regulations 2005E+W+S
5. In regulation 12(e) of the Civil Contingencies Act 2004 (Contingency Planning) Regulations 2005 M6 for “Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”.
Commencement Information
I46Sch. 10 para. 5 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M6S.I. 2005/2042. Regulation 12 has been amended, but that amendment is not relevant to this instrument.
Radioactive Contaminated Land (Modification of Enactments) (England) Regulations 2006E+W+S
6. In regulation 17(3) of the Radioactive Contaminated Land (Modification of Enactments) (England) Regulations 2006 M7 in the inserted paragraph (4C) for “paragraph (2) of regulation 13 (implementation of emergency plans) of the Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ paragraph (3) of regulation 17 (implementation of emergency plans) of the Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”.
Commencement Information
I47Sch. 10 para. 6 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M7S.I. 2006/1379. Regulation 17 was substituted by S.I. 2008/520. Other amendments have been made but none are relevant to this instrument.
Radioactive Contaminated Land (Modification of Enactments) (Wales) Regulations 2006E+W+S
7. In regulation 17(3) of the Radioactive Contaminated Land (Modification of Enactments) (Wales) Regulations 2006 M8 in the inserted paragraph (4C) for “paragraph (2) of regulation 13 (implementation of emergency plans) of the Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ paragraph (3) of regulation 17 (implementation of emergency plans) of the Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”.
Commencement Information
I48Sch. 10 para. 7 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M8S.I. 2006/2988 (W. 277). Regulation 17 was substituted by S.I. 2008/521. Other amendments have been made but none are relevant to this instrument.
Radioactive Contaminated Land (Scotland) Regulations 2007E+W+S
8. In regulation 15 of the Radioactive Contaminated Land (Scotland) Regulations 2007 M9 in the inserted subsection 7(a) for “regulation 12(2) of the Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ regulation 17(3) of the Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”.
Commencement Information
I49Sch. 10 para. 8 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M9S.S.I. 2007/179. Regulation 15 was substituted by S.I. 2007/3240. Other amendments have been made but none are relevant to this instrument.
Local Government (Structural Changes) (Transitional Arrangements) (No. 2) Regulations 2008E+W+S
9.—(1) Regulation 11 of the Local Government (Structural Changes) (Transitional Arrangements) (No. 2) Regulations 2008 M10 is amended as follows.
(2) In paragraph (2)(c) for “regulation 9 of the Radiation (Emergency Preparedness and Public Information) Regulations (“the 2001 Regulations”) substitute “ regulation 11 of the Radiation (Emergency Preparedness and Public Information) Regulations 2019 (“the 2019 Regulations”) ”.
(3) In paragraph 4—
(a)in sub-paragraph (a) for “2001” substitute “ 2019 ”;
(b)in sub-paragraph (b) from “an assessment” to the end, substitute “ an evaluation or an assessment made by the operator under regulation 4 or 6 of the 2019 Regulations which does not reveal the potential for the occurrence of a radiation emergency ”.
(4) In paragraph 5 for “2001” substitute “ 2019 ”.
Commencement Information
I50Sch. 10 para. 9 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M10S.I. 2008/2867. Amendments have been made but none are relevant to this instrument.
Human Medicines Regulations 2012E+W+S
10.—(1) The Human Medicines Regulations 2012 M11 are amended as follows.
(2) In regulation 8(1) in the definition of radiation emergency for “Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”.
(3) In the entry numbered 19 in the first column of the table in Part 5 of Schedule 17 for “Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”.
Commencement Information
I51Sch. 10 para. 10 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M11S.I. 2012/1916, which was amended by S.I. 2018/64 and S.I. 2018/199.
Infrastructure Planning (Interested Parties and Miscellaneous Prescribed Provisions) Regulations 2015E+W+S
11. The table in Part 2 of Schedule 2 to the Infrastructure Planning (Interested Parties and Miscellaneous Prescribed Provisions) Regulations 2015 M12 is amended as follows—
(a)in column 1 for “Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”; and
(b)for column 2 of the entry for “Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute—
“Any evaluation required under regulation 4 (hazard evaluation)
Any assessment required under regulation 5 (consequence assessment)
Any assessment required under regulation 6 (review of hazard evaluation and consequence assessment)”.
Commencement Information
I52Sch. 10 para. 11 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M12S.I. 2015/462. Amendments have been made but none are relevant to this instrument.
Health and Safety and Nuclear (Fees) Regulations 2016E+W+S
12.—(1) The Health and Safety and Nuclear (Fees) Regulations 2016 M13 are amended as follows.
(2) In regulation 8—
(a)in the heading for “Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”;
(b)in paragraph 4 for “2001” in each place it occurs substitute “ 2019 ”;
(c)in paragraph 11 for the definition of “the 2001 Regulations” substitute—
““the 2019 Regulations” means the Radiation (Emergency Preparedness and Public Information) Regulations 2019”.
(3) In Schedule 6—
(a)in the heading for “Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”; and
(b)in the first column of table 2 for “regulation 14 of the 2001 Regulations” in both places it occurs substitute “ regulation 18 of the 2019 Regulations ”.
Commencement Information
I53Sch. 10 para. 12 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M13S.I. 2016/253. Regulation 8 was amended by S.I. 2017/1075. Other amendments have been made but none are relevant to this instrument.
Ionising Radiations Regulations 2017E+W+S
13. In regulation 36(1) of the Ionising Radiations Regulations 2017 M14 for “Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”.
Commencement Information
I54Sch. 10 para. 13 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M14S.I. 2017/1075. Amendments have been made but none are relevant to this instrument.
Ionising Radiation (Basic Safety Standards) (Miscellaneous Provisions) Regulations 2018E+W+S
14. In regulation 4(2)(a) of the Ionising Radiation (Basic Safety Standards) (Miscellaneous Provisions) Regulations 2018 M15 for “paragraph (2) of regulation 13 (implementation of emergency plans) of the Radiation (Emergency Preparedness and Public Information) Regulations 2001” substitute “ paragraph (3) of regulation 17 of the Radiation (Emergency Preparedness and Public Information) Regulations 2019 ”.
Commencement Information
I55Sch. 10 para. 14 in force at 22.5.2019, see reg. 1(1)
Marginal Citations
M15S.I. 2018/482. Amendments have been made but none are relevant to this instrument.