Computer maintenance management systems (CMMS) allow organizations to automate maintenance processes and collect asset data to make strategic, managerial, and operational decisions. Implementing a CMMS can cost from a few hundred dollars to hundreds of thousands depending on the size of the organization. A major challenge is developing an accurate database of all maintainable assets, which requires identifying each asset and collecting details. Centennial Associates helps with inventorying assets using barcode scanning and populating the data into a CMMS to streamline maintenance management.
This document provides an introduction to geographic information systems (GIS). It defines GIS as a collection of hardware, software, and geographic data used to capture, store, analyze and display spatially referenced information. The document gives a brief history of GIS and describes its key components, including spatial data, attribute data, software, and users. It also explains different types of data layers, scales, and four common map types: choropleth, contour, dot, and symbol maps. The overall purpose of the document is to explain the basic concepts and applications of GIS.
CMMS 3 is a leading computerized maintenance management system software. It facilitates the development of an informational maintenance system to gather and process information needed to manage maintenance activities and monitor plant operations. The software uses a web-based architecture with a Microsoft SQL Server database. Its principal modules support master tables, engineering functions, maintenance activities, and types of maintenance including preventative, inspective, corrective, operational support, and improvements/modifications.
The document provides an overview of fire alarm systems, including their components and wiring styles. It discusses the main purpose of fire alarm systems to detect fires and notify occupants. The key components include the fire alarm control panel, initiating devices like detectors and manual pull stations, and notification appliances like horns, bells and strobes. It describes the National Fire Protection Association circuit classifications and wiring styles for initiating device circuits and notification appliance circuits.
This document provides an overview of basic fire alarm technology, including the components that make up a fire alarm control system. It describes the main controller as the "brains" that provides power and monitors inputs and outputs. It also discusses initiating devices like smoke detectors and manual pull stations that activate the system, as well as notification appliances like horns and strobes that provide outputs. The stages of a fire are outlined to explain what type of detection technology works best at each stage. Common detector types, manual call points, and notification devices are also defined.
Revit Modeling India is a precursor in the application of the BIM software, methods and processes in the building engineering and construction sectors holding on to current project BIM requirements. Our experience with outsourcing has enabled us to understand the requirements of international customers and constantly provide reliable engineering services for a wide spectrum of industries. Revit Modeling India offers complete solutions for BIM technology from 3D modeling in Revit, 4D-enabling the manipulation of models through time, 5D-incorporating cost data, nD-extrapolating energy utilization and sustainability performance.
Fire Alarm, Smoke Detector and Automatic Sprinkle SystemKhairul Azhar
This document describes a fire alarm and smoke detector system designed using digital logic. The system uses inputs from an emergency switch, smoke detector, and main switch. It outputs a fire alarm and activates an automatic sprinkler system. The logic design includes OR gates, AND gates, a JK flip flop timer set to 3 seconds, a 1Hz clock, 7 segment displays, and inverters. When the smoke detector or emergency switch is activated, the alarm will sound for 3 seconds before automatically shutting off the sprinkler and alarm. The group's responsibilities for the project are also outlined.
Computer maintenance management systems (CMMS) allow organizations to automate maintenance processes and collect asset data to make strategic, managerial, and operational decisions. Implementing a CMMS can cost from a few hundred dollars to hundreds of thousands depending on the size of the organization. A major challenge is developing an accurate database of all maintainable assets, which requires identifying each asset and collecting details. Centennial Associates helps with inventorying assets using barcode scanning and populating the data into a CMMS to streamline maintenance management.
This document provides an introduction to geographic information systems (GIS). It defines GIS as a collection of hardware, software, and geographic data used to capture, store, analyze and display spatially referenced information. The document gives a brief history of GIS and describes its key components, including spatial data, attribute data, software, and users. It also explains different types of data layers, scales, and four common map types: choropleth, contour, dot, and symbol maps. The overall purpose of the document is to explain the basic concepts and applications of GIS.
CMMS 3 is a leading computerized maintenance management system software. It facilitates the development of an informational maintenance system to gather and process information needed to manage maintenance activities and monitor plant operations. The software uses a web-based architecture with a Microsoft SQL Server database. Its principal modules support master tables, engineering functions, maintenance activities, and types of maintenance including preventative, inspective, corrective, operational support, and improvements/modifications.
The document provides an overview of fire alarm systems, including their components and wiring styles. It discusses the main purpose of fire alarm systems to detect fires and notify occupants. The key components include the fire alarm control panel, initiating devices like detectors and manual pull stations, and notification appliances like horns, bells and strobes. It describes the National Fire Protection Association circuit classifications and wiring styles for initiating device circuits and notification appliance circuits.
This document provides an overview of basic fire alarm technology, including the components that make up a fire alarm control system. It describes the main controller as the "brains" that provides power and monitors inputs and outputs. It also discusses initiating devices like smoke detectors and manual pull stations that activate the system, as well as notification appliances like horns and strobes that provide outputs. The stages of a fire are outlined to explain what type of detection technology works best at each stage. Common detector types, manual call points, and notification devices are also defined.
Revit Modeling India is a precursor in the application of the BIM software, methods and processes in the building engineering and construction sectors holding on to current project BIM requirements. Our experience with outsourcing has enabled us to understand the requirements of international customers and constantly provide reliable engineering services for a wide spectrum of industries. Revit Modeling India offers complete solutions for BIM technology from 3D modeling in Revit, 4D-enabling the manipulation of models through time, 5D-incorporating cost data, nD-extrapolating energy utilization and sustainability performance.
Fire Alarm, Smoke Detector and Automatic Sprinkle SystemKhairul Azhar
This document describes a fire alarm and smoke detector system designed using digital logic. The system uses inputs from an emergency switch, smoke detector, and main switch. It outputs a fire alarm and activates an automatic sprinkler system. The logic design includes OR gates, AND gates, a JK flip flop timer set to 3 seconds, a 1Hz clock, 7 segment displays, and inverters. When the smoke detector or emergency switch is activated, the alarm will sound for 3 seconds before automatically shutting off the sprinkler and alarm. The group's responsibilities for the project are also outlined.
A geographic information system (GIS) is a system designed to capture, store, manipulate, analyze, manage, and present all types of geographical data. The acronym GIS is sometimes used for geographical information science or geospatial information studies to refer to the academic discipline or career of working with geographic information systems and is a large domain within the broader academic discipline of Geoinformatics. In the simplest terms, GIS is the merging of cartography, statistical analysis, and computer science technology.
The document discusses fire detection and alarm systems. It provides details on:
1) The purposes of fire detection systems which are to detect fires, notify occupants, summon assistance and initiate suppression systems.
2) The basic components of systems including input devices like manual pull stations and detectors, and output devices like alarms and controls.
3) Different types of detectors like heat, smoke and gas detectors and their functions.
4) Factors to consider for detector placement like area size and layout.
5) Conventional and addressable microprocessor-based systems and their advantages.
6) Approvals and standards required for fire detection systems.
This document provides an overview of building information modeling (BIM) including its introduction, advantages, usage, examples, and future. BIM is a methodology for gathering and maintaining project information in a digital format to enable quick decision making throughout the project lifecycle. Key advantages of BIM include using consistent 3D models to capture coordinated planning and design data, providing greater project insight for cost and scheduling, and enabling prompt response to changes. BIM can be used for 3D modeling, energy analysis, 4D scheduling, 5D cost estimation, and facility management. The future of BIM is connecting digital models to physical systems for ongoing building operations and leveraging data efficiencies.
The presentation covers following areas:
- Typical Problems in Construction Industry
- What is BIM?
-BIM Process
- Influence of BIM on Industry Problems
- BIM Application
- BIM Advantages
- BIM Workflow
- BIM & Project Management
- BIM & Design Team Members
- BIM around the Globe
- Construction Industry with BIM
All work presented in the presentation is carried out by graduates of NUST, Islambad including Abdul Mughees Khan, Syed Kashif Ali Shah, Sharjeel Ahmad Tariq, Malik Awais Ahmad and Hamza Khan Shinwari.
Special credit of the work goes to Engr Tahir Shamshad, Vice President NESPAK and Engr Zia Ud Din, Asst Professor NUST under guidance and mentor ship the whole work was performed.
For more details feel free to contact: amugheeskhan@gmail.com
Building information modeling (BIM) allows project teams to visualize, simulate, and analyze a building design using a 3D parametric model before construction begins. This model represents all physical and functional aspects of the building and enables seamless sharing of information throughout the project lifecycle. BIM facilitates improved coordination, identification of issues, and changes between owners, architects, engineers, and contractors compared to traditional document-based approaches. It also supports increased prefabrication, construction planning, and post-occupancy facility management.
Fire detection and alarm systems are installed to notify occupants of a fire, summon assistance to fight fires, and initiate automatic suppression systems. There are different types of automatic alarm initiating devices like heat, smoke, and flame detectors that sense fire. Indicating devices like audible alarms and visible strobes alert people of a fire. Automatic alarm systems transmit alarm signals off-site to notify emergency responders. These systems are supervised to ensure proper operation and may include auxiliary functions to support firefighting and safety.
presentation by Paul Wilkinson to CIMCIG BIM conference, Building Centre, London WC1 on Wednesday 25 April 2012.
Presentation explains what BIM is (and isn't), and outlines why it has become important in 2012, as the UK construction industry looks to meet a UK Government BIM deadline by 2016.
Dividing Insulated Panels (DIP) are sandwich panels composed of a rigid polyisocyanurate (PIR) foam core bonded between two sheets that provide insulation, fire resistance, soundproofing, and durability for walls, roofs, and facades. Produced by Green Panel in Romania, DIP panels are fast and easy to install, cost-efficient, eco-friendly, and suitable for new and renovation construction projects like schools, hospitals, offices, and homes. Green Panel also produces modular homes entirely built with their Structural Insulated Panel (SIP) system.
EVOTHERM PLUS is a composite building panel consisting of a PIR foam core sandwiched between two layers of MGO board. It provides thermal insulation, sound protection, fire resistance, and can be used for walls, roofs, and cladding. The panels are manufactured by Green Panel and can be installed directly on structures or as a cladding solution.
Informatii despre SIP - Sistem Integrat de Constructii.
Eficienta costurilor, constructii GREEN, rapiditate in executie, case pasive - eficienta energetica, flexibilitate arhitecturala.
Detalii suplimentare: alina.oprea@green-panel.eu
A geographic information system (GIS) is a system designed to capture, store, manipulate, analyze, manage, and present all types of geographical data. The acronym GIS is sometimes used for geographical information science or geospatial information studies to refer to the academic discipline or career of working with geographic information systems and is a large domain within the broader academic discipline of Geoinformatics. In the simplest terms, GIS is the merging of cartography, statistical analysis, and computer science technology.
The document discusses fire detection and alarm systems. It provides details on:
1) The purposes of fire detection systems which are to detect fires, notify occupants, summon assistance and initiate suppression systems.
2) The basic components of systems including input devices like manual pull stations and detectors, and output devices like alarms and controls.
3) Different types of detectors like heat, smoke and gas detectors and their functions.
4) Factors to consider for detector placement like area size and layout.
5) Conventional and addressable microprocessor-based systems and their advantages.
6) Approvals and standards required for fire detection systems.
This document provides an overview of building information modeling (BIM) including its introduction, advantages, usage, examples, and future. BIM is a methodology for gathering and maintaining project information in a digital format to enable quick decision making throughout the project lifecycle. Key advantages of BIM include using consistent 3D models to capture coordinated planning and design data, providing greater project insight for cost and scheduling, and enabling prompt response to changes. BIM can be used for 3D modeling, energy analysis, 4D scheduling, 5D cost estimation, and facility management. The future of BIM is connecting digital models to physical systems for ongoing building operations and leveraging data efficiencies.
The presentation covers following areas:
- Typical Problems in Construction Industry
- What is BIM?
-BIM Process
- Influence of BIM on Industry Problems
- BIM Application
- BIM Advantages
- BIM Workflow
- BIM & Project Management
- BIM & Design Team Members
- BIM around the Globe
- Construction Industry with BIM
All work presented in the presentation is carried out by graduates of NUST, Islambad including Abdul Mughees Khan, Syed Kashif Ali Shah, Sharjeel Ahmad Tariq, Malik Awais Ahmad and Hamza Khan Shinwari.
Special credit of the work goes to Engr Tahir Shamshad, Vice President NESPAK and Engr Zia Ud Din, Asst Professor NUST under guidance and mentor ship the whole work was performed.
For more details feel free to contact: amugheeskhan@gmail.com
Building information modeling (BIM) allows project teams to visualize, simulate, and analyze a building design using a 3D parametric model before construction begins. This model represents all physical and functional aspects of the building and enables seamless sharing of information throughout the project lifecycle. BIM facilitates improved coordination, identification of issues, and changes between owners, architects, engineers, and contractors compared to traditional document-based approaches. It also supports increased prefabrication, construction planning, and post-occupancy facility management.
Fire detection and alarm systems are installed to notify occupants of a fire, summon assistance to fight fires, and initiate automatic suppression systems. There are different types of automatic alarm initiating devices like heat, smoke, and flame detectors that sense fire. Indicating devices like audible alarms and visible strobes alert people of a fire. Automatic alarm systems transmit alarm signals off-site to notify emergency responders. These systems are supervised to ensure proper operation and may include auxiliary functions to support firefighting and safety.
presentation by Paul Wilkinson to CIMCIG BIM conference, Building Centre, London WC1 on Wednesday 25 April 2012.
Presentation explains what BIM is (and isn't), and outlines why it has become important in 2012, as the UK construction industry looks to meet a UK Government BIM deadline by 2016.
Dividing Insulated Panels (DIP) are sandwich panels composed of a rigid polyisocyanurate (PIR) foam core bonded between two sheets that provide insulation, fire resistance, soundproofing, and durability for walls, roofs, and facades. Produced by Green Panel in Romania, DIP panels are fast and easy to install, cost-efficient, eco-friendly, and suitable for new and renovation construction projects like schools, hospitals, offices, and homes. Green Panel also produces modular homes entirely built with their Structural Insulated Panel (SIP) system.
EVOTHERM PLUS is a composite building panel consisting of a PIR foam core sandwiched between two layers of MGO board. It provides thermal insulation, sound protection, fire resistance, and can be used for walls, roofs, and cladding. The panels are manufactured by Green Panel and can be installed directly on structures or as a cladding solution.
Informatii despre SIP - Sistem Integrat de Constructii.
Eficienta costurilor, constructii GREEN, rapiditate in executie, case pasive - eficienta energetica, flexibilitate arhitecturala.
Detalii suplimentare: alina.oprea@green-panel.eu