Site development and project management involve a series of intricate processes that ensure the orderly development of land, mitigate environmental impacts, and promote public safety. These processes include site approvals, land surveys, geotechnical investigations, and geophysical surveys, all of which are crucial in understanding the environment and conditions of the proposed development area.Site approvals are essential to ensure that development projects align with their surroundings, including neighboring properties, traffic circulation, and infrastructure such as sewers. This process involves analyzing the environmental and socioeconomic impacts of the proposed development and requires local political approval. The planning process reflects the desires and interests of the community and is governed by local and state laws.
Geophysical surveys are used to identify geological features and buried objects, which can be crucial for site investigation and characterization. These surveys employ various methods such as seismic refraction and reflection, crosshole testing, downhole testing, spectral analysis of surface waves, ground penetrating radar, electromagnetic wave measurement, and induced polarization. They are used for a variety of reasons, from archaeological purposes to geological and mining investigations.
This phase includes construction control, which involves making informed decisions about the materials that will work best for the project based on the characteristics of the soil.A comprehensive site investigation helps lower the risk of unexpected ground conditions during development, time delays, and significant cost implications. It also reduces potential risks to the health and safety of site workers and the general public, as well as environmental risks to human health and vegetation.In addition to site investigation, monitoring services are also provided in various sectors including oil and gas, water, subsea cables, ports, and harbours. These services involve the collation of desk study information, appraisal of the data, assessment of the ground conditions, and the provision of an interpretative report.In conclusion, a comprehensive site investigation and monitoring services are essential for the successful completion of any building project. They provide a solid foundation for accurate site assessment, risk identification, and design optimization
Geotechnical investigations provide information on subsurface soil conditions, which are crucial for design purposes. Geotechnical engineers analyze the stability of natural and constructed slopes and structures and investigate soil and rock conditions through drilling, sampling, and testing. These investigations may include standard penetration test borings, rock coring, pavement coring, field infiltration testing, and groundwater table determination. They may also involve bulk soil sampling, undisturbed soil sampling, and groundwater monitoring and sampling.
Groundwater location and management are also crucial aspects of site development. Understanding the groundwater table and potential pathways for contaminant migration is essential for ensuring environmental safety and sustainability.
Project management involves investigation planning, budget control, reporting, and analysis. It ensures that all these processes are carried out efficiently and effectively, adhering to the project timeline and budget. The project manager may also use tools such as neighborhood perception surveys, market research, marketing and positioning strategies, and proposal preparation to assist in the planning and execution of the project.In conclusion, site development and project management involve a series of intricate and interconnected processes that ensure the orderly and sustainable development of land. These processes require a deep understanding of the environment and conditions of the proposed development area, meticulous planning, and efficient execution.
Analyze Rock Base and Geotechnical data gathered from MASW Mapping down to depths of 100m or greater, allowing for the direct determination of soil stiffness and strength. Additionally, evaluate the potential for liquefaction and correlate the results with SPT/Drill Hole information and other pertinent site data.