58:. Eddy current separators are typically used at the end of the waste material stream, since ferrous metals will become heated when exposed to an eddy current field, leading to potential damage to the eddy current separator.
73:
carrying a layer of mixed waste. At the end of the conveyor belt is an eddy current rotor. Non-ferrous metals caught in the eddy current end up in a product bin, while other material falls off the belt due to gravity.
98:
for a device using eddy currents to separate non-ferrous metals from non-metals was granted to
William Benson and Thomas Falconer of Eriez Magnetics in 1969.
201:
171:
144:
248:
191:
161:
134:
115:
39:
to effect the separation. Non-ferrous metals typically separated by an ECS include aluminum, copper and die-cast metals.
51:
47:
243:
197:
167:
140:
78:
32:
230:
For extra information and videos of Eddy
Current Separator give a look to Cogelme S.r.l. site
54:, ECS is used after the waste has passed through some arrangement of magnets to remove
28:
237:
82:
70:
43:
229:
36:
218:
94:
55:
133:
Ilyas, Sadia; Kim, Hyunjung; Srivastava, Rajiv Ranjan (2021-03-08).
61:
In mining, ECS is sometimes used to separate metals from mined ore.
16:
Machine that separates non-ferrous metals from an input stream
35:
from an input waste or ore stream. The device makes use of
116:"Magnetic Equipment Guide -- Eddy Current Separators"
77:
Eddy current separators may use a rotating drum with
160:Fuerstenau, Maurice C.; Han, Kenneth N. (2003).
8:
193:Environmentally Conscious Mechanical Design
136:Sustainable Urban Mining of Precious Metals
69:The eddy current separator is applied to a
107:
185:
183:
7:
85:depending on the type of separator.
27:) is a machine that uses a powerful
14:
222:Electrodynamics Separator (1969)
163:Principles of Mineral Processing
1:
52:materials recovery facilities
265:
249:Waste treatment technology
196:. John Wiley & Sons.
190:Kutz, Myer (2007-03-16).
48:single-stream recycling
219:U.S. patent 3,448,857A
95:U.S. patent 3,448,857A
21:eddy current separator
216:W.H. Benson et al.,
33:non-ferrous metals
203:978-0-471-72636-4
173:978-0-87335-167-6
146:978-1-000-35063-0
79:permanent magnets
256:
223:
221:
214:
208:
207:
187:
178:
177:
157:
151:
150:
130:
124:
123:
112:
97:
81:, or may use an
264:
263:
259:
258:
257:
255:
254:
253:
234:
233:
227:
226:
217:
215:
211:
204:
189:
188:
181:
174:
159:
158:
154:
147:
132:
131:
127:
120:Recycling Today
114:
113:
109:
104:
93:
91:
67:
17:
12:
11:
5:
262:
260:
252:
251:
246:
236:
235:
225:
224:
209:
202:
179:
172:
152:
145:
125:
106:
105:
103:
100:
90:
87:
66:
63:
56:ferrous metals
29:magnetic field
15:
13:
10:
9:
6:
4:
3:
2:
261:
250:
247:
245:
242:
241:
239:
232:
231:
220:
213:
210:
205:
199:
195:
194:
186:
184:
180:
175:
169:
165:
164:
156:
153:
148:
142:
139:. CRC Press.
138:
137:
129:
126:
121:
117:
111:
108:
101:
99:
96:
88:
86:
84:
83:electromagnet
80:
75:
72:
71:conveyor belt
64:
62:
59:
57:
53:
49:
45:
44:waste sorting
40:
38:
37:eddy currents
34:
30:
26:
22:
228:
212:
192:
162:
155:
135:
128:
119:
110:
92:
76:
68:
60:
41:
31:to separate
24:
20:
18:
238:Categories
102:References
244:Recycling
65:Technique
166:. SME.
89:History
200:
170:
143:
198:ISBN
168:ISBN
141:ISBN
50:at
46:of
42:In
25:ECS
19:An
240::
182:^
118:.
206:.
176:.
149:.
122:.
23:(
Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.