International Software Summit 2026 - Jakarta

Empowering safety, reliability and integrity through digital technologies for a sustainable energy future

We are pleased to invite you to the International Software Summit 2026, taking place on 21–22 April in Jakarta, Indonesia.

This is your chance to connect with a global community of industry experts. Come together to share real-world experiences, discover new ideas, and explore the future of software in QHSE, Process Safety, Risk-based Inspection (RBI), and Reliability, Availability and Maintainability (RAM).

What to expect:

Day 1 features four dedicated conference tracks:

  • Next-Gen HSE and Risk Safety
  • Process Safety
  • RBI
  • RAM and Performance Forecasting

Day 2 offers deep dives into advanced applications with two interactive workshops:

  • Phast and Safeti
  • RBI

Join us for this unique opportunity to enhance your knowledge, connect with peers and experts, and discover new ways to drive performance and safety within your organization.

We hope to see you in Jakarta!

Registration is now closed. Kindly contact shaun.yee@dnv.com should you require further assistance.

 

Agenda

International Software Summit - 21 April 2026

08:00 - 09:00

Registration

09:00 - 09:05

Safety briefing

09:05 - 09:15

Welcome address

09:15 - 10:00

Energy transition outlook and role of oil and gas

DNV Energy Transition Outlook (ETO) offers key insights into global energy shifts. This presentation highlights key trends in energy transition, especially hydrocarbons, hydrogen, and CCS and the role of oil and gas companies can play.

10:00 - 10:30

Accelerating Process Safety Implementation

10:30 - 10:45

Coffee break and networking

10:45 - 11:00

Welcome and introduction

Importance of digital safety transformation in energy sector.

11:00 - 11:30

Enhancing Risk & Safety Management in High-Risk Industries Through Digitalization

  • Industry trends and regulatory direction
  • The urgency of digital adoption insight and lessons learned from recent local incidents  
11:30 - 12:00

Rethinking Incident Management: Introducing CLUE

•    Introduction to Contextual Learning and Understanding of Events (CLUE) 
•    Moving Beyond blame: Enabling a learning-oriental safey culture
•    Real-world perspectives on improving reporting and transparency 
•    Case study: Synergi Life in high risk industry operations

12:00 - 13:00

Lunch and networking

13:00 - 13:40

Building a Sustainable Safety Culture

• Embedding a proactive, learning-driven safety mindset
• Leadership and behavioral factors in safety excellence
• Practical steps to strenghen organziational safety culture 

13:40 - 14:00

AI for Safer Operations

• How AI is transforming safety and operational decision-making
• Use cases: Predictive insights, risk identification, and prevention
• Driving cultural change through data and intelligence 

14:00 - 14:20

Bring it to Life - Live Demonstration: Next-Gen Incident Management Solution

• End-to-end walktrhough of incident reporting and management
• Leveraging digital tools for faster repsonse and continuous learning
• Turning data into actionable safety insight 

14:20 - 15:00

PTW Enhancements : Strengthening Critical Risk Controls in High-Hazard Operations

• Reframing Permit to works as a critical risk barrier in high-hazard industries
• Strengthening control effectivenss through digitalization and integration 
• Linking PTW with incident management for improved risk visibility and prevention
• Enhancing operational safety through connected workflows and real-time insights

15:00 - 15:15

Coffee break and networking

15:30 - 16:00

Integration Safety, AI & Operations

• Connection incident Management, PTW and AI into a Unified approach
• Creating a resilient and future-ready safety ecosystem
• Key considerations for SaaS-enabled safety transformation

16:00 - 16:30

Q&A followed by closing remarks

10:45 - 11:15

Consequence Modelling and Risk Analysis – Selecting the Fit-for-Purpose Tool is Key

Effective process safety modelling depends on understanding consequences and risks from hazardous scenarios. With increasing complexity, selecting the right modelling tool is critical. This session outlines key approaches, tools, and use cases, helping professionals align tool selection with study objectives for reliable, defensible safety decisions.

11:15 - 12:00

Phast and Safeti software updates and roadmap

Phast and Safeti are industry-standard tools for safety and risk analysis for major hazard facilities. This presentation will highlight key updates from the past year and outline our roadmap for the year ahead. Topics include consequence modelling with Phast CFD, transport route model enhancements, IRPA in Safeti, integration of CFD data into QRA, solid explosion modelling, improved pipeline release modelling, etc.. These advancements support more accurate, reliable, and comprehensive safety risk analyses to meet evolving industry needs.

12:00 - 13:00

Lunch and networking

13:00 - 13:30

Recent Development of CCS in Indonesia

This presentation provides an overview of Indonesia’s evolving energy transition strategy, highlighting how carbon capture and storage (CCS) is positioned to support decarbonization goals. It outlines the latest developments in CCS regulatory frameworks, including emerging government regulation designed to enable investment and ensure long-term safe operation. The talk also reviews the current landscape of CCS initiatives across Indonesia—ranging from early-stage feasibility studies to large-scale hub concepts being pursued by major operators.

13:30 - 14:00

Advanced CO2 dispersion modelling for safe CCS

CCS is advancing rapidly, with over 500 projects underway globally. This presentation addresses safety considerations for managing large quantity of CO2 and showcases advanced dispersion modelling techniques for both atmospheric and subsea releases to support safe CCS projects.

14:00 - 14:30

Gas Detection System, A Way for Human and Asset Protection at Offshore Platform: Methodology to Determine the Optimized Number and Location of Gas Detector

Unmanned or Not-normally Manned Offshore Platforms are typically designed with an optimized or minimalist features. However, the principles of human safety and asset protection remain fully upheld, as they directly impact not only operational safety but also COMPANY’s reputation in the global business environment.
The Gas Detection System is one of the “key measures” used to obtain this objective. The purpose of gas detection is to detect the presence of potentially flammable, explosive or toxic gas concentration resulting from leak as early as possible, to locate the source, and to initiate the following responses:
1. Activation of visible and audible alarms
2. Automatic safety process actions (shutdown/blowdown) to prevent or limit escalation of a hazardous event.
A critical question could be: how do we determine the optimal number and location of GD to ensure effective protection while maintaining an optimized level of investment? Let’s discuss that question in this specific topic presentation.
14:30 - 15:00

In-building Release and Ventilation Modelling using KFX CFD code

Explore how KFX 3D CFD modelling is applied to in‑building gas release and ventilation analysis. Learn how scenario‑based simulations provide insight into gas accumulation, dispersion, and ventilation effectiveness, supporting safer facility design, improved risk understanding, and informed, defensible engineering decisions for complex built environments.  

15:00 - 15:15

Coffee break and networking

15:15 - 15:45

Incorporating CFD Data into Safeti QRA

Traditional consequence modelling in QRA typically relies on empirical models with free-field assumptions. While effective in many scenarios, this approach can lead to overestimated or inaccurate results when obstacles, complex terrain, or mitigation measures significantly influence outcomes.

CFD-based consequence modelling addresses these limitations by accurately representing such complexities. By integrating CFD results into Safeti QRA, risk analyses can be made more accurate. This presentation will outline the integration process and illustrate its benefits through a case study.

15:45 - 16:15

Phast Online - Web-based consequence analysis tool adds value for safe operations

Process safety engineers responsible for operational process safety often need quick and reliable estimates of hazards arising from loss of containment. Phast Online, a web-based, intuitive, and easy-to-use consequence analysis tool, is designed to meet this need. Powered by Phast, it delivers fast and trustworthy results to support safe and efficient decision-making. This presentation will highlight the technology, workflow, and practical use cases of Phast Online, showcasing how it adds value to safe operations.

16:15 - 16:30

Q&A followed by closing remarks

10:45 - 11:30

Synergi RBI 6.0 features update

The new Synergi RBI 6.0 - combining onshore, offshore, AST, and power plant RBI with Windows desktop, Web server, and SaaS subscription

11:30 - 12:00

API 581 4th (2025) edition changes

12:00 - 13:00

Lunch and networking

13:00 - 13:30

Integrating RBI With Corrosion Management Software: A Breakthrough Path To Higher Refinery Reliability

13:30 - 14:00

Customer story - Utilizing RBI software for PSM and life extension in Taiwan chemical and refinery plants

14:00 - 14:30

RBI for power plant - Knowledge and experience sharing

14:30 - 15:00

RBI for offshore - Knowledge and experience sharing

15:00 - 15:15

Coffee break and networking

15:15 - 15:45

Automatic damage allocation and sensitivity update (what-if analysis) in RBI Web

15:45 - 16:15

RBI Web - Open interface and integration with 3rd party systems

16:15 - 16:30

Q&A followed by closing remarks

10:45 - 11:30

Maximizing asset performance: real-world impact of RAM analysis on oil and gas asset

11:30 - 12:00

Case study

RAM in LNG project: From study to decision

12:00 - 13:00

Lunch and networking

13:00 - 13:30

Using performance forecasting to evaluate modifications and CAPEX projects for aging assets

13:30 - 14:45

Advanced performance forecasting and RAM analysis for hydrogen, ammonia and CCS projects

As hydrogen, ammonia, and carbon capture projects scale up, ensuring reliable and cost-efficient operations is critical. Reliability, Availability and Maintainability (RAM) analysis provides the performance forecasting needed to balance CAPEX and OPEX, maximize uptime, and guide key decisions across the entire asset lifecycle—from concept and design through operation to decommissioning. DNV’s Maros and Taro software, long proven in the oil and gas sector, now bring these capabilities to the energy transition space, enabling informed investments and robust, low-carbon infrastructure.

14:00 - 14:30

RAM in operational phases

14:30 - 15:00

Maros workshop with hands-on exercises

Learn to build a performance forecasting RAM model:


1) Create block flow diagrams and reliability block diagrams (RBD) 
2) Input reliability data and planned maintenance programs 
3) Consider the economics, such as costs and revenue 
4) Understand key results such as production efficiency and criticality analysis

15:00 - 15:15

Coffee break and networking

15:15 - 16:15

Maros workshop (continued)

Learn to build a performance forecasting RAM model:


1) Create block flow diagrams and reliability block diagrams (RBD) 
2) Input reliability data and planned maintenance programs 
3) Consider the economics such as costs and revenue 
4) Understand key results such as production efficiency and criticality analysis

16:15 - 16:30

Q&A followed by closing remarks

Agenda

International Software Summit - 22 April 2026

08:30 - 09:00

Registration

09:00 - 09:45

Session 1: Vent dispersion modelling

  • Dispersion modelling of vented gas mixtures by Phast
  • Track toxic component in mixtures
  • Multi-source vent modelling by CFD (KFX)
09:45 - 10:30

Session 2: Flare radiation modelling

  • Phast jet fire model for flare radiation modelling
  • Phast CFD for flare radiation modelling
  • Multi-source flare radiation modelling by CFD (KFX)
10:30 - 10:45

Coffee break and networking

10:45 - 12:00

Session 3: Solid explosion and dust explosion modelling with Phast

  • Solid explosion (Beirut ammonium nitrate explosion)
  • Dust explosion (Polyethylene dust explosion)
12:00 - 13:00

Lunch and networking

13:00 - 14:00

Session 4: Phast CFD – Dispersion Modelling

  •  3D geometry
  • CFD dispersion scenario
  • Running the simulations
  • Result interpretation
14:00 - 15:00

Session 5: Aboveground and buried pipeline risk analysis in Safeti

  • Case 1: Natural gas pipeline
  • Case 2: CO2 pipeline
15:00 - 15:15

Coffee break and networking

15:15 - 16:30

Session 6: Phast Online

  • Run consequence modelling with Phast Online
08:30 - 09:00

Registration

09:00 - 09:45

API 581 4th edition changes in Synergi RBI Windows 6.0

Hands-on session.

09:45 - 10:30

New features in Synergi RBI Windows 6.0

Hands-on session.

10:30 - 10:45

Coffee break and networking

10:45 - 12:00

API 581 4th edition changes in Synergi RBI Web 6.0

Hands-on session.

12:00 - 13:00

Lunch and networking

13:00 - 14:15

Batch data import and export in Synergi RBI Web 6.0

Hands-on session.

14:15 - 15:00

Sensitivity and internal update in Synergi RBI Web 6.0

Hands-on session.

15:00 - 15:15

Coffee break and networking

15:15 - 16:30

Creating your own RBI study from begin to end

Hands-on session.