2025 - 2026 / Megantoni, Cusco — Peru

EPC 04 Malvinas projects and locations

The EPC 04 project was developed in four work packages at the Malvinas Gas Plant and Pagoreni A location, aimed at optimizing the operation of the WHC–Pagoreni–Malvinas system. The scope integrates new interconnections, installation of process equipment, adaptation of existing lines and execution of TIE-INS in operating systems, strengthening the flexibility and reliability of the Camisea process facilities.

292.000
man-hours worked
271
people, staff peak
4
work packages

Four Projects, One Mission

WP1

WP1 — Pagoreni Rebundle Fase 4

Main Objective


Ensure operational continuity due to the natural decrease in pressure in the reservoirs. Adaptation of TCS1 and TCS2 from phase 3 (400–200 psia) to phase 4 (200–100 psia).

Technical impact


Critical operational migration that ensures the sustainability of the compression system, adapting to the new reservoir pressure conditions.

Main scopes

Assembly of new lines
Segregation of air coolers
Scrubber containers
WP2

WP2 — condensate bridge

Main Objective

Provide greater contingency operational flexibility in the TCS3 unit of Cashiriari, creating a backup system to redirect liquids to CSU3.

Technical Impact


Ensures continuity of production through operational redundancy, minimizing the risk of process interruptions.

Main scopes

8”–900# line
Integral mount
Operational tie-ins
WP3

WP3 — Jump Over Malvinas

Main Objective

Increase transport capacity in the face of projected production growth, installing interconnections between existing pipelines to optimize flow.

Technical Impact

Bypass in “trident” that connects three lines of 16”, maximizing the efficiency of the transport system.

Main scopes

16” Valves High Pressure Hot Taps
“Trident” Bypass
WP4: PHASE I

Phase I: WP4 — Jump over Pagoreni A

Main Objective

Install interconnections (TIE-INS) between the three existing flowlines in Pagoreni A to enable gas transport from lots 56 and 57 at high pressure through dedicated lines, increasing operational flexibility.

Technical Impact

It reduces the back pressure, allows wells to operate wells with greater energy wealth and maximizes the use of compression in the Malvinas, strengthening the performance of the system.

Main scopes

4 jump overs
4 tie-ins during plant stops
5 actuated valves of 16”
WP4: PHASE II

Phase I: WP4 — Jump over Pagoreni A

Main Objective

Build two 16” buried parallel lines between Tie-Ins 1 and 2 and Tie-Ins 3 and 7 installed in Phase I, completing the interconnection network.

Technical Impact

Optimizes the continuity of high pressure flow to the Malvinas and strengthens operational efficiency through physical integration of the connections established in phase I.

Main Scopes

Trench excavation: 232 linear meters
Earthwork: 500 m³
Installation of 2 buried lines: 250 linear meters
Ø2 bypass interconnection.

Execution on site

9,870

Welded diametral inches

1,000

Meters of pipe laying

673

m³ of earthworks

22

TIE-INS executed on operating systems

36

Valves installed (manual and actuated)

11.9

Tons of electromechanical assembly

Operational Excellence

0

Accidents with waste of time

0

Lost Days

0

Environmental Events

32.226

SSMA training carried out

Project Chronology

Contract start

January 2025

Contract termination

April 2026

Execution time

352 days