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Radiation Shielding Design & Calculation Service (Physics Report) in Sudan
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Radiation Shielding Design & Calculation Service (Physics Report) High-standard technical execution following OEM protocols and local regulatory frameworks.

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Advanced Monte Carlo Simulations

Leveraging state-of-the-art Monte Carlo codes (e.g., MCNP, Geant4) for highly accurate neutron and gamma shielding calculations, accounting for complex geometries and material compositions relevant to Sudan's nuclear applications and research facilities.

Site-Specific Dose Assessment

Conducting detailed radiation transport analyses tailored to the specific environmental conditions and potential exposure scenarios in Sudan, ensuring optimal shielding design for personnel and public safety in accordance with international standards.

Material Optimization & Cost-Effectiveness

Expertly selecting and optimizing shielding materials, considering factors like attenuation properties, availability, and cost within the Sudanese context, to deliver robust and economically viable radiation protection solutions.

What Is Radiation Shielding Design & Calculation Service (Physics Report) In Sudan?

Radiation shielding design and calculation services in Sudan, within the scope of a physics report, refer to the specialized engineering and scientific discipline focused on determining the optimal materials and thicknesses required to attenuate ionizing radiation to acceptable levels. This process involves detailed physics-based calculations, simulations, and analysis to ensure the protection of personnel, the public, and the environment from harmful radiation exposure. The service aims to provide robust, compliant, and cost-effective shielding solutions for various applications where radioactive sources or X-ray generating equipment are utilized.

Who Needs This Service?	Typical Use Cases
Hospitals and diagnostic imaging centers utilizing X-ray machines, CT scanners, and gamma cameras.	Radiotherapy departments in cancer treatment centers (linear accelerators, brachytherapy units).	Nuclear medicine facilities for diagnostic and therapeutic procedures.	Industrial radiography facilities for non-destructive testing.	Research laboratories using radioactive isotopes or particle accelerators.	Manufacturing facilities involved in the production or handling of radioactive materials.	Emergency response organizations dealing with radiological incidents.	Nuclear power plants and related facilities (though less common in Sudan currently).	Medical device manufacturers incorporating radioactive sources.	Security screening checkpoints (e.g., cargo scanners).
Design of new medical imaging suites and radiotherapy bunkers.	Modification or upgrade of existing radiation facilities to meet new regulations or enhance safety.	Assessment of radiation leakage from equipment.	Shielding design for mobile radiation units.	Safe handling and storage of radioactive sources.	Development of protocols for radiation safety during industrial applications.	Environmental impact assessments for facilities handling radioactive materials.	Planning for temporary shielded enclosures during specific procedures or maintenance.

Key Components of Radiation Shielding Design & Calculation Service:

Radiation Source Characterization: Identifying the type, energy spectrum, intensity, and geometric distribution of the radiation source(s).
Exposure Assessment: Quantifying potential radiation doses to individuals and populations under normal operation and accident scenarios.
Shielding Material Selection: Evaluating and choosing appropriate materials (e.g., concrete, lead, water, polyethylene) based on their attenuation properties for specific radiation types (photons, neutrons, charged particles).
Shielding Thickness Calculation: Employing physics models and/or computational tools to determine the minimum required thickness of selected materials to achieve dose rate limits.
Geometric Configuration Analysis: Optimizing the shape and arrangement of shielding elements to maximize effectiveness and minimize volume/weight where applicable.
Dose Rate Mapping: Predicting radiation levels throughout the shielded facility and surrounding areas.
Compliance Verification: Ensuring designs meet national and international radiation protection standards and regulatory requirements (e.g., those set by the Sudanese National Radiation Protection Authority).
Documentation and Reporting: Producing comprehensive physics reports detailing methodologies, assumptions, calculations, results, and recommendations.

Who Needs Radiation Shielding Design & Calculation Service (Physics Report) In Sudan?

Radiation shielding design and calculation services are crucial for ensuring the safety of personnel and the public from ionizing radiation. In Sudan, several sectors and departments would benefit significantly from these specialized physics-based services. This report outlines the primary target customers and their associated departments who require robust radiation shielding solutions.

Target Customer Group	Specific Departments/Applications	Key Radiation Sources/Activities
Hospitals & Diagnostic Centers	Radiology Departments, Oncology Centers, Nuclear Medicine Departments, Radiation Therapy Units	X-ray machines, CT scanners, MRI (magnetic fields require shielding considerations), Linear Accelerators (LINACs), Gamma cameras, PET scanners, Radioactive isotopes for diagnosis and therapy
Industrial Facilities	Quality Control/Non-Destructive Testing (NDT), Material Processing, Sterilization Facilities, Oil & Gas Exploration	X-ray and Gamma radiography equipment, Industrial gauges, Sealed radioactive sources for gauging and thickness measurement, Irradiators for sterilization
Universities & Research Institutes	Physics Departments, Engineering Faculties, Medical Research Labs, Materials Science Labs	Research reactors (if applicable), Particle accelerators, Neutron generators, Sealed and unsealed radioactive sources for experiments, Electron microscopes
Government & Regulatory Agencies	National Radiation Protection Authority (NRPA) or equivalent, Ministry of Health, Ministry of Environment, Ministry of Energy	Licensing and inspection of radiation facilities, Emergency preparedness and response planning, Environmental monitoring
Potential Nuclear Facilities	Nuclear Power Plants (construction/operation), Fuel cycle facilities, Research reactors	Nuclear reactors, Spent fuel storage, Radioactive waste management facilities

Target Customers & Departments in Sudan Requiring Radiation Shielding Design & Calculation Services

{"title":"Healthcare Sector","description":"Hospitals and diagnostic imaging centers are primary users of radiation-generating equipment for medical purposes."}
{"title":"Industrial Sector","description":"Various industries employ radioactive sources for applications like non-destructive testing, sterilization, and process control."}
{"title":"Research & Academic Institutions","description":"Universities and research facilities utilize radiation sources for scientific experiments and educational purposes."}
{"title":"Nuclear Power & Energy Sector (Potential/Future)","description":"Although currently nascent, any future development in nuclear energy would necessitate extensive shielding expertise."}
{"title":"Regulatory & Government Bodies","description":"Agencies responsible for radiation safety and licensing require independent verification and expertise."}

Radiation Shielding Design & Calculation Service (Physics Report) Process In Sudan

This document outlines the typical workflow for Radiation Shielding Design & Calculation Services (Physics Report) provided in Sudan, from the initial client inquiry to the final report delivery. The process emphasizes adherence to national regulations and international best practices for radiation safety.

Stage	Key Activities	Responsible Party	Deliverables	Regulatory Considerations (Sudan)
Inquiry & Initial Consultation	Client contacts the service provider (physics consultancy or specialized company). Discussion of project scope, type of radiation source (medical, industrial, research), intended use, location, and preliminary shielding requirements.	Client, Service Provider (Physics Consultant)	Understanding of project scope, preliminary scope of work document.	Initial awareness of the need to comply with Sudanese nuclear and radiation safety regulations.
Information Gathering & Site Assessment	Detailed collection of all relevant information: radiation source specifications (type, energy, activity/yield), occupancy factors, desired dose limits for personnel and public, room dimensions and materials, existing structures, site layout. Site visit may be conducted to verify details and assess site-specific conditions.	Service Provider (Physics Consultant), Client	Comprehensive data package, site assessment report (if applicable).	Understanding of Sudanese radiation protection laws and licensing requirements (e.g., National Centre for Radiation Research and Technology - NCRRT).
Shielding Design & Calculation	Utilizing physics principles and specialized software (e.g., MCNP, GEANT4, or proprietary tools) to model the radiation source and its interaction with proposed shielding materials (concrete, lead, etc.). Calculations are performed to determine the optimal thickness and configuration of shielding required to meet specified dose limits.	Service Provider (Physics Consultant)	Calculated shielding thicknesses, material specifications, preliminary shielding diagrams.	Adherence to dose limits set by Sudanese regulatory bodies. Reference to international standards like ICRP where national guidance is less specific.
Report Preparation	Compilation of a detailed Physics Report. This includes an introduction, methodology, source description, shielding calculations, results, dose rate predictions at occupied areas, safety justifications, and recommendations. The report is formatted according to recognized standards and client requirements.	Service Provider (Physics Consultant)	Draft Physics Report.	Ensuring all calculations and recommendations align with Sudanese safety regulations and licensing expectations.
Review & Approval	The draft report is submitted to the client for review. The client may consult with their internal safety officer or external experts. Revisions are made based on feedback. The final report is then formally approved by the client.	Client, Service Provider (Physics Consultant)	Revised Physics Report, Final Approved Physics Report.	Client's internal approval process, potentially including preliminary submission to NCRRT for feedback.
Implementation Guidance (Optional)	Upon client request, the service provider may offer guidance during the construction or installation of the shielding. This can involve site supervision, verification of materials used, and addressing any unforeseen challenges during the implementation phase.	Service Provider (Physics Consultant)	Site visit reports, technical clarifications, on-site support documentation.	Ensuring construction adheres to the approved design and relevant Sudanese building and safety codes.
Final Delivery & Archiving	The final, approved Physics Report (and any associated documentation) is delivered to the client in the agreed-upon format. The service provider archives a copy of the report and supporting data for future reference and potential regulatory audits.	Service Provider (Physics Consultant), Client	Final Physics Report, digital and/or hard copies. Archived project files.	Compliance with record-keeping requirements mandated by Sudanese nuclear and radiation safety authorities.

Radiation Shielding Design & Calculation Service (Physics Report) Process in Sudan

Inquiry & Initial Consultation
Information Gathering & Site Assessment
Shielding Design & Calculation
Report Preparation
Review & Approval
Implementation Guidance (Optional)
Final Delivery & Archiving

Radiation Shielding Design & Calculation Service (Physics Report) Cost In Sudan

The cost of Radiation Shielding Design & Calculation Services, often presented as a Physics Report, in Sudan is influenced by several critical factors. These factors determine the complexity of the project, the expertise required, and the time investment needed from the service provider. Understanding these elements is crucial for clients seeking accurate cost estimations. Generally, the service involves detailed physics calculations, material selection, and the creation of comprehensive reports to ensure the safety of personnel and the public from ionizing radiation in various applications, such as medical facilities, industrial radiography, nuclear research, and research laboratories.

Key Pricing Factors in Sudan:

Project Scope & Complexity: This is the most significant driver of cost. A simple shielding calculation for a single X-ray unit will be considerably less expensive than designing shielding for a high-energy linear accelerator, a research reactor, or a large-scale industrial radiography facility. Factors like the type and energy of radiation, the intended occupancy of surrounding areas, and the desired attenuation levels all contribute to complexity.

Service Provider's Expertise & Reputation: Highly experienced and reputable physics consultants or firms with a proven track record in radiation shielding design command higher fees. Their expertise translates to more accurate, efficient, and compliant designs, reducing the risk of costly rework or safety breaches.

Data Availability & Site Assessment: The ease of access to necessary data (e.g., facility layouts, equipment specifications, material properties) impacts cost. If extensive site visits, measurements, or specialized data acquisition are required, this will increase the overall expense.

Regulatory Requirements & Standards: Adherence to specific national (Sudanese) and international radiation safety standards and regulations is paramount. The complexity of ensuring compliance and preparing documentation for regulatory approval can influence the service cost.

Software & Tools: The sophisticated software used for radiation transport and shielding calculations (e.g., MCNP, GEANT4, ANISN) and the licensing costs associated with these tools are factored into pricing. Advanced simulation capabilities often require specialized hardware and expertise.

Deliverables: The extent and format of the final Physics Report are also a factor. A basic report might include essential calculations, while a comprehensive report could involve detailed 3D modeling, multiple design iterations, and extensive documentation for regulatory submissions.

Urgency of the Project: Rush jobs or projects with tight deadlines may incur premium charges due to the need for expedited services and potentially overtime work from the consultants.

Cost Ranges in Sudanese Pounds (SDG):

It's important to note that these are indicative ranges and can vary significantly. The Sudanese economy and fluctuating exchange rates can impact pricing. For precise quotes, direct consultation with service providers is essential.

For relatively simple shielding designs (e.g., a basic medical imaging room), the cost might range from 150,000 SDG to 500,000 SDG. This would typically involve standard calculations for common radiation sources and modest attenuation requirements.

For moderately complex projects (e.g., a standard radiotherapy treatment room, an industrial radiography setup), the cost could range from 500,000 SDG to 1,500,000 SDG. These projects involve more detailed simulations and consideration of various exposure scenarios.

Highly complex and specialized shielding designs (e.g., research reactors, high-energy accelerators, large-scale nuclear facilities, or facilities with stringent regulatory requirements) can range from 1,500,000 SDG to upwards of 5,000,000 SDG or more. These projects demand extensive simulation, multi-disciplinary expertise, and rigorous validation processes.

Note: These figures represent an estimate for the design and calculation service itself, not the cost of the shielding materials or construction, which would be separate expenses.

Project Complexity Level	Estimated Cost Range (SDG)
Simple (e.g., basic medical imaging room)	150,000 - 500,000
Moderate (e.g., standard radiotherapy room, industrial radiography)	500,000 - 1,500,000
High/Specialized (e.g., research reactor, accelerator, nuclear facility)	1,500,000 - 5,000,000+

Factors Influencing Radiation Shielding Design & Calculation Costs in Sudan

Project Scope and Complexity (Type/Energy of Radiation, Occupancy, Attenuation Levels)
Service Provider's Expertise, Reputation, and Experience
Availability of Site-Specific Data and Need for Site Assessments/Measurements
Adherence to Sudanese and International Radiation Safety Regulations and Standards
Sophistication of Simulation Software and Tools Utilized
Scope and Detail of the Final Physics Report and Deliverables
Project Urgency and Required Turnaround Time

Affordable Radiation Shielding Design & Calculation Service (Physics Report) Options

We offer specialized services for affordable radiation shielding design and calculation, catering to various needs from research institutions to industrial applications. Our expertise in physics ensures accurate and efficient shielding solutions that meet your specific requirements while prioritizing cost-effectiveness. This document outlines our service offerings, value bundles, and strategies for maximizing your investment.

Strategy	Description	Benefit
Early Engagement	Involving our team during the initial project planning phase allows for proactive identification of shielding needs and integration into the overall design, preventing costly retrofits.	Minimizes redesign and rework, leading to significant cost savings.
Material Optimization	Our expertise allows us to identify the most effective shielding materials for your specific radiation type and energy, balancing attenuation properties with cost and availability. This may involve exploring combinations of materials.	Reduces material expenditure and potentially simplifies installation.
Standardization & Modular Design	Where feasible, we advocate for standardized shielding components and modular designs, allowing for easier manufacturing, installation, and future modifications.	Lowers fabrication and assembly costs, increases flexibility.
Simulation-Driven Design	Extensive use of advanced physics simulations minimizes the need for costly physical prototyping and testing by accurately predicting shielding performance.	Reduces R&D expenses and time-to-completion.
Phased Approach	For larger projects, we can break down the shielding design and implementation into manageable phases, allowing for budget allocation and risk management over time.	Improves cash flow and allows for adjustments based on early phase outcomes.
Regulatory Compliance Focus	Designing for compliance from the outset avoids penalties and rework associated with non-compliance with radiation safety regulations.	Ensures long-term operational safety and avoids legal/financial repercussions.

Service Options & Value Bundles

{"title":"Core Shielding Design & Calculation","description":"This foundational service includes detailed analysis of radiation sources, target areas, regulatory requirements, and material properties to generate optimal shielding geometries and material selections. Utilizing advanced simulation software (e.g., MCNP, GEANT4), we provide comprehensive reports with dose rate calculations, attenuation curves, and safety factor assessments."}
{"title":"Value Bundle: 'Essential Shielding Package'","description":"Combines Core Shielding Design & Calculation with a preliminary material cost estimation and a basic implementation guideline document. Ideal for projects with well-defined scopes and standard shielding requirements."}
{"title":"Value Bundle: 'Comprehensive Compliance Package'","description":"Includes the 'Essential Shielding Package' plus a review of relevant national and international radiation safety standards, a detailed bill of materials, and a risk assessment report for the shielding implementation. Suited for projects with stringent regulatory oversight or complex operational environments."}
{"title":"Value Bundle: 'Advanced Research & Development Shielding'","description":"Tailored for experimental setups and novel radiation sources. This package offers in-depth analysis of unconventional geometries, high-energy particle interactions, and optimization for specific experimental sensitivities. Includes sensitivity analysis and uncertainty quantification."}
{"title":"Add-on Service: Material Sourcing & Procurement Consultation","description":"Leveraging our industry network, we can provide guidance on sourcing cost-effective, high-quality shielding materials, helping you navigate procurement challenges and identify the best value for your budget."}
{"title":"Add-on Service: On-site Consultation & Verification","description":"For critical projects, we offer on-site visits to review installation progress, perform dose rate measurements, and verify shielding effectiveness against design specifications."}

Verified Providers In Sudan

In the challenging healthcare landscape of Sudan, identifying and accessing verified providers is paramount. Franance Health stands out as a leading organization committed to ensuring access to quality and trustworthy medical services. This document outlines the credentials of Franance Health and explains why their rigorous vetting process makes them the best choice for individuals and organizations seeking reliable healthcare partners in Sudan.

Credential/Feature	Description	Benefit for Users
Verified Medical Licenses	All listed providers' medical licenses are confirmed with the Sudanese Ministry of Health and relevant professional bodies.	Ensures providers are legally qualified and authorized to practice.
Experience and Specialization Validation	Franance Health confirms the reported experience and specializations of doctors and healthcare facilities through documentation and reference checks.	Helps patients find the most appropriate and skilled medical professionals for their specific conditions.
Background Checks	Includes checks for any disciplinary actions or malpractice history within the healthcare sector.	Protects patients from potentially unsafe or unethical practitioners.
Facility Audits (for clinics/hospitals)	Regular assessments of partner facilities to ensure adherence to safety, hygiene, and quality of care standards.	Guarantees a safe and well-equipped environment for treatment.
Patient Feedback Integration	Systematic collection and analysis of patient reviews and feedback on providers and services.	Provides real-world insights into provider performance and patient satisfaction, enabling informed choices.
Commitment to Ethical Practice	Adherence to a strict code of conduct and ethical guidelines for all affiliated healthcare professionals.	Promotes trust and integrity in all healthcare interactions facilitated by Franance Health.

Franance Health Credentials and Why They Represent the Best Choice

Rigorous Provider Vetting: Franance Health employs a multi-stage verification process for all healthcare providers on its platform. This includes thorough background checks, verification of medical licenses and certifications, and assessment of clinical experience and specialization.
Quality Assurance Protocols: Beyond initial vetting, Franance Health maintains ongoing quality assurance. This involves patient feedback mechanisms, regular audits of partner facilities, and continuous professional development support for their network of doctors and clinics.
Ethical Standards and Compliance: Franance Health is committed to upholding the highest ethical standards in healthcare delivery. They ensure all partner providers adhere to Sudanese medical regulations and international best practices.
Comprehensive Service Network: Franance Health has built an extensive network of healthcare providers across Sudan, covering a wide range of specialties and geographical locations. This ensures that a diverse set of needs can be met.
Patient-Centric Approach: The organization prioritizes patient well-being and satisfaction. Their verification process is designed to identify providers who demonstrate empathy, effective communication, and a commitment to patient-centered care.
Transparency and Accountability: Franance Health promotes transparency in healthcare. Patients have access to verified information about their healthcare providers, and the organization maintains accountability for the services offered through its platform.
Expertise in Navigating Local Challenges: Franance Health possesses deep understanding of the unique healthcare challenges and opportunities within Sudan. This allows them to effectively bridge gaps and connect individuals with suitable and reliable medical support.
Technological Integration for Accessibility: Leveraging technology, Franance Health aims to make healthcare access more convenient and efficient for individuals in Sudan, further solidifying their role as a leading facilitator of quality care.

Scope Of Work For Radiation Shielding Design & Calculation Service (Physics Report)

This Scope of Work (SOW) outlines the services to be provided for the Radiation Shielding Design & Calculation Service, culminating in a comprehensive Physics Report. The objective is to determine the optimal shielding materials and configurations required to attenuate ionizing radiation to acceptable dose limits for various applications. This includes, but is not limited to, medical facilities (radiotherapy, nuclear medicine), industrial radiography, research laboratories, and nuclear power plants. The service will encompass theoretical calculations, simulations, and the generation of a detailed physics report detailing the shielding design, justifications, and compliance with relevant standards and regulations.

Activity/Service Area	Standard Specification/Reference	Key Considerations
Radiation Protection Principles	ICRP Publications (e.g., 103, 118, 121)	Dose limitation, ALARA principle, optimization of shielding.
Shielding Material Properties	ASTM Standards, Material Safety Data Sheets (MSDS)	Density, atomic number (Z), attenuation coefficients, availability, cost, structural integrity.
Radiation Transport Calculations	MCNP, GEANT4, FLUKA, ANISN, DOT	Neutron and photon transport physics, cross-section libraries, variance reduction techniques.
Dose Rate Calculations	Point kernel integration, Monte Carlo simulations	Conversion factors (fluence to dose, activity to dose), buildup factors, spatial distribution of dose.
Regulatory Compliance	National/International Regulations (e.g., NCRP, IAEA SSR-2, national nuclear safety regulations)	Specific dose limits for workers, public, and patients; licensing requirements.
Facility Design Integration	Architectural drawings, facility layouts	Integration of shielding with building structure, ventilation, and access control.
Quality Assurance/Quality Control (QA/QC)	ISO 9001, specific project QA/QC plans	Verification of calculations, validation of simulations, documentation control.

Technical Deliverables

Radiation Source Characterization Report: Detailed description of the radiation source(s) including type, energy spectrum, activity/fluence rate, and geometry.
Shielding Design Report: Comprehensive documentation of the proposed shielding design, including material selection, geometry, thickness calculations, and placement.
Physics Report: The primary deliverable, encompassing all calculations, simulations, assumptions, results, and recommendations. This report will include:
- Detailed methodology and theoretical background.
- Input parameters and boundary conditions for calculations/simulations.
- Computational methods and software used.
- Dose rate calculations at relevant locations (e.g., occupied areas, public access).
- Shielding effectiveness analysis.
- Sensitivity analysis of critical parameters.
- Uncertainty analysis of the results.
- Comparison with regulatory limits and standards.
- Recommendations for shielding optimization and implementation.
- Maps or diagrams illustrating the shielding layout.
- Material specifications and quality assurance considerations.
Supporting Calculation Files: All raw data, intermediate results, and simulation input/output files.
Presentation of Results (Optional): A summary presentation of the findings and recommendations.

Service Level Agreement For Radiation Shielding Design & Calculation Service (Physics Report)

This Service Level Agreement (SLA) outlines the response times and uptime guarantees for the Radiation Shielding Design & Calculation Service (Physics Report). This service provides expert physics-based analysis and design recommendations for radiation shielding requirements across various applications.

Service Metric	Definition	Target	Measurement Method
Initial Response Time (Inquiry/Request)	Time from client submission of an inquiry or request for service until the first substantive response from the service provider (e.g., acknowledgment, request for clarification, or initiation of service).	4 business hours	Timestamp of client submission vs. timestamp of first provider response (logged via email/ticket system).
Status Update Frequency (Active Projects)	Regular provision of progress updates on ongoing shielding design and calculation projects.	Weekly (or as agreed upon project milestones)	Chronological record of status update communications (email, project management tool).
Report Delivery Time (Final Design)	Time from completion of all required calculations and design iterations until the delivery of the final physics report to the client.	10 business days (for standard complexity projects, may vary for highly complex or novel designs and will be specified in project proposal)	Timestamp of completion of all internal review/approval vs. timestamp of final report delivery.
Service Uptime	Percentage of time the service's communication channels (email, dedicated portal if applicable) and expert availability for consultation are accessible and responsive.	99.5% during standard business hours (Monday-Friday, 9 AM - 5 PM, client's local time)	Monitoring of communication channel availability and scheduled expert availability. Exclusions: Scheduled maintenance (notified 48 hours in advance), force majeure events.
Emergency Consultation Response Time	Time from an urgent client request for consultation on an immediate radiation shielding issue until the first substantive response.	2 business hours	Timestamp of urgent request vs. timestamp of first provider response (via pre-defined emergency contact method).

Service Objectives

To deliver accurate and compliant radiation shielding design reports based on established physics principles and regulatory guidelines.
To provide timely responses to client inquiries and requests for service.
To ensure high availability of the service infrastructure and expert personnel.

In-Depth Guidance

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Phase 02: Execution

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Radiation Shielding Design & Calculation Service (Physics Report) in Sudan Engineering Excellence & Technical Support