200 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
and remediation applications. Currently Gen B is capable of processing approximately five metric tonnes of material
Table 2. HPSA unit design metrics
Design Parameter Unit
DISA HPSA
Batch Units
Disa HPSA
Gen A Disa Gen B
Prototype
Header Unit
Disa
Gen C 10t*
Material Input/Load kg (lbs) 91 (200) Continuous Continuous Continuous Continuous
#pumps — 1–2 1–2 4+ 1 4+
#collision tanks — 1 1 4+ 4 4+
Dimensions (L W H) m (in) 2.4 (96)
1.2 (48)
2.1 (84)
1.9 (76)
1.5 (60)
4.6 (180)
6.7 (264)
2.8 (112)
3.1 (125)
3.3 (131.5)
1.4 (55)
2.5 (98.5)
8.5 (216)
7.8 (198)
5.2 (132)
Est. Production
Capacity*
Mg/hr 1.5–2.0 5.0 7.5 1.0–3.7 10.0
*A 10 t/hr Gen C is under development as of January 2024 and is expected to be in operation by Q2 of 2024, while **A 50 t/hr Gen
C is also under development and is expected to be in operation by Q3 of 2024.
Figure 2. Mineral collision principles
and remediation applications. Currently Gen B is capable of processing approximately five metric tonnes of material
Table 2. HPSA unit design metrics
Design Parameter Unit
DISA HPSA
Batch Units
Disa HPSA
Gen A Disa Gen B
Prototype
Header Unit
Disa
Gen C 10t*
Material Input/Load kg (lbs) 91 (200) Continuous Continuous Continuous Continuous
#pumps — 1–2 1–2 4+ 1 4+
#collision tanks — 1 1 4+ 4 4+
Dimensions (L W H) m (in) 2.4 (96)
1.2 (48)
2.1 (84)
1.9 (76)
1.5 (60)
4.6 (180)
6.7 (264)
2.8 (112)
3.1 (125)
3.3 (131.5)
1.4 (55)
2.5 (98.5)
8.5 (216)
7.8 (198)
5.2 (132)
Est. Production
Capacity*
Mg/hr 1.5–2.0 5.0 7.5 1.0–3.7 10.0
*A 10 t/hr Gen C is under development as of January 2024 and is expected to be in operation by Q2 of 2024, while **A 50 t/hr Gen
C is also under development and is expected to be in operation by Q3 of 2024.
Figure 2. Mineral collision principles