Free CDR Samples

CDR Sample for Mining Engineer

A Mining Engineer is a specialist who manages the training and use of the extraction and preparing of the minerals from a common habitat including the handling of the minerals for extra worth. On the off chance that you are a Mining Engineer and need to relocate to Australia to look for better vocation prospects or another activity in your area, at that point you can set up a CDR report Mining Engineer as indicated by the Migration Skills booklet arranged by Engineers Australia. The designers with four years of Bachelor's certificate in Mining Engineering can apply for the post of Mining Engineers.

CDR sample for Mining Engineers includes all the required reports such as Curriculum Vitae (CV), Continuing Professional Development (CPD), three Career Episodes (CE), and Summary Statement. The content of the CDR Report Samples is given below:

Curriculum Vitae (CV): Resume on the basis of a professional template.

Continuing Professional Development (CPD): The sample of CPD clarifies the Engineering Knowledge of the applicant – 150 words.

Mining Engineer Career Episode Sample 1: “Evaluation of Caterpillar’s Minestar Fleet Management System at Tropicana Gold Mine” – 2090 words

Mining Engineer Career Episode Sample 2: “Surface Mining System” – 2505 words

Mining Engineer Career Episode Sample 3: “Coal Mine Design and Feasibility” – 2290 words

Mining Engineer Summary Statement Sample: Detailed explanation of all the competency element – 1895 words.

Mining Engineering Career Episode 1

Project Name: Evaluation of Caterpillar’s Minestar Fleet Management System at Tropicana Gold Mine

Project Type: Academic Based Career Episode

Demographics: This project was executed for the fulfillment of the degree of Bachelor in Mining Engineering from “University name”, Australia. Author started this project from January 2016 and completed in April 2016.

Engineering Activities of Mining Engineering:

  1. To carry out a literature review on the current state of knowledge and develop a proper methodology of the project.
  2. To break down the project into different categories and assign time duration for the project.
  3. To study waiting times, lengths and other properties of queues to provide an appropriate bound for truck behaviour in an equipment selection model.
  4. To collect necessary information related to a minestar system and fleet activity at TGM as per the need of the project.
  5. To evaluate minestar fleet management system using CAT minetsar software to represent the real-life operation of a model.
  6. To evaluate and control the database to confirm the reduction of haulage of cycle time and measurement of productivity.
  7. To perform the work related to dispatch, fleet management, truck assignment and cycle edits for the effectiveness of the project.
  8. To execute the work associated with delay management in order to meet the objective of the project.
  9. To perform a comparative analysis between CAT Minestar and Modular dispatch for further development in the field of mining.

Problem & Solutions:

  1. Problem 1 career episode 1 and Solution

The CAT Minestar software detected the planned shift production plan unrealistic. On investigating the plan, author found that the size of the fleet, the capability of fleet and cycle times used during shift production were not practical. So he reevaluated the shift production plan to a realistic value. The shift production plan was mechanized by the dispatch control into Minetsar. Truck operators were kept on track simultaneously. Then he evaluated the new model in CAT minestar software. The plan was detected realistic which outputs the process results such as truck movements whose tonnages was done during the entire period of shift production.


  1. Problem 2 career episode 1 and Solution

The fuel consumption of truck was increased during truck activity. He visited the sites to find out the cause of fuel consumption. He found that the trucks waited in line during loading and dumping. The amount of time a truck spent in loading and dumping was more than the assigned time frame. So to overcome this problem, He optimized the truck assignment in real time and minimized the truck queuing at loading and dumping locations.

Structural Engineering Career Episode 2

Project Name: Surface Mining System

Project Type: Academic Based Career Episode

Demographics: Author completed his project as a final year mining engineering student on “Surface Mining System” during the period of July 2015- March 2016. He finished his bachelor in Mining Engineering from “University name” located in Western Australia.

Engineering Activities of Mining Engineering:

  1. At first, to go through various papers regarding surface mining and studied the various books to get the knowledge of design and equipment selection regarding mining system.
  2. Then, to analyze the various factors like climate, geology and mining capacity which affects the mining process.
  3. Moreover, to develop the working hours and roster through TALPAC Software
  4. Then, to design the mining system like the design of mining sequence, waste dump and haul roads.
  5. To use Lerchs Grossman algorithm to select the mining sequence, and this method helped in identifying the extension of the extraction.
  6. To create the 2D model of ore in an excel spreadsheet to visualize the block created earlier.
  7. Furthermore, to perform equipment selection for the ore section of the truck and haul system was made using the haul cycle for the first year of production, from the existing relationship between the mining/contracting company and Hitachi and Liebherr the project had focused at comparing Hitachi and Liebherr trucks and shovels.
  8. To make the table of the ore fleet requirements and production.
  9. Finally, to make the conclusion of the various analysis performed in design and equipment used in mining.
  10. To perform overall cost estimation of the project which included total capital and operating cost of the project.

Problem & Solutions:


  1. Problem 1 career episode 2 and Solution

When author used the TALPAC for the simulation of the truck, he found that the haulage cost was very high. Then, he consulted with his advisor about the problem, and he told him to check the procedure of analysis. He checked the procedure of the analysis and found that the transportation length from mine to the processing plant was very high. He minimized the transportation length and performed the analysis. This time the cost of the haulage was less, but still the overall cost was very high. Again, he inspected the design procedure of the mining system, and he found that the load of the ore carried by truck was very high.  He corrected the design, and he put the less weight during analysis. Finally, the haulage cost came within the expected value.

  1. Problem 2 career episode 2 and Solution

When he calculated the wait time per operating hour and cycle’s time, he found that there was the high chance of the collision between vehicles during the mining process. He consulted with his advisor and made the decision to put the sensor in the vehicle due to which the position of the various vehicles can be seen in the display, and the chance of the collision of the vehicles can be minimized. Further, the daily maintenance program for the vehicle was generated, and finally, the chance of the collision of the vehicle was minimized.

Mining Engineering Career Episode 3

Project Name: Coal Mine Design and Feasibility

Project Type: Academic based Career Episode


Demographics: Author have elaborated his engineering skills and activities undertaken for feasibility analysis and design of coal mine as a part of his bachelor’s degree in mining engineering at the “University name” at Kalgoorlie, Western Australia. The title of his project was “Coal Mine Design and Feasibility” which was compulsory for the unit Mine4004 and submitted to the Department of Mining Engineering.

Engineering Activities of Mining Engineering:

  1. To conduct the feasibility study of location and site selection for the model for which he went to the mining location with his team member who was located in NSW to the west of the Newcastle in coalfields.
  2. To make the preliminary mine design for the analysis using Minex software for accurate design, planning and implement mining strategy for greater efficiency, productivity, and cost control as well as improve profitability.
  3. To make the classification of resources from the distance grid that confirmed a coal reserve that would be suitable for mining.
  4. To determine the efficiency of each method and found that the longwall method was simpler in comparison to the room and pillar.
  5. To make the appropriate selection of underground equipment which was followed by the evaluation of the performance of every equipment.
  6. To design the conveyor system and determined the belt width of 1.31m for the travelling speed of 4.1 m/s to operate the mining continuously.
  7. To calculate the total cost of the conveyor for 3000m long belt system and the price calculated was 8.4 million dollars.
  8. To incorporate the state and national rules and regulation to meet the health and safety standards in order to minimize the risks and hazards for the ventilation design.
  9. To estimate and designed the ventilation removing the methane below 1 percentage and trip the electrical equipment if it exceeded 1.25 percent which continuously monitored its concentration level and also incorporated an alarm system for the alert warning if methane exceeded the requirement level.
  10. To consider three ventilation system and employed U-system because of the 3m/s velocity required for the design.
  11. To make provision for appropriate training and procedures in the whole mining site for drivers, staffs, equipment operator etc. which made account of the environmental risks.

Problem & Solutions:


  1. Problem 1 career episode 3 and Solution

After designing the complete under grounding mining system, author analyzed the whole design of the coal mine system. But he felt that something was missing in the entire design. Later, he investigate the whole design from the very beginning and found that his team had forgotten to incorporate lightning in the design. Hence, he calculated the total lux of tungsten filament lights required to brighten the area up to the standard limit. His design was further shown to electrical engineers for re-evaluating and calculating cable size and breakers for the system.


  1. Problem 2 career episode 3 and Solution

In designing of the ventilation system, he specified all the parameters as well as equipment and completed the design. Later when he analyzed the system, he found that the electrical system present in the mining exceeded 1.25 percent of total concentration on cutting machines. As a result, the safety threshold for the ventilation system was violated. So in order to solve this problem, he trip the equipment electrical supply exceeding the verge level which helped in minimizing the risks and hazards that might occur during the project.