CDR-Template-Civil-Engineer
‘All statements of fact in this report are true and correct and I have made claims of acquired competencies in good faith. The report is my own work and is a true representation of my personal competence in written English. I confirm that I understand that members of the engineering team in Australia are required to display a commitment to exercising professional and ethical responsibility in all aspects of their work ’.
Career episode 1.
a)Introduction.
1. In the first career episode, I shall describe a position that I currently occupy. I have been working at the State Design Institute ” XXX” since March 19XX. It is situated in CCC, Russia. I am a civil engineer. I am employed as a Group Leader. The group under my direction performs water-supply systems design and draining systems design at industrial enterprises and residential buildings.
b) Background.
2. As from leadership theory , I am responsible for design and construction of networks and works of water supply and sewerage of metallurgical industry objects. These objects are either new ones under construction or those being rebuilt. They are situated in all parts of Russia. House-building capacity has increased substantially in the past years, and we fulfil orders for the supply chain of water supply and sewerage systems for residential buildings.
3. I am a leader of a group of engineers. They prepare work drawings on a CAD system according to my calculations and explanations. I check the completed drawings, make remarks and correction on construction.
4. I analyse mistakes and inaccuracies made in the design. I also investigate their causes. After completion of every design, I conduct a session of critical analysis of the present work with all the group members. I point out the most interesting resource decisions that we can apply in other designs later on.
5. All the work according to the customers’ requirements has to be done on a computer, so the knowledge of CAD is necessary for me. The skill of working on a computer is necessary not only to check-up the work done by my subordinates but to carry out the work fast and with high quality. That’s why I completed the courses devoted to the following subjects: “Graphical segmentation Media AutoCAD” and “MS Office 97 for Windows”. I also have good skills in “MS Excel”. I have developed a number of spreadsheets for routine civil engineering calculations.
Regularly I have a so-called ” library day” when I attend a technical library at our institute or the technical department of the CCC Public Library. Thus I constantly
Made have an opportunity to become familiar with new special technical literature in a field of Civil Engineering. Besides, I constantly enhance my English language skills in order to be acquainted with the recent publications and get information about new engineering related to my work activity.
6. When my group receives an order for design of water-supply and drainage of an industrial object or a residential building I study the data received from the building-site, make calculations necessary for the correct engineering choice of the equipment and materials, co-ordinate taken decisions with the customer. I elaborate the design taking into consideration the cost, the review service of life and the requirements for the operation expenses. Then I prepare current and final support documentation.
7. I always have a schedule of my work, because I have to work with several designs at the same time. In this situation my schedule helps to prepare calculations and explanations for my subordinate group on time. It helps to distribute orders to engineers of other specialities, prepare all the necessary supporting documentation and give the completed design to a customer on time.
c) Personal workplace activity.
8. My direct duties are as follows :
• Analysing data to carry out a design, inquiring about data from a customer if it’s necessary or travelling to a building-site to collect data.
• Carrying out all the necessary calculations.
• Selecting equipment and materials and preparing specifications.
• Elaborating a design and fulfilling an explanatory note with supplementary water-supply and draining systems balances and schematic drawings.
9. Below I describe every part of my work in detail.
Firstly I analyse data carefully. It allows me to define the following:
• Water-supply sources for domestic, industrial and fire safety needs of the designed object.
• The necessity of treatment of water for the consumer needs and methods of water treatment.
• The necessity of the purification of sewerage water and methods of purification.
• The necessity to install additional water or sewerage pumping stations.
10. The next stage of my work is to carry out all the necessary calculations as follows:
• Calculations of the water consumption for domestic, industrial and fire safety purposes according to the water consumption standards.
• The calculation of the capacity of reservoirs and other water storage tanks.
• The hydraulic computations of internal and external water-supply systems for the appropriate and correct choice of pipe lines diameter.
• Calculations of the pumps and pump stations for water-supply and sewerage systems.
• Estimation of water-cooling towers in the return cooling water-supply systems for different equipment.
• Calculation of heat losses in tanks and pipelines that in turn allows revealing whether it is necessary to use heat insulation.
• Estimation of the diluting capacity of a river ( or another basin) in case of wastes discharge into them.
• Calculation of the concentration of the pollutants after treatment and other calculations.
11. According to my calculations I choose appropriate equipment and materials. For my selection I take into consideration the peculiarities of the building area of the designed object ( seismic factors, permafrost, unstable ground, etc). I also take into account the location of the suppliers, in other words their proximity to the building-site of the designed object. I select the most convenient method for installing and operating equipment. I also compare costs of equipment supplied by different firms.
12. After selecting of the equipment I work out the specification to define the estimated cost of the design. Then I put all the selected equipment into the data base on a computer, where I point out the equipment grade, its weight, its manufacturer, the equipment cost. Afterward such base makes it easier to select the equipment. Then I work out the explanatory note for my customer, in which I describe all the taken decisions. There are drawings with principal water supply and drainage schemes, tables with estimated flows, graphics of work of ” the pump-pump-line”. During the design we pay great attention to ensure protection measures for natural and other disasters according to the Russian legislation. We also take care of environmental issues. All our decisions necessarily meet the environmental standards.
13. When a design is ready, I give all the supporting documentation ( an explanatory note and drawings) to a customer centricity for approval. If necessary, I employ the author’s supervision to carry out all the decisions, taken in the design.
14. I offer my customer different ways of environmental protection, fire safety measures. I estimate which equipment is to be reconstructed and which one should be replaced by the new equipment. There is a team of engineers consisting of the institute staff. I am a member of this team, working effectively and competently.
15. Fulfilling my duties I usually work with the team of other specialists. Developing the design I work as a team member. I also work as a group leader at my department. I carry out all the primary design development. Thanks to my professional activity I have achieved trust and respect among my colleagues. I am known as an experienced specialist, always ready to consult for questions which are in my competence. I often consult with other engineers in the fields outside of my competency. I co-operate with architects, electrical engineers, mining engineers, metallurgic specialists, co-ordinate the laying of the water and sewerage pipe-lines. I co-ordinate the way of fitting and the site of all the necessary equipment, such as pumps, reservoirs, fire cocks and different valves. I give tasks to relative specialists for designing foundations under pumps, tanks, attachments to pipe-lines, stairs, assembling areas for the equipment and valves service. I also co-operate with environmental engineers to meet requirements of sewage discharge and treatment.
d) Summary.
16. Duties and tasks delegated to me are very diverse. So I have to demonstrate my knowledge both in the engineering and non-engineering fields.
knowledge and try to get the new information about latest techniques, equipment and mechanisms. Usually my personal role contributed to a project is to carry out a main ( principle) part of a design. To the present time all the designs carried out by me solved all the tasks successfully.
Career episode 2.
a) Introduction
1. This episode was taking place from May till July 19XX. I was working as a group leader on the project of water-supply and sewerage systems for a mine ” YYY” with new ore mine output. The mine is situated in BBB-city. The customer was industrial concern ” AAA ” Ltd.
b) Background.
2. This design task was to develop water-supply and sewerage works and networks, minimising the effect on environment and taking into consideration specific conditions of BBB- permafrost. I was working together with architects, mining engineers, electrical engineers, ecological engineers and other specialists. I carried out calculations and developed such works as pumping stations, reservoirs for water storage, sewage biological disposal plant, water supply and sewerage network. I also designed the underground water-supply system of the mine. I prepared the accompanying documentation and gave it to the customer.
3. I conducted negotiations with the customer devoted to the approval of the decisions, taken in the design, and introducing changes and improvements. As the necessity of introducing some changes appeared often, we had to reconsider some decisions to meet customers’ requirements for cost, operation quality of equipment and materials, which were implemented in the design.
4. To carry out this design I travelled to BBB, where I collected data and observed building sites where the construction of the designed structures would be erected. I estimated the present structures in order to know the opportunities of their use or necessary reconstruction.
5. I carried out all the calculations for this design, developed the drawings with mine water-intake and drainage balance schemes and the mine working water-supply schemes. I prepared all the current supporting documentation during the development of the design and the completed supporting documentation. I was working at this design together with a group of specialists, who also work at the State Design Institute.
6. I decided to use the recent techniques to carry out all the customer’s requirements best of all. I studied and compared equipment made by different firms, met with the representatives of these firms. It allowed me to do the appropriate choice of cost-effective quality equipment.
c) Personal workplace activity.
7. During the development of this design my main task was to carry out calculations and take correct engineering decisions for selecting structures and equipment, applied under the conditions of the Extreme Northern Territories. One of these decisions was a replacement of the present sanitary works called “The North BIO” concrete aerotanks and sedimentation tanks) for the sewage biological disposal plants where the sewage from the industrial areas of mine enters to. The sewage biological disposal plants, which I have chosen, are used for the North conditions (with temperatures as low as to 55° C below zero). They are produced in a block of containers. They are prefabricated. The technique used at the sewage disposal plants ensures biological disinfection of sludge and sewage. The plant works steady even during changes in hydraulic loads, concentrations and temperatures or there are long breaks in sewage or power supply. The plant begins to work at the optimal operation rate in several days. All the equipment having contacts with sewage is made of stainless steel. During purification residual sludge doesn’t appear, thus it excluded building a sludge site. The disposal system is serviced by only one person. Before selecting the disposal system, I studied a lot of materials of different firms very carefully. The disposal system that I have offered in the design are produced in Moscow. They are rather cheap in comparison with works of other firms. They are very convenient for their maintenance. It was my achievement that I was able to persuade the customer to use these particular disposal works for household sewage purification
8. The important decision of this design is choosing not to lay a gravity sewage network, deriving household sewage from some industrial areas of the mine to the disposal plants. My calculations have shown that heat losses along the sewerage conduit are two times more than the quantity of the input heat. So I offered to derive sewage from industrial sites to household sewage tanks, situated in these areas. The tanks were estimated for 1-2 days sewage keeping. This sewage has to be taken away from the tanks by sanitary vehicles to the wastewater station where it is diluted with water. There the sewage is derived to the sewage biological disposal plants. It allowed not to lay 3 km long sewerage networks requiring heat insulation. This decision was co-ordinated with and approved by the customer.
9. In this work all the industrial sites which need water feeding are situated on the different height levels, so it was necessary to design pumping. The customer offered his own consumer water supply scheme of the industrial sites. I made appropriate calculations and drew the pumps and pipe-lines team-work charts. As a result I came to conclusion that I could remove one of the pumping stations offered by the customer. In this case the pump power was 9 times less. Besides, according to the scheme offered by me the water supply from one building site to another became possible by one pipe-line instead of two. This allowed to save 1 km of steel pipe-lines and the heat insulation of them.
10. During the operation of the present fire-fighting spraying networks in the underground mine roadways there were some cases when in the most distant places water was absent or water head in the pipe-line was less than it was required. My customer asked me to analyse this problem. It appeared the present reducing valves installed in the underground mine roadways were chosen in a wrong way. These valves were necessary to reduce excessive pressure but they didn’t regulate the estimated pressure and flow rate. I calculated, selected and offered new reducing valves. These valves had flow rate which suited better to the calculated one. At the same time they reduced pressure to the point that allowed to ensure the necessary water head in the distant areas of the underground mine roadways.
I would like to point out that the selection of reducing valves for reducing pressure often appears in designs and their calculation is rather difficult. That’s why I used my experience of calculating and selecting reducing valves for BBB and set up a special computer programme. The programme includes not only a calculation but the data base of all the grades of valves. This programme facilitates their selection and calculation in other designs. It appeared so useful that I prepared and made a report about my programme for the local Civil Engineering Conference which was organised by our institute.
11. There was one more problem considered in the design. It was the removal of the mine water from the underground mine roadways. The comparison of the chemical composition of mine water with the maximum permissible concentrations, adopted according to the order of the Regional BBB Environmental Protection Committee, showed that the content of a number of substances was several times higher than the maximum permissible concentrations. It did not make possible to discharge mine water into basins. I organised a meeting with the bosses of metallurgical industries of BBB who were our customers. I managed to reach an agreement to use the mine water in the production. All the mine water was to be removed from the underground mine roadways to a reservoir and then enter by gravity to the lagoon. From the lagoon, the mine water was to enter BBB concentration plant by means of the pumping station. There it was to be utilised in the technological process.
12. Developing this design I looked over a lot of versions of selecting of equipment and materials to reduce the cost of the design. All the modifications and additions to the design I co-ordinated with the customer.
13. While I was working on this design I collaborated with other specialists to meet environmental protection requirements. My design met all the ecological standards. The equipment and materials offered in the design met modern environmental protection requirements. They are economical and convenient for the maintenance.
d) Summary.
14. The design I carried out met all the environmental protection and safety requirements. In this design, I managed to calculate, estimate and select equipment and structures so that they completely fulfilled all the engineering tasks given by the customer. The replacement of the present equipment allowed to remove the defects, revealing during the process of maintenance. The design was approved by and co-ordinated with the customer. The work resulted in signing the contract for carrying out the operation supporting documentation of this object by our institute.
Career Episode 3
a) Introduction
1. This career episode describes my working activity from September till October 2xxx. I was working as a group leader at the design of water-supply and sewerage works and networks of the FFF Bauxite Mine and of a town situated in Komi Autonomous Republic.
b) Background.
2. After reviewing the background data I had to define water-supply sources, to calculate water consumption for domestic, industrial and fire safety purposes of the mine industrial area and the town. I also had to estimate sewage runoff and to select appropriate water and sewerage works. I had to foresee the measures devoted to environmental protection. As usual I closely collaborated with relative specialists- prospecting specialists, electrical engineers, water engineers and metallurgical specialists.
1. For this design I carried out all the necessary calculations, developed the principal main water-supply and sewerage works schemes, water consumption and water removal balance schemes. All the calculations were carried out on a computer. While I was working on the project I took part in the negotiations with the customer, where we discussed the engineering and environmental protection problems. After completing my work I gave the explanatory note to my customer for approval.
c) Personal workplace activity.
4. For this design I studied a lot of materials which contained the information about hydrological, geological and climatic parameters of the designed industrial site area. I analysed accounts of preliminary and detailed groundwater prospecting for household water-supply. The careful study of this information made it possible for me to offer the disposition of water-intake works ( artesian wells ) not at the place recommended at the preliminary prospecting. That fact excluded the possibility of chemical and bacterial contamination of the water supply source.
1. I carried out the calculations of water consumption for domestic, industrial and fire safety needs. On the basis of these calculations I developed the water-supply scheme. This scheme was as follows:
Water from the water-intake wells is distributed by the pumps to the regulating reservoirs intended for the water collecting before the pumping station of the second raising. The pumps at the pumping station of the second raising discharge water from the regulating reservoirs to the reservoirs where fire-proof, emergency and controlling reserve of water is kept. From the reservoirs the water flows under gravity to the circular network. I made provision for a special installation of the regulating valves with the electric drive in the wells near the tanks in order to pass the fire safety reserve of water.
6. In this project I made an important decision regarding environmental protection. I offered to disinfect potable water at the bactericidal plants. Besides, I foresaw the reserved disinfection of water with the solution of natrium hypochlorite obtained from the solution of salt in the electrolyses. For this design we (my group under my direction) worked out the borders of sanitary protection zones for water-supply sources and water storage tanks. We kept in view the further development of our object. We also included all the sanitary steps around the zone territory according to the construction standards and rules.
1. On the industrial areas of the mine I designed the recycling water supply systems for a diesel power station, for a crushed stone factory and for a car-washer. I estimated and selected the following works and networks of the recycling water supply systems: recycling water-supply pumping stations, water-cooling towers, car-washer sewage water treatment plants, recycling water pipe-lines. systems allowed to reduce fresh water consumption. The recycling water supply systems make 92 percent of the whole mine water-supply in this design.
2. I also calculated the following sewerage systems: household, industrially-storm and industrial ones. For the household sewerage system I estimated and selected sewerage pumping stations, domestic sewage treatment plants, sewerage networks.
At the disposal works waste water passes step by step the intake chamber, the racks, the grit catchers and then enters the mixing chamber. The aluminium sulphate solution and chlorine water are fed there to improve oxidising of ammonia nitrogen. Then sewage enters the sedimentation tank, where settling takes place to separate the main part of pollutants. In order to remove residual organic pollutants and unsettled suspended matter the further sewage treatment goes on by the oxidation on the surface of the pores filter bed. Treated sewage water enters the contact chamber for the disinfection. In my explanatory note I gave the description of all the sewerage works and represented the tables of pollutants concentrations in household sewage before and after the purification. I also represented the results of the suspended matter and biological oxygen demand ( BOD ) sewage purification degree design taking into account the process of the mixing with water of the river, in which sewage is discharged after purification. Disposal works which I have selected ensure household sewage purification up to the maximum concentration limits that in turn permit to discharge sewage into basins important for fish industry.
3. I also made provision for storm water treatment. Storm water full of black oil from the territory of lubricating materials storehouse, from a car park and garage, sewage from the repair shops enter the storm water treatment plants. Here sedimentation and purification take place on the filters. After purification storm water isn’t discharged into the basin but it is utilised in the hydraulic ash removal system of the boiler house and partly used to fill the recycling water supply systems of HPP ( heating power plant ).
4. I also designed the second sewage utilisation for the industrial sewerage system. Sewage from the hydro-washing of the floors of crushed stone factory and of grinding-sorting factory enters the pumping station and then the sewage flows to the ash dump of HPP to fill the recycling water supply systems.
5. In this project I had to solve the problem of the FFF bauxite mine quarry water treatment working together with the water engineer and the specialist of our institute scientific research department. I provided for the sewage treatment and the sewage discharge into the river belonging to the fish-industry basins of the extra quality, where the pollutants content was carefully controlled by the present legislation. The mine quarry water is a mixture of treated industrial water and water pumped from the mine underground roadways. The water is generally polluted by the suspended matter and the oil products. First the quarry water flows into the sedimentation tank. In the sedimentation tank the averaging of seasonal movements of water consumption and the partial suspended matter sedimentation takes place. To achieve the required purification degree I developed the process flow sheet with the reagent water treatment and the following filtration. The flow sheet includes:
• The suspended matter treatment in the sedimentation tank with natrium aluminate as a coagulant.
• Filtration.
The pollutants content after the purification meets the specifications of the maximum permissible concentrations of the controlled components for fishing basins. To achieve the required purification degree I provided for the centralised control of the process, the automatic adjustment of the parameters and the analytic control of the quality of influents and effluents. To ensure reliable work and optimal sanitary-engineering conditions all the reservoirs equipment is provided by the special devices. These devices give warning signals if the limiting value is achieved. All the equipment and all the pipe-lines which are exposed to the aggressive medium acting are protected by the special corrosion proof coverage.
d) Summary.
12. In this design, many tasks and problems were accomplished. They are closely connected with water-supply, water draining, sewage treatment, environmental protection of the designed object. Developing this design, I managed to apply all my knowledge and skills of a construction engineer. The design was approved and co-ordinated by the customer.
Summary Statement of Competencies Claimed
UNIT PC1: ENGINEERING PRACTICE
Competency element
How and where demonstrated
Paragraph reference in
Career Episode
PC1.1
Presents and develops а professional image
a. I use appropriate computer programmes in my engineering practice
b. I produce outcomes that require innovative thought and intellectual rigour
c. I made a report to the local Civil Engineering Conference about computer program created by me
d. I achieved recognition from colleagues and clients working in my current position
e. I I plan sent aware ofoutnitiates__________________________________________________________ identify opportunities to solve problems through applying engineering knowledge
f. I demonstrate an awareness of environmental issues that would benefit from an engineering input
CE1.5, CE2.10, CE3.2
PC2.6-PC2.11
CE2.10
CE1.15
CE1.11, CE2.7-2.11, CE3.6-3.11
CE1.14, CE2.11, CE3.6-3.11
PC1.2
Pursues continuing professional development
I plan my professional development, determining the areas for taking development activities while working on my present position.
CE1.5, CE1.16
PC1.3
Integrates engineering
with other professional
input
a. I interact with specialists in other field developing the projects that demand to apply of broader knowledge
b. I use experience obtained during the current practices to improve my own skills and help others
c. I seek a range of information sources to develop and strengthen present engineering focus
CE1.15, CE3.11
CE1.15, CE2.10
CE1.5
PC1.4
Develops innovative engineering solutions
a. I identify and propose options to achieve innovative solutions
b. I demonstrate the achievement of improvements in processes and outcomes
CE2.7, CE2.8, CE2.11, CE3.11
CE2.8-2.10
PC1.5
Identifies constraints on potential engineering solutions
a. I identify long term environmental and sustainability issues associated with engineering activities
b. I identify hazards and consequent risks and initiate appropriate safety and disaster management measures
CE3.11
CE2.10, CE3.5, CE3.7, CE3.8
UNIT PC2: ENGINEERING PLANNING AND DESIGN
Competency element
How and where demonstrated
Paragraph reference in
Career Episode
PC2.1
Interprets and scopes design requirements
a. I negotiated with clients, interpreted, analysed and documented their requirements, and obtained agreement performing the projects described in CE2 and CE3
b. I wrote functional specifications which met the requirements of engineering standards of Russia, for example, the maximum permissible concentrations
c. I carefully studied a lot of materials and brought to the clients’I plansrent aware ofoutnitiates__________________________________________________________ attention new solution of environmental and other problems and sometimes persuaded them that my variant was better than they offered
CE2.2, CE2.7, CE 2.8, CE2.10, CE2.11, CE2.12, CE3.3
CE2.11,
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d. I offered solutions which improved environmental outcome
CE3.11
CE2.4, CE2.7-2.9, CE3.4
CE2.7, CE2.11, CE3.2, CE3.4, CE3.6, CE3.11
PC2.2
Prepares concept proposal and seeks advice on latest technology
a. I sought advice on latest technologies performing the project described in CE2
b. I analyse all the prospective design concepts and negotiate them with the client to choose the best one
c. I sought advice from water engineer and other specialists solving the problem of mine quarry water treatment
CE2.6, CE2.7
CE2.7, CE2.8, CE2.11
CE3.11
PC2.3
Implements planning and design process
a. I arranged design tasks to meet the agreed outcomes and cost structure
b. I analysed and selected resources /processes /systems to develop the design
c. It’s my duty to develop and check the design solutions using the engineering specification
CE2.6-2.9, CE2.12
CE2.7-2.12, CE3.2, CE3.5-3.11
CE1-CE3
PC2.4
Reviews the design to achieve acceptance
a. I review the design to ensure that user ’s requirements are met
b. I review the design with the client to gain documented acceptance
CE1.4
CE1.13, CE2.14, CE3.3, CE3.12
PC2.5
Prepares and maintains documentation during the design process
a. I prepare current and final documentation for the overall project
b. It is my duty to ensure that the supporting documentation is accurate, concise, complete and clear
c. I apply the agreed documentation control process when making changes to the design
CE1.6, CE1.12, CE2.5, CE3.3
CE1-CE3
CE2.3, CE2.12
PC2.6
Reviews design outcomes in operation
a. I evaluate the performance of the design outcome in the user ’s environment using appropriate tools
b. I developed corrective actions to improve disadvantages revealed during operation
CE3.11
CE2.10
UNIT PC3: SELF-MANAGEMENT IN THE ENGINEERING WORKPLACE
Competency element
How and where demonstrated
Paragraph reference in
Career Episode
PC3.1
Manages self
a. I plan my work, manage own time and own processes
b. I complete tasks in time in a competent manner
c. I cope with change
CE1.7
CE2.14, CE3.12
CE2.3
PC3.2
Works effectively
with the team
a. I work with a team performing most of the tasks delegated to me
b. I communicate effectively with the clients and this is essential part of my work
c. I mentor others in specific areas of engineering focus
CE1.14, CE1.15, CE2.2, CE3.2, CE3.11
CE1.6, CE1.13, CE1.14, CE2.3, CE2.11, CE3.3
CE1.4
PC3.3
Manages information
a. I have to be aware of I plansrent aware ofoutnitiates__________________________________________________________ the current changes in legislation, statutory requirements and standards to apply them in my projects and give consultation to the client
b. I locate, study and analyse relevant information system.
c. I document outcomes
CE1.12, CE2.13, CE3.11
CE1.6, CE1.8, CE1.9, CE2.4, CE2.7, CE3.4
CE1.12, CE1.13, CE2.2, CE2.5,
CE3.3
PC3.4
Manages work priorities and resources
a. I prepare, monitor and review work plans, programs and budgets
b. I plan resource use to achieve profit /productivity /sustainability /environmental impact minimisation targets
CE1.6, CE1.7, CE2.3,
CE2.6-2.11, CE3.4
PC3.5
Facilitates and capitalises on change and innovation
a. I initiate opportunities to introduce change
b. I develop creative and flexible approaches and solutions
c. I manage emerging challenges and opportunities
CE2.7,CE2.9
CE2.11, CE3.10
CE2.10
PC3.6
Establishes and maintains business
relationships with clients / stakeholder /
supplier / regulator
a. I work with the client to identify client’s needs and find the best way to meet them.
b. I work in collaborative relationships with clients /suppliers in the planning and implementation of the project
c. I demonstrate commercial awareness
CE1.4, CE2.3, CE3.3
CE2.7, CE2.11
CE1.6, CE1.11, CE2.6
Continuing Professional Development.
Over the last three years, I have undertaken two short courses, delivered papers at a local Civil Engineering Conference in the year 2000 and attended all annual Civil Engineering Conferences which were organised by the State Design Institute ” XXX”. I completed an intensive full-time course ” MS Office 97 for Windows” run by the State Design Institute ” XXX” from XXth to XXst of October 19XX. The purpose of this course was to become familiar with the new version of a popular computer program and to raise the level of skills in MS Office.
I completed a part-time course ” Graphical Media AutoCAD” run by the State Design Institute ” XXX” from XXth of October to XXth of November 19XX. The skills of working with this program are absolutely necessary for a civil engineer in our institute. This course presented to us new features and abilities of the latest AutoCAD version which gave me an opportunity to work more intensively. In January 2xxx, I presented a report at local Civil Engineering Conference at the State
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Design Institute ” XXX”. My report was about the computer program created by me. This program was described in CE2.10.
I regularly read technical literature on the professional subjects. I subscribed our department to Russian “Civil Engineering magazine” and I always read it.
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