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Trading
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- Personal > Honors (1.00)
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GEM being held every four years is an international forum for geophysicists to communicate the latest developments and exchange ideas in potential fields and electromagnetics. The event has been held 3 editions successfully, GEM 2011 Beijing, GEM 2015 Chengdu, GEM 2019 Xi'an. Specifically, the goal of GEM 2024 Shenzhen is to bring together geophysics researchers and practitioners from academia, government agencies, resource companies, and contractors to share the latest technological and methodological advancements and their successful applications to practical problem solving, and to inspire discussions among the participants about the best practices of turning electromagnetic, gravity, and magnetics data into value-added information. The workshop will provide spaces for showcasing your businesses and services. Each exhibit booth is priced US$2600 (RMB 16000). The exhibit rental fee is due and payable with the return of the application and contract for exhibit space form.
- Europe (1.00)
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- Personal > Honors (1.00)
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- Law > Intellectual Property & Technology Law (1.00)
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- Europe (1.00)
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- Personal > Honors (1.00)
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The Development Committee was also reimagined into six focused subcommittees, with each director playing a vital leadership role. The Foundation is walking alongside SEG leadership, as the Society advances a transformative and compelling case to lead and create multidisciplinary, innovative approaches and programs. I wish to recognize and thank our many We look to build practical partnerships with various communities loyal corporate supporters, and our of expertise to seek globally pertinent solutions through applied friends inside those organizations, as geophysics. All of us are in the midst of the worldwide conversation well as the hundreds of engaged and on global energy transition and expansion, and SEG can assume generous individuals who contribute the leadership role of evaluating and promoting new technologies, their time, talent, and treasure to the techniques, and monitoring systems that are being introduced Foundation each year. You enable the every day. The next chapter for applied geophysics is still to education and continued development be written. The Society will provide our new and early career of thousands of members globally, as professionals with future-focused practical learning experiences well as the promotion and application of and resources that will speed their contributions to the science geophysics in the service of humanity.
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- Overview > Innovation (0.68)
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- Instructional Material > Course Syllabus & Notes (0.46)
- Geology > Geological Subdiscipline (1.00)
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- North America > United States > Utah > Sage Field (0.99)
- North America > United States > Michigan > Michigan Basin > Hamilton Field > Lucas Formation (0.99)
- Europe > Norway > North Sea > Central North Sea > South Viking Graben > PL 046 > Utsira Formation (0.99)
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- Reservoir Description and Dynamics > Reservoir Characterization > Seismic processing and interpretation (1.00)
- Reservoir Description and Dynamics > Reservoir Characterization > Exploration, development, structural geology (1.00)
- Health, Safety, Environment & Sustainability > Sustainability/Social Responsibility > Sustainable development (1.00)
- Health, Safety, Environment & Sustainability > Sustainability/Social Responsibility > Social responsibility and development (1.00)
Abstract As regulators and financial institutions set high expectations to transition to net zero, climate-neutral operations became a requirement today. However, many companies in the industry face challenges in measuring their emissions in an accurate, consistent, and automated way. As regulations become more stringent, calculating its carbon footprint is critical to unlock value and avoid penalties for inaccurate carbon footprint reporting. In this paper, I will share how digitalization is the foundation for effective carbon footprint management. While every company is unique one thing remains constant; measurement is the first step towards effective carbon footprint management. To achieve the best results possible scope creep must be avoided for effectiveness. Once the key emitting processing units are selected, the main sources of emission and measurement can be identified for scopes 1 and 2. With a Fit-for-plant mindset, real-time data, and digitalization, models can be deployed to automate emission calculations. Doing so lets you effectively measure and track the carbon intensity of your intermediary and final products in real-time and provides carbon data in your daily operation management. Through implementing this approach with customers, we have seen benefits of reducing efforts and costs related to emission data calculation and validation from 3-4weeks of effort quarterly to 0days; freeing up 1 to 2 resources to focus on value-added tasks; identifying high emitters, operational discrepancies, equipment inefficiencies, and operational improvements to reduce emission from 18,000 to 7,000 ton CO2e/year for a 150,000 bbl/day for a deep conversion refinery and to save up to 0.5% of energy consumption. Furthermore, the approach helped reduce IT overhead as emissions and energy consumption are measured, validated, consolidated and reported through one readily available tool. Lastly, the customers were able to trace the carbon intensity into their final products and leverage this for new value stream opportunities. Digitalization is the key to making the invisible visible and manageable. To track carbon, you must know where it comes from in real-time, so it becomes actionable. Quarterly or monthly calculations based on estimated and inaccurate emission factors methodology won't be sufficient for emission accounting and capturing opportunities arising with green premium and scope 3. This whitepaper offers a new perspective on carbon footprint management and the need for an automated emission calculation system to manage emissions effectively and track carbon. This will, in turn, unlock new value stream opportunities. Lastly, this paper highlights the workforce empowerment benefits and the financial considerations of emission granularity, as inaccurate emissions calculations will have financial implications in the future.
- Asia (1.00)
- North America > United States (0.94)
- Energy > Oil & Gas > Upstream (1.00)
- Banking & Finance > Trading (1.00)
- Government > Regional Government > North America Government > United States Government (0.47)
China has committed to achieving carbon peak and neutrality targets, and ETS serves as a major and innovative policy instrument, which consists of both Chinese Emission Allowances (CEAs) and Chinese Certified Emission Reduction (CCER). Considering the appeal for restarting CCER market, this paper proposes the "Natural Gas+" CEA and CCER techno-economics system and establishes the potential market value evaluation model for corresponding CEA and CCER. By exploring the combination scenarios among revised carbon emission, Natural Gas consumption, market shares of different phases' technologies and carbon prices, the reasonable potential market value range of the "Natural Gas+" system for CEA and CCER are obtained. The potential market value of CCER is rising year by year with range of 669.2~1367.6 billion yuan in 2050, displaying a median value of 1031.1 billion yuan without outlier. Nevertheless, the CEA market value will reach peak in 2048 with range of 71.5~162.1 billion yuan, performing extremely large outliers from 2030. The results could quantitatively support the policy recommendations for restarting the CCER market. Keywords: "Natural Gas+" system, Fugitive emission correction, Logistic growth model, Technology transfer model, CEA and CCER market value assessment
- Energy > Oil & Gas > Upstream (1.00)
- Banking & Finance > Trading (1.00)
- Government > Regional Government > North America Government > United States Government (0.69)
- Europe (1.00)
- Africa (1.00)
- South America (0.67)
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- Personal > Honors (1.00)
- Overview > Innovation (1.00)
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- Transportation > Infrastructure & Services (1.00)
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Abstract A framework for evaluation of carbon offsetting strategies is presented depicting the journey of a large independent upstream exploration and production company towards making a first investment in the space. The framework for evaluation included three pillars: foundational and macro research of voluntary carbon markets, corporate intelligence, and project evaluation from a quality and strategic fit approach. Data examined included third party research data, public information from registries and other actors in the voluntary carbon market, and publicly available corporate publications. The information was also put into context against future decarbonization and company values to ultimately arrive at a strategy which was successfully deployed in a first-of-a-kind long-term carbon offset agreement with the Government of Guyana. Key observations made during the process were: 1) nature-based carbon offset projects provide a useful and necessary tool for global decarbonization towards a net-zero 2050 by providing private capital to developing nations, filling a gap from public pledges, while protecting important carbon sinks and ecosystems, 2) for independent E&Ps a strategy to secure offsets from high-quality, geographically-relevant, and large-scale projects appears to be optimal, and 3) demand for credits within the voluntary carbon market are likely to grow and reach around 1 billion tonnes per year by 2030 and potentially greater than 5 billion tonnes per year by 2050, outstripping the supply of high-quality credits. The voluntary carbon market is in its infancy. Excluding European majors, oil and gas companies are in the early stages of participating in the market with limited information published on the topic. This paper will present one approach for entering the market.
- South America > Guyana (0.96)
- Europe > United Kingdom (0.68)
- North America > United States > New York (0.29)
- North America > United States > Texas (0.28)
- Government (1.00)
- Energy > Oil & Gas > Upstream (1.00)
- Banking & Finance > Trading (1.00)