The application of BIM technology in mechanical and electrical engineering has significantly improved the effect of cost control by improving design accuracy, optimizing construction processes, and reducing rework and waste.
Quantitative analysis of cost savings
Improve the accuracy of cost control
BIM technology can realize the refined management of the construction stage of engineering projects by building a three-dimensional digital model. In terms of cost control, the introduction of BIM technology can greatly improve the accuracy of cost control. The BIM model can accurately calculate key data such as engineering quantity, material consumption and labor hours, and avoid errors and omissions in traditional manual statistics and manual calculations.
By improving the accuracy of cost control, BIM technology reduces rework and material waste due to design errors and construction errors, thereby significantly reducing project costs. This kind of precise calculation and analysis power is difficult to match with traditional methods.
Optimize the cost control process
BIM technology has strong information integration and collaborative work capabilities, which can optimize the cost control process in the construction stage of engineering projects. Through the BIM platform, all parties can share cost control information in real time, strengthen communication and collaboration, and reduce information silos and duplication of work.
Optimizing the cost control process not only improves work efficiency, but also reduces the cost increase caused by information asymmetry. By sharing and working collaboratively in real-time, all parties involved can better coordinate resource allocation and budget management, further reducing project risk.
Real-time monitoring and forecasting of project dynamic costs
BIM technology focuses on the need for the assistance of modern science and technology, in the BIM cost management platform through the cost data and model, progress information association, real-time monitoring of costs, combined with the built-in early warning process of the platform, to help managers timely analyze and solve deviations, to ensure the realization of cost objectives.
Real-time monitoring and forecasting capabilities enable project managers to identify issues and take corrective action in a timely manner to avoid cost overruns. This dynamic management method improves the flexibility and responsiveness of project management, and ensures that project costs are controlled within the predetermined range.
Specific case studies
Optimization of cooling water filter packs
Through BIM technology, errors in drawing design are found in advance, rework is avoided in the later stage, and the use of water pipe fittings is reduced through optimization, the construction difficulty is reduced, unnecessary cost investment is reduced, and the construction period is shortened.
This case demonstrates the application of BIM technology in the design phase, which avoids rework and waste in subsequent construction by identifying and solving design problems in advance, resulting in significant cost and time savings.
Optimization of water supply and drainage pipe paths
Through BIM modeling, the location of the pressure drainage pipe was found and optimized, which avoided the problem of unconstruction caused by the fight between the original riser and the air duct, reduced unnecessary cost input, and shortened the construction period. This case illustrates the ability of BIM technology to optimize before construction, avoiding conflicts and rework during construction by optimizing pipeline paths, and saving material and labor costs.
Optimization of mechanical and electrical pipelines in complex areas of core tube walkways
Through BIM technology modeling, the project department and the design institute made a special meeting on the complex problems of the electromechanical pipeline of the core tube walkway, optimized the layout of the electromechanical pipeline, reduced the waste of materials and the difficulty of construction, and reduced the cost. This case study demonstrates the application of BIM technology in complex areas, which significantly reduces project costs by optimizing pipeline layout, reducing construction difficulty and material waste.
Quantitative data on cost savings
Specific savings percentages and amounts
Through the case study, it can be seen that the application of BIM technology in M&E engineering has significantly reduced rework and material waste by optimizing the design and construction process, thereby saving costs. The specific percentage or amount of savings needs to be calculated in detail based on the actual project situation.
The percentage and amount of cost savings in actual projects vary depending on the project size, complexity, and optimization. Through detailed cost analysis and calculations, it is possible to more accurately assess the actual savings of BIM technology in the project.
Future Trends
Technological progress and application expansion
With the continuous development of BIM technology and the expansion of application scenarios, its application in mechanical and electrical engineering will be more and more valued and promoted. In the future, BIM technology is expected to play a greater role in cost control, bringing more cost savings and value enhancement to mechanical and electrical engineering.
Technological progress and application expansion will further improve the efficiency and accuracy of BIM technology in cost control, and promote the digital transformation and intelligent development of the construction industry. BIM technology will become an indispensable tool in M&E engineering, bringing greater economic benefits to the project.
The application of BIM technology in mechanical and electrical engineering has significantly improved the effect of cost control by improving design accuracy, optimizing construction processes, and reducing rework and waste. The specific case analysis shows the great potential of BIM technology in actual projects, although there is no direct provision of specific quantitative data, it is foreseeable that with the further development of technology and the expansion of application scenarios, the application of BIM in mechanical and electrical engineering will be more and more valued and promoted.
BIM technology in risk management in M&E engineering
Risk identification and prevention: Through BIM technology, potential risk points can be predicted and identified before construction, such as pipeline collisions, insufficient clear height, etc., so as to take preventive measures.
Construction simulation and safety plan: BIM technology can be used to simulate construction, which can intuitively display the construction plan, find and solve potential safety problems in advance, and formulate effective safety plans.
Specific application cases
Safety risk management of high support formwork: By constructing a high support formwork collapse accident model based on Bayesian network, BIM technology is used to reason about the existing uncertain information, calculate the probability of collapse of high support formwork, find out the weak links of the system, and ensure the realization of risk management objectives.
Application of BIM technology in mechanical and electrical installation: Through BIM technology, the design scheme is optimized, the on-site installation operation is guided, and the change and rework are reduced, which improves the efficiency and quality of mechanical and electrical installation, and reduces the safety risk in the construction process.
effect
Cost savings: Optimizing the design and construction process with BIM technology significantly reduces rework and material waste, resulting in cost savings.
Efficiency improvement: The application of BIM technology improves construction efficiency, reduces engineering changes and rework, and reduces engineering costs.