Locus CEO on Managing Nuclear Information in the Cloud

The burden of data management for the nuclear power industry is second only to that of managing nuclear material itself.

CR Magazine – Radioactive Data Tsunami

Locus Technologies To Sponsor EPRI and NEI Nuclear Industry Workshops

Locus To Present Papers at Two Nuclear Industry Environmental Workshops

SAN FRANCISCO, Calif., June 29, 2010 — Locus Technologies (Locus), the industry leader in web-based environmental software, announced today that it is providing Gold Sponsorship for the EPRI Groundwater Protection Workshop organized in collaboration with Nuclear Energy Institute (NEI) in San Jose, California on 30 June and 1 July, 2010. In addition, Locus is sponsoring workshops for the Radioactive Effluent Technical Specifications (RETS) and Radiological Environmental Monitoring Programs (REMP) at commercial nuclear power plants also being held in San Jose preceding the EPRI workshop. The RETS/REMP Workshop is a forum to exchange practical experiences and issues related to effluent and environmental monitoring programs at nuclear facilities. Locus professional staff will present three technical papers on information management technologies at the two workshops.

The EPRI workshop focuses on the innovative technologies for groundwater protection, monitoring, and remediation. The NEI RETS/REMP workshop focuses on monitoring radioactivity in effluent releases from nuclear power plants, and on assessing the environmental consequences of such releases.

Experience at decommissioning and operating nuclear power plants has shown that leaks and spills from systems and components and work practices have the potential to impact on-site soils, groundwater, and, potentially, air. Locus’ web-based software EIM is specifically designed to manage data from these types of events. The Locus software provides an unmatched level of data security and enforces an extensive set of QA/QC requirements on all uploaded data. The system helps reporting entities enforce data quality in accordance with the NRC or other standards such as NQA-1, and ANSI/ISO/ASQ Q 9001:2000, and validate incoming analytical data.

Locus has been collaborating with EPRI and the U.S. and international nuclear power industry over the last several years developing and implementing advanced information management systems at operating nuclear power plant sites. Locus is the market leader in organizing groundwater information and complex data workflow processes that meet or exceed stringent nuclear industry QA/QC standards.

“We are very pleased to offer sponsorship of these important nuclear industry workshops. With the increased interest in nuclear power for commercial use and the decommissioning of older generation power plants and weapons complexes, we feel that the market needs proven, off-the-shelf tool to manage radioactive data, which are subject to a different set of regulatory requirements from those typically seen at Superfund sites. We are very excited to introduce new and expanded functionality of EIM to EPRI and NEI Workshop participants” said Neno Duplan, President and CEO of Locus.

Locus and Overhoff to Offer Real Time Tritium Monitoring and Compliance Software at Nuclear Facilities

Cloud Computing Solution for Tritium Transparency at Nuclear Power Plants

SAN FRANCISCO, Calif., March 15, 2010 — Locus Technologies (Locus), the industry leader in web-based environmental compliance and information management software, and Overhoff Technology Corporation, the world’s leader in the design and manufacture of Tritium monitors and radiation monitoring systems, have partnered to offer a complete Tritium monitoring solution for the nuclear industry using Overhoff’s Tritium instrumentation and Locus’ award winning Cloud Computing software.

As the new Administration advocates expansion of America’s nuclear power industry, pushing for billions of dollars in federal incentives and announcing plans to build the first nuclear plant in decades, new issues have arisen regarding leaking and possibly dangerous levels of Tritium, a radioactive byproduct of the nuclear process. The U.S. Nuclear Regulatory Commission (NRC), which oversees the inspection and licensing of nuclear facilities, says roughly 30 of the nation’s 104 reactor units have experienced Tritium leaks. According to the NRC, none of the leaks have impacted public health or safety but, the unmonitored and unexpected releases have raised concerns within the industry and among watchdog groups nationwide.

Similar concerns regarding leaks at several plants in the mid 2000’s prompted the members of the Nuclear Energy Institute (NEI) to put forth a Ground Water Protection Initiative (NEI-07-07) in 2007. This Initiative identifies actions that utilities can take to improve their management and response to instances where the inadvertent release of radioactive substances may result in low but detectible levels of plant-related materials in subsurface soils and water, even when these are well below the NRC limits pertaining to the protection of public health and safety. One of the key actions that adoptees of the Initiative are expected to undertake is the establishment of an on-site groundwater monitoring program involving on site monitoring or regular sampling and analyses to ensure the timely detection of inadvertent radiological releases. The Tritium groundwater challenge was addressed in 2009 when Locus introduced the nuclear module for its flagship product EIM that is already deployed at several nuclear power plants.

According to the NRC, additional requirements pertaining to the monitoring of air releases of Tritium and Carbon-14 are likely to be promulgated in the future. To meet these requirements, new monitoring instruments and data management tools will have to be installed since many facilities are still using over 30-year old stack monitors and few, if any currently have H-3 or C-14 stack monitors in place.

For those nuclear facilities wanting to fulfill their responsibility under existing (e.g., 10CFR-51 and 10CFR-52) as well as likely forthcoming regulations, the Locus/TA Overhoff solution provides a complete system for Tritium monitoring. TA-Overhoff has been designing and manufacturing nuclear air and stack monitors since 1946. The company recently announced the new, state-of-the-art CAM-TC and CAM-TCI series monitors. The model CAM-TC is a full-service, state-of the-art, stack monitor that reads, analyzes and records Beta-Gamma Particulates, Iodine, Noble Gases, C-14, Tritium and optionally, Alpha Particulates. The data captured by the CAM-TC monitors is immediately passed to Locus’ EIM where it is managed and integrated with groundwater and other monitoring data. Within EIM, graphs can be plotted, reports generated, maps can be produced and statistical analyses performed.

“Nearly all of the activities associated with water and air protection at nuclear power plants, including the assessment of site characteristics, the ongoing monitoring of site conditions, and decommissioning of old plants or permitting of new plants, involve the collection and/or analysis of data. The tools and systems used to manage and store this information must satisfy strict NRC security and QA/QC requirements such as NQA-1 or ISO 9001:2008 to ensure that only the appropriate people can access the data, and that the quality of the data adheres to the highest NRC standards. It is also critical that these applications allow engineers and scientists to do their work in a cost-effective way, allowing them to focus less of their time on finding the data they need and formatting various outputs, and more on the evaluation and analysis of these data. In addition data must be transparent and verifiable to all stakeholders. All of these requirements are instantly met using Locus/Overhoff monitoring and data management solution. We are very pleased that Overhoff Technology has decided to join forces with Locus. The company’s outstanding reputation for having monitors that excel in performance will enhance Locus’ offering in the important nuclear monitoring market,” said Dr. Neno Duplan, President and CEO of Locus.

“We are very pleased to join with Locus to bring an integrated and elegant solution to address the nuclear industry’s Tritium monitoring needs. Our experience in producing hundreds of different types of monitors for different users, coupled with Locus’ market leader position in Cloud Computing-based environmental data management, will benefit our joint clients,” said Dr. Robert I. Goldstein, President and CEO of Overhoff.

 

ABOUT OVERHOFF
Founded in 1972, Overhoff Technology Corporation specializes in the design and manufacture of Tritium monitors. With the world’s largest selection of Tritium monitors, Overhoff can offer monitors ranging from simple hand held units to complex integrated digital radiation monitoring systems.

For more information, visit www.overhoff.com or email sales@overhoff.com.

Nuclear Industry Revival

This week, President Obama announced $8.3 billion in federal loan guarantees to build two new reactors at a nuclear power plant in Georgia, signaling the first wave of new nuclear plants in the U.S. in more than three decades. “This is only the beginning,” he said. “My budget proposes tripling the loan guarantees we provide to help finance safe, clean nuclear facilities – and we’ll continue to provide financing for clean-energy projects here in Maryland and across America.”

This is great news for the environment and for Locus’ nuclear module of EIM

Locus Introduces Environmental Data Management System for Nuclear Facilities

Market Leader Expands its Offering to Meet Demand From Nuclear Industry

SAN FRANCISCO, Calif., September 14, 2009 — Locus Technologies (Locus), the industry leader in web-based environmental software, announced today that it has expanded its flagship product EIM to include a module for nuclear facilities information management and reporting.

Nearly all of the activities associated with water and soil protection at nuclear power plants and other nuclear facilities, including the assessment of site characteristics, the ongoing monitoring of site conditions, and the remediation of adverse environmental impacts, involve the collection and/or analysis of data. The tools and systems used to manage and store this information must satisfy strict security and QA/QC requirements to ensure that only the appropriate people can access the data, and that the quality of the data adheres to the highest Nuclear Regulatory Commission (NRC) standards. It is also critical that these applications allow engineers and scientists to do their work in a cost-effective way, allowing them to focus less of their time on finding the data they need and formatting various outputs, and more on the evaluation and analysis of these data.

The new EIM module was specifically designed for managing subsurface and other data at nuclear facilities, including commercial reactor sites, research labs, and nuclear materials production and storage complexes. The system provides an unmatched level of data security and enforces an extensive set of QC/QC requirements on all uploaded data. At the same time it provides a variety of easy-to-use options to upload, validate, flag, examine, map, plot, download, and report data. The system has the capability to store such radioanalytical parameters as uncertainty, uncertainty type (Standard, Combined Standard, and Expanded), and required method uncertainty. It also has the capability to convert weight to activity concentrations, calculate sums of ratios, and evaluate action limits that pertain to either single or groups of parameters. The system helps reporting entities enforce data quality in accordance with the NRC or other standards such as NQA-1, and ANSI/ISO/ASQ Q 9001:2000, and validate incoming analytical data.

“Locus has been present at Department of Energy (DOE) facilities such as Stanford Linear Accelerator Center (SLAC) that deal with radioactive data for some time. With the highly expected return of the nuclear industry for commercial use and decommissioning of older generation power plants and weapons complexes, we felt that the market needs an off-the-shelf tool to manage radioactive data that are subject to a different set of regulatory guidance documents from those managed under regular chemistry data under the US EPA and other guidance documents. The new radioanalytical functionality introduced through this release provides any nuclear facility that has a need for data management and reporting—and almost all have—to meet these needs using Locus’ EIM,” said Neno Duplan, President and CEO of Locus. Locus worked with the Electric Power Research Institute (EPRI) in developing the needed functionality. As part of a demonstration of the system’s flexibility and expandability to EPRI earlier this year, various statistical (sign, fraction limit, and normal distribution tests) and graphical (regression-correlation, regression with error bars, box, and rank trend plots) outputs were added to EIM’s already impressive list of analytical tools. “We are very excited to introduce this tool at the upcoming EPRI Groundwater Protection Workshop (in collaboration with NEI) to be held in Charleston, SC from September 15 to 16, 2009,” added Dr. Duplan.

EIM, Locus’ Environmental Information Management tool, is the world’s largest commercial on-demand environmental data management system. EIM completely replaces existing stand-alone data systems and reporting tools to provide a comprehensive integrated solution to one of the environmental industries’ most vexing problems – the centralization and management of complex data pertaining to contaminated water, groundwater, soil, and/or air. EIM provides for the complete electronic processing of analytical data, beginning with the upload of electronic data deliverables from labs, and terminating in state-mandated regulatory exports and reporting. EIM is deployed through Software as a Service (SaaS) model which eliminates most of the difficulties associated with the adoption of a new technology, while offering the opportunity for more rapid customization to meet the ever changing needs of its user population. The system currently stores over 120 million records for over 35,000 sites worldwide.

Digital Signal Processing Of Data From Borehole Creep Closure

ABSTRACT: Digital signal processing, a technique commonly used in the fields of electrical engineering and communication technology, has been successfully used to analyze creep closure data obtained from a 0.91 m diameter by 5.13 m deep borehole in bedded salt. By filtering the “noise” component of the closure data from a test borehole, important data trends were made more evident and average creep closure rates were able to be calculated. This process provided accurate estimates of closure rates that will be used in the design of lined boreholes in which heat-generating transuranic nuclear wastes will be emplaced at the Waste Isolation Pilot Plant.

Authors: S. Chakrabarti (International Technology Corporation) | N. Duplancic (International Technology Corporation) | W.C. Patrick (International Technology Corporation)