In this paper, an advanced energy-saving petroleum machinery, the hydraulic energy-recovering workover rig, is researched. The equipped power of this rig is only one third of an ordinary rig, and this rig can also recover and reuse the potential energy which is released by the pipestring when lowered. The special working theory of this rig is introduced. An energy-saving analysis is conducted. Analysis shows that when lowering the pipestring which weighs $260kN$, the energy recovered by this rig is about $240×106J$. The mathematical model of lifting the pipestring is established and a simulation analysis is conducted. Through simulation, some conclusions are obtained: (1) the lighter the pipestring the shorter the pipestring lifting time; (2) the smaller the throttle valve path area the longer the pipestring lifting time; (3) the smaller the air vessel volume the shorter the pipestring lifting time. The actual measurement results prove that the simulation results are right.

1.
Zhang
,
L.
,
Gu
,
X.
,
Li
,
J.
,
Pan
,
W.
, and
Zhang
,
A.
, 2002, “
Characteristics of Lifting Velocity of Pipestring of XXJ 300/500 Hydraulic Energy-Storing Workover Rig
,”
China J. Univ. Petroleum
,
26
(
3
), pp.
72
75
.
2.
Zhang
,
L.
, 2004, “
Design on Area of Composite Oil Cylinder of XXJ 300/500 Hydraulic Energy-Storing Workover Rig
,”
Machine Tool & Hydraulics
,
10
, pp.
212
213
.
3.
Moak
,
R.
, 1996, “
New Hydraulic Lift Rig For Drilling and Workover
,”
World Oil
0043-8790,
217
(
7
), pp.
41
42
.
4.
Mordas
,
J. B.
, 1994, “
Accumulators-The Neglected Components
,”
Hydraul. Pneum.
0018-814X,
47
(
7
), pp.
41
43
.