Pancontinental Energy NL（“Pancontinental”或“公司”）欣然提供以下与其位于纳米比亚近海橙色盆地的PEL 87项目相关的技术更新。

亮点
Pancontinental的定量解释(QI)专家分析了PEL 87的三维地震数据，并结合了区域油井数据的岩石物理趋势
QI研究支持存在较高的净储量与总储量之比的储层系统，碳氢化合物流体效应的证据与已识别的II类AVO异常相一致
盆地建模研究证实，世界级的库杜烃源岩在PEL 87许可区域内普遍存在，成熟的油藏在土星复合体正下方和东北方向产出低气油比(GOR)原油
建模表明，直接流入土星复合体的产油能力超过200亿桶
研究结果将纳入Pancontinental对潜在资源和地质风险的估算。

盆地建模
Pancontinental的盆地建模研究现已完成，并得到了专业顾问。本研究旨在分析PEL 87附近奥兰治盆地的形成和构造演化，并重建地质/热历史，以预测油气生成、运移和聚集的区域。除了PEL 87的三维地震体外，还纳入了区域二维地震数据，以覆盖更大的PEL 87区域。此外，还纳入了多口区域性油井。

虽然纳米比亚近海已发现多种潜在烃源岩，但普遍存在的巴列姆阶-阿普第阶库杜页岩地层被广泛认为是PEL 87以南主要轻质油发现的主要烃源岩。库杜地层已在PEL 87内的Moosehead-1X勘探井中得到证实，该井发现了约200米厚的以II型海洋油页岩为主的页岩，总有机碳含量（TOC）高达5.5%。该地层具有独特的地震特征，易于在整个区域进行测绘。 PEL 87 区域，厚度一般在 200 至 300 米之间。图 1 显示了库杜页岩顶部的深度结构图，主要的沉积中心位于土星杂岩的下方和东北部，以及 PEL 87 的西南部，靠近库杜

气田和莫帕尼油田。
根据区域测绘，在结构较高的Moosehead-1X位置，库杜页岩已处于早期生油成熟阶段，地温梯度为35°C/km，但在土星复合体正下方存在一个生油灶，并向东和向南延伸至莫帕尼气田。在更深的埋藏深度，发现了两个独立的气灶，其中较大的一个位于库杜气田正下方。土星复合体目标与下方生油灶的接近，使得土星勘探目标处于接收碳氢化合物充注的绝佳位置，只需有限的垂直运移和相对较短的横向运移。据估计，土星复合体正下方的成熟区域已生成并排出约200亿桶石油，足以为土星勘探/铅矿的全部储量提供高位充注。预计位于东北方向下倾的“取油区”将带来显著的额外充注贡献。

位于土星复合体东北部的气灶很可能为油气系统贡献天然气。然而，由于气油比 (GOR) 估计为 200 标准立方英尺/桶，预计 Saturn Complex 勘探区/线索中的伴生气含量将明显低于（例如）TotalEnergies Venus 发现中的伴生气含量，后者的高含量伴生气对开发提出了一定的挑战。

定量解释 (QI)
Pancontinental 聘请了一位专业的 QI 专家来检查在 PEL 87 3D 地震数据中观察到的 AVO 异常，并根据可用的区域井数据调查岩石物理以生成地震 AVO 反演数据。到目前为止，这项研究比以前的努力有所改进，因为已经将解释的阿尔布期储层的模拟井纳入分析，为与 Saturn Complex 中观察到的 AVO 异常相符的高净总比储层系统提供了支持。三维地震道集分析表明，土星复合体目标层段的上部和下部层序均呈现出一致的II类AVO响应，而这些层段的合成建模表明地震数据中可能存在明显的碳氢化合物效应。地震反演产品仍在筛选中，但Lambda-Rho体积输出（对碳氢化合物的存在和孔隙度敏感）为已确定的主要潜在层段提供了额外的支撑。

此外，层序地层研究中的PaleoScan高频时间等效层位已用于从AVO反演数据中提取振幅。Oryx勘探区构造增强区域内清晰可见河道形态，这直接支持了Oryx位于Saturn复合体浊积岩沉积轴内的解释。总而言之，这一新证据增强了Saturn复合体内存在高净粗储层系统及碳氢化合物的可信度。

Pancontinental Energy首席执行官Iain Smith表示：“我们很高兴这两项关键研究取得了进展，这证实了Saturn综合体具有极佳的油藏储量潜力，这些储量系统具有较高的净总比砂岩单元潜力，并显示出碳氢化合物存在的良好迹象。额外的QI筛选研究正在进行中，Pancontinental对预期资源量和地质风险的估算也在修订中，预计将于7月底完成。”

请参阅Pancontinental于2025年3月18日向澳大利亚证券交易所(ASX)发布的公告，了解公司目前对预期资源量和地质成功概率的估算详情。

关于PEL87
87号石油勘探许可证（PEL 87）位于纳米比亚南部奥兰治盆地近海（参见图1）。该许可证占地面积10,970平方公里，与Galp Energia、TotalEnergies和Shell近期发现的一系列非常重要的碳氢化合物储量处于同一趋势。

PEL 87 于 2018 年初授予由 Pancontinental 牵头的合资企业，许可期限为 8 年，共 3 个期限（加上后续延期），并可根据预先商定的条款转换为生产许可证。

PEL 87 合资企业的参与者如下：
Pancontinental Orange Pty Ltd（运营商）75％
Custos Investments（Pty）Ltd 15％
纳米比亚国家石油公司（NAMCOR）10％

Pancontinental Energy NL ("Pancontinental" or "Company) is pleased to provide the following technical update in relation to its PEL 87 project, Orange Basin, offshore Namibia.

Highlights
§ Pancontinental's Quantitative Interpretation (QI) specialist has analysed PEL 87 3D seismic data, incorporating rock physics trends from regional well data
§ QI study provides support for a high net to gross reservoir system, with hydrocarbon fluid effects in evidence coincident with identified Class II AVO anomalies
§ Basin Modelling study confirms that the world class Kudu source rock is ubiquitous across the PEL 87 permit area, with a mature kitchen generating low GOR oil directly beneath and to the northeast of the Saturn Complex
§ Modelling indicates generative capacity exceeding 20 billion barrels feeding directly into the Saturn Complex
§ Results to be incorporated into Pancontinental's estimates of prospective resources and geological risking

Basin Modelling
Pancontinental's basin modelling study has now been completed with input from a specialist consultant. The purpose of the study has been to analyse the formation and structural evolution of the Orange Basin within the vicinity of PEL 87 and reconstruct the geological/thermal history to predict areas of hydrocarbon generation, migration, and accumulation. In addition to the PEL 87 3D seismic volume, regional 2D seismic data was incorporated to provide coverage across the greater PEL 87 area. A number of regional wells were also included.

While a variety of potential source rocks have been identified in the Namibian offshore, it is the ubiquitous Barremian-Aptian aged Kudu Shale formation that is widely recognised as the primary source of hydrocarbons for the major light oil discoveries to the south of PEL 87. The Kudu formation has been proven within PEL 87 at the Moosehead-1X exploration well, which encountered approximately 200 metres of dominantly Type II marine oil shale with Total Organic Content (TOC) of up to 5.5%. The formation has a distinctive seismic character and is readily mapped across the entire PEL 87 area, with thickness generally between 200 to 300 metres. Figure 1 shows a depth structure map for the top Kudu Shale, with major depocentres evident beneath and to the northeast of the Saturn Complex, and to the southwest of PEL 87 in the vicinity of the Kudu

Gas Field and the Mopane oil discoveries
While the Kudu Shale was found to be early-mature for oil generation at the structurally high Moosehead-1X location, based on the regional mapping, and a mid-range geothermal gradient of 35°C per km, an oil kitchen exists directly beneath the Saturn Complex and extends eastwards and southwards to the Mopane discoveries. At greater depths of burial two discrete gas kitchens are identified, the larger of which sits directly beneath the Kudu Gas Field. The proximity of the Saturn Complex targets to the underlying oil kitchen places the Saturn exploration targets in an excellent position to receive hydrocarbon charge, with limited vertical and relatively short-distance lateral migration required. The mature area directly beneath the Saturn Complex is estimated to have generated and expelled approximately 20 Billion barrels of oil; sufficient to charge the full Saturn prospect/lead inventory up to the high case. A significant additional charge contribution can be expected from the "fetch" area that is situated down-dip to the northeast.

The gas kitchen situated to the northeast of the Saturn Complex is likely to contribute gas to the petroleum system. However, with an estimated Gas-Oil-Ratio (GOR) of 200 scf/Bbl the associated gas content within the Saturn Complex prospects/leads is predicted to be significantly lower than at (for example) TotalEnergies Venus discovery, in which the high level of associated gas presents certain challenges to development.

Quantitative Interpretation (QI)
Pancontinental has engaged an expert QI specialist to examine the AVO anomalies observed within the PEL 87 3D seismic data, and to investigate the rock physics from available regional well data to generate seismic AVO inversion data. Thus far the study has improved on previous efforts in that an analogue well for the interpreted Albian-aged reservoirs has been incorporated into the analysis, providing support for a high net-to-gross reservoir system coincident with AVO anomalies observed within the Saturn Complex. Analysis of the 3D seismic gathers indicates consistent Class II AVO responses in both upper and lower sequences within the Saturn Complex target intervals, and synthetic modelling of those intervals indicates possible hydrocarbon effects evident in the seismic data. Seismic Inversion products are still being screened, however Lambda-Rho volume outputs (which are sensitive to the presence of hydrocarbons and porosity) provide additional encouragement for the main prospective intervals identified.

In addition, the PaleoScan high frequency time-equivalent horizons from the sequence stratigraphic study have been used in amplitude extractions from the AVO inversion data. Channel forms are clearly present within the structurally enhanced area of the Oryx Prospect, providing direct support for the interpretation that Oryx is positioned within the axis of deposition for the Saturn Complex turbidite deposits. In summary this new evidence provides increased confidence for the presence of a high netto-gross reservoir system within the Saturn Complex, and for the presence of hydrocarbons.

Pancontinental Energy Chief Executive Officer, Iain Smith commented "We are pleased to have progressed these two key studies, which confirm that the Saturn Complex is particularly well placed to receive oil charge into reservoir systems that exhibit potential for high net-to-gross sandstone units and good indications for the presence of hydrocarbons. Additional QI screening studies are being progressed, as are revisions to Pancontinental's estimates of prospective resources and geological risking, targeting late July."

Please refer to Pancontinental's announcement to ASX of 18 March 2025 for details of the Company's current estimates of prospective resources and geological chances of success.

About PEL87
Petroleum Exploration Licence 87 (PEL 87) is located in the offshore Orange Basin, southern Namibia (refer Figure 1). The permit covers an area of 10,970 km2 and is situated on-trend with a number of very significant hydrocarbon discoveries that have been made in recent times by Galp Energia, TotalEnergies, and Shell.

PEL 87 was awarded to a joint venture led by Pancontinental in early 2018 for up to 3 terms over 8 years (plus subsequent extensions) and may be converted to a Production Licence under pre-agreed terms.

The participants in the PEL 87 Joint Venture are as follows:
Pancontinental Orange Pty Ltd (Operator) 75%
Custos Investments (Pty) Ltd 15%
National Petroleum Corporation of Namibia (NAMCOR) 10%