Public tenders for cleaning in Fredericia Denmark

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CleaningDenmarkfredericia

Window-cleaning services

DONG Energy Oil & Gas A/S | Published August 26, 2016
Winner
Klagenævnet for Udbud
cpvs

The contract for the execution of window cleaning at locations in Denmark. The locations include, for example administration buildings, power plants and warehouses.

Accommodation cleaning services

Fredericia Maskinmesterskole | Published September 15, 2016  -  Deadline October 6, 2016
cpvs
90911100

The above range of cleaning carried out by Service mediator A / S on behalf of Fredericia School of Engineering.

Accommodation cleaning services

Fredericia Maskinmesterskole | Published January 19, 2017
Winner
Danren A/S
cpvs
90911100

The above range of cleaning carried out by Service mediator A / S on behalf of Fredericia School of Engineering.

The job includes cleaning of educational facilities (educational, værksteds-- and administration facilities, etc.) in Fredericia Maskinmesterskole- totaling approximately 6000 sq meters - at the Niels Bohr Road 3, 6700 Esbjerg.

Any questions for the task to be made under the tab 'Communication'. Response from the entity can be found under the tab "Communication" / "Additional info" after the Contracting Authority has published answers.

All Documents in the offer to the customer shall be uploaded through Mercell Sourcing Service before the deadline and is free for suppliers.

3 days before the offer period ends, you will receive a reminder about the task in your e-mail.

Questions about the functionality of the system is sent to support.dk@mercell.com or call 63 13 37 00. All communication with the customer shall be through Mercell Sourcing Service.

Offer received in other ways than through Mercell Sourcing Service is considered to be conformity with contract conditions and will therefore not be included in the assessment.

Accommodation cleaning services

Fredericia Maskinmesterskole | Published September 9, 2016  -  Deadline October 6, 2016
cpvs

Labour Clauses: The Contracting Authority wants, citing ILO Convention no. 94 concerning pay and employment, to ensure good conditions for employees of the supplier of the services offered. The Supplier therefore undertakes to ensure that the employees of the supplier concerned with a view to performance of the contract, the pay and conditions that are no less favorable than the wage and employment conditions, as under the collective agreement, laws or regulations apply for work of the same kind in the trade or industry in the district where the work to be performed.

Street-cleaning and sweeping services

Banedanmark | Published July 13, 2016
cpvs
90610000, 90620000, 77314000

Eastern Denmark

Street-cleaning and sweeping services

Banedanmark | Published July 14, 2016
cpvs
90610000, 90620000, 77314000

Services at the station areas west Denmark

Cleaning services

DONG Energy Oil og Gas A/S | Published February 14, 2015
cpvs
90910000

Driftsaftale vedr. Rengøringsservice til DONG Energy-lokationer i Danmark.

Street Cleaning and -fejning 2015 / S 180-327215

Banedanmark | Published September 17, 2015  -  Deadline September 30, 2015
cpvs
90610000, 77314000, 90620000

See the description of the lots.

Street-cleaning and sweeping services

Banedanmark | Published September 17, 2015  -  Deadline September 30, 2015
cpvs
90610000, 90620000, 77314000

See the description of the lots.

Elektricitet 2015/S 236-429446

DONG Energy Wind Power A/S | Published December 5, 2015  -  Deadline December 17, 2015
cpvs
09310000, 31121340, 76520000, 98363000, 63726620, 35512400, 71351924, 79961320

DONG Energy has 3 windfarms consisting of, Borkum and Gode Wind in the German northsea. Anholt Windfarm in the Kattegat sea off the Danish Coast. As part of DONG Energys OMA obligation, a requirement of a specialist 3rd party or parties contractor to undertake sub-sea structural inspections at the locations specified. The work shall be carried out between April -September 2016 The tasks expected to be undertaken are but not limited to. General Visual Inspection: Transition Piece (TP)/Jacket steel surface; including welds. All Mono Pile (MP)/Jacket steel surfaces; including welds. Boat landing; including ladder structure, fender structure, stubs and support structures. Grout pipe; including welds, supports and attachments. Anode structures; including supports and attachments. Grout Seal; including supporting bolts. J-Tube and cable exit interface; Including support structure, welds, hinges and J-tube bearings. Cable route to seabed and erosion of seabed around foundation. Marine Growth Inspection: Thickness readings; soft and hard marine growth measurements taken from pre-determined cardinal points both vertically and circumferentially. Inspection of Cathodic Protection System: Cleaning of selected anodes to determine anode depletion estimate. Potential readings taken externally on the Jacket/TP and MP at pre-determined cardinal points both vertically and circumferentially. Close Visual Inspection of Grout Seal: Cleaning of grout seal followed by close visual inspection. Close Visual Inspection of Cable Protection and Route System. Performed on each cable route identifying; Cable Positioning in Cable Protection System, Cable exposure, Cable free span. Other windfarms owned or operated by Dong Energy in Denmark for lot 1 and Germany for lot 2 will be able to use the agreements. It is voluntary for the tenderers to provide such rates and they will not be evaluated.

Offshore Subsea Structural inspections on Windfarms in the Germany and Denmark.

DONG Energy Wind power A/S | Published December 5, 2015  -  Deadline December 17, 2015
cpvs
09310000, 98363000, 63726620, 76520000, 31121340, 71351924, 35512400, 79961320

DONG Energy has 3 windfarms consisting of, Borkum and Gode Wind in the German northsea. Anholt Windfarm in the Kattegat sea off the Danish Coast. As part of DONG Energys OMA obligation, a requirement of a specialist 3rd party or parties contractor to undertake sub-sea structural inspections at the locations specified. The work shall be carried out between April -September 2016 The tasks expected to be undertaken are but not limited to. General Visual Inspection: Transition Piece (TP)/Jacket steel surface; including welds. All Mono Pile (MP)/Jacket steel surfaces; including welds. Boat landing; including ladder structure, fender structure, stubs and support structures. Grout pipe; including welds, supports and attachments. Anode structures; including supports and attachments. Grout Seal; including supporting bolts. J-Tube and cable exit interface; Including support structure, welds, hinges and J-tube bearings. Cable route to seabed and erosion of seabed around foundation. Marine Growth Inspection: Thickness readings; soft and hard marine growth measurements taken from pre-determined cardinal points both vertically and circumferentially. Inspection of Cathodic Protection System: Cleaning of selected anodes to determine anode depletion estimate. Potential readings taken externally on the Jacket/TP and MP at pre-determined cardinal points both vertically and circumferentially. Close Visual Inspection of Grout Seal: Cleaning of grout seal followed by close visual inspection. Close Visual Inspection of Cable Protection and Route System. Performed on each cable route identifying; Cable Positioning in Cable Protection System, Cable exposure, Cable free span. Other windfarms owned or operated by Dong Energy in Denmark for lot 1 and Germany for lot 2 will be able to use the agreements. It is voluntary for the tenderers to provide such rates and they will not be evaluated.

M-08 Sludge handling.

DONG Energy Thermal Power A/S | Published November 7, 2015  -  Deadline November 30, 2015
cpvs
90513800, 90513600, 90513700, 90513900, 24311600, 24312120, 24313000, 24311510

The scope of works relates to DONG Energy Thermal Power's conversion Life time extension of Avedøvre Power Station's unit 1 and 2. Following shall be installed: all machinery equipment for a complete functional sludge dewatering system based on chamber filter press technology. Sludge is produced in the existing waste water treatment plant (WWTP), and dewatering system shall be placed in a new building close to the WWTP. System will amongst other include: — A chamber filter press; — Automatic cleaning system for the chamber filter; — Sludge tank (approximately 30 m³); — Chemical-tanks and dosing pumps; — Filtrate tank; — Pumps and pipes linked to the existing WWTP; — Container for the product (filtercake); — CRS. All systems and equipment must be fit for purpose and designed with due consideration for QHSE and current and relevant mandatory regulations in force within the European Community. Technical requirements enclosed with the contract provide substantial liberty for the Applicant to solve technical and process challenges as long as optimum functionality, reliability and performance is obtained. The Capacity and requirements of the Sludge handling system is: — 660 kg/h (100 % dry) (no redundancy); — The conditions of wet sludge is expected to be around 10 w/w %.

Behandling af slam 2015/S 230-418690

DONG Energy Thermal Power A/S | Published November 27, 2015  -  Deadline December 7, 2015
cpvs
90513800, 90513600, 90513700, 90513900, 24311510, 24311600, 24312120, 24313000

The scope of works relates to DONG Energy Thermal Power's conversion Life time extension of Avedøvre Power Station's unit 1 and 2. Following shall be installed: all machinery equipment for a complete functional sludge dewatering system based on chamber filter press technology. Sludge is produced in the existing waste water treatment plant (WWTP), and dewatering system shall be placed in a new building close to the WWTP. System will amongst other include: — A chamber filter press; — Automatic cleaning system for the chamber filter; — Sludge tank (approximately 30 m³); — Chemical-tanks and dosing pumps; — Filtrate tank; — Pumps and pipes linked to the existing WWTP; — Container for the product (filtercake); — CRS. All systems and equipment must be fit for purpose and designed with due consideration for QHSE and current and relevant mandatory regulations in force within the European Community. Technical requirements enclosed with the contract provide substantial liberty for the Applicant to solve technical and process challenges as long as optimum functionality, reliability and performance is obtained. The Capacity and requirements of the Sludge handling system is: — 660 kg/h (100 % dry) (no redundancy); — The conditions of wet sludge is expected to be around 10 w/w %.

Offshore Services for wind farms in Denmark and Germany.

DONG Energy Wind Power A/S | Published September 17, 2015  -  Deadline October 7, 2015
cpvs
50530000, 45442121

DONG Energy has 3 offshore wind farms in Denmark with a total of 274 turbines. The 3 offshore wind farms are Anholt located off coast of Grenå, Horns Rev 2 located off coats of Esbjerg and Nysted located off coast of Gedser. DONG Energy is the O&M provider of the turbines but due to lack of internal resources there is a need for a third party service provider within 5 categories: 1. Cranes and lifting devices including safety equipment. 2. Lifts. 3. High voltage equipment. 4. WTG service (including bolt tensioning and replacement of major components). 5. Snagging (minor repairs, cleaning, modification of turbines, retrofits etc.) and repair painting. 1 contract will be entered for each lot. In the contract period Horns Rev 2 expects to require all types of services from approximately 1st April to 30th September. Nysted expects to require lift service each year and High voltage service every third year. Other services can be required on ad-hoc basis. Anholt expects to require only minor ad-hoc services as this wind farm is still under warranty (expires Mid 2018) and therefore operated by the turbine supplier. Provision of services for DONG Energy wind farms in Germany (which are all still under construction or under warranty) will be included in the contract as as option which shall be mutual for both DONG Energy and the supplier(s). This option will not be included in the evaluation of the tenders. More information about DONG Energy Wind Power can be found here: http://www.dongenergy.com/en/business-activities/wind-power

RSC Cure NL LOT 2.

DONG Energy Thermal Power A/S | Published December 15, 2015  -  Deadline January 11, 2016
cpvs
45223110, 45223210, 45223800, 45252210, 45253000, 42921000, 42920000, 42910000, 42993200, 42996000, 42996200, 42996300, 42996500, 42996700, 42996800, 71320000, 71300000

Cure DONG Energy REnescience B.V. has decided to establish a plant for a complete handling of unsorted household waste (Municipal Solid Waste — MSW). DONG Energy Thermal Power A/S will be responsible for the execution of the project on behalf of Cure DONG Energy REnescience B.V. The project, RSC Cure NL will be based on DONG Energy's REnescience Technology, which is a technology for treatment of unsorted household waste. The purpose of the process is sorting and refining the waste for utilization in the production of bioliquid for biogas production, 2D material such as folios of e.g. plastics for the making of RDF and 3D materials such as bottles and cans for the purpose of re-cycling. The plant will be established in Eindhoven, Holland, and will be designed with a capacity of 120 000 ton of household waste per year, or 15 t/h. This pre-qualification is specific to the REnescience core process internal referred to as LOT 2, which consists of following main processes: 2.1 Waste inlet handling. 2.2 The REnescience reactor part. 2.3 Separation and Bioliquid Treatment. 2.4 2D Treatment. 2.5 3D Treatment. The Processes 2.1 to 2.5 described above are to be connected to one functional unit, securing a handling, treatment and separation of MSW to levels specified in the coming call for tender material. Regarding 2.1) Waste inlet handling. The delivery will consist of all electromechanical equipment required for handling the incoming municipal household waste, and thus preparing it for readily treatment within the reactor part. This process will comprise equipment enabling exposure of organic bagged MSW — such as a bag opening device — and a number of conveying systems, enabling transport of MSW to the REnescience reactor part (refer to 2.2. below). Regarding 2.2) The REnescience reactor part. The delivery will consist of all electromechanical equipment required for an enzymatic treatment of the exposed MSW. This process will comprise two or more parallel reactor lines, each consisting of a reactor infeed, a reactor, and a treated waste buffer section enabling pH adjustment / water supply and pH regulation, enzymatic treatment and solid dewatering, respectively. The reactor part basic design details will be provided by DONG Energy as a proposal for the final design. The infeed section, and the reactor lines are to be manufactured in stainless steel due to high load (waste mixed with process water), abrasion, and corrosive environment (each reactor are horizontal installed circular vessels with a diameter of app. 5 meters, and a length of 50 meters, which during operational conditions are heated to app. 50-60 oC, rotating 1 rpm). Regarding 2.3) Separation and Bioliquid Treatment. The delivery will comprise all electromechanical equipment required for a proper separation of the semi-wet waste into the three fractions; bioliquid, 2D and 3D materials. In addition, a separation of batteries and other unwanted rejects from the bioliquid will be required. Subsequent to the separation steps, the bioliquid will still contain unwanted materials — such as sand and glass particles (inert material). These inert solid materials will need to be separated from the bioliquid by means of an appropriate inert separator, before leading the bio liquid to the anaerobic digester (AD-plant — which is a part of a seperate tender — referred to as Lot 3). Equipment relevant to the inert separation process is included in this tender as an option, however it will also be included as an option to the tender for the AD-plant, while it must be an integrated part of either this LOT or as a part of the connected AD Plant. Regarding 2.4) 2D Treatment. The delivery will comprise all electromechanical equipment required for a proper cleaning of 2D materials — e.g. plastic, textiles etc. The plastic fraction will need a specific level of cleanliness. The 2D textiles are to be separated from the plastic fraction, and led to the anaerobic digester (AD-plant — which is a part of a separate tender — referred to as Lot 3). The entire REnescience process will recycle and clean the water used for the washing process to a level, where accumulation of e.g. salts are prevented. The cleaning of water is taking place in the waste water treatment (WWT-plant, part of a separate tender — referred to as Lot 4), however for the 2D treatment it is relevant to inform that the washing process will take place using ‘dirty water’ (cleaned process water from the WWT-plant) in the beginning of the process and fresh water at the end of the 2D washing process. Regarding 2.5) 3D Treatment. The delivery will consist of all electro mechanical equipment required for a proper cleaning of 3D materials made out of plastic and metals. The metal 3D-fraction is to separated from the remaining 3D fraction. The remaining 3D materials will consist of plastic, which is to be washed to a specific level of cleanliness. The 3D materials (plastic and metals) are to be stored at appropriate storage facilities (outside scope of this LOT). Options. Following items are expected to be tendered as an option: — Gas fired boiler or Heat pump for supply of process heat. — Compressed air supply. — Cleaning system. — Service and maintenance contract. — Inert separation step (ref. sub-process 2.3 above). — A 3rd reactor line incl. all required systems. Justification for tendering the contract as a single contract, can be substantiated by addressing the three criteria that should be taken into account when contracts are tendered as one tender in Netherlands (LOT 2 is only a part of the RSC Cure NL project, which is being tendered in several lots): A) The composition of the relevant market and the influence of the combination of the contacts on the access to the contract for a sufficient number of (smaller and mid-sized) companies in that market: — DONG Energy sets out no specific requirements to the financial capabilities of the applicant, whereas DONG Energy also urge SME's to apply for Pre-Qualification. It is allowed for smaller and mid-sized companies to form consortia, which will help them comply with the requirements to provide guarantees and bonds, as will be prescribed in the commercial conditions of the contract. B) The organisational consequences and risks of the combination of the contracts for the contracting entity and the tenderers: — Each of the mentioned processes, represent multiple cross-process related interfaces, relations, and exchange of signals. Managing and controlling these — if tendered as separate lots — would be possible, however the technical risk profile for the project execution would increase significantly, and the only way to mitigate this risk, is to set out high requirements to resource allocation within the DONG Energy organization. — In the project execution phase, due to the technical complexity and the overlap of the various processes, systems and hardware, it would be extremely challenging coordinating the erection-, and commissioning phase. Some processes/systems are physically located on top of each other, and some are statically, and process wise dependent, whereas the time schedule would be affected, due to a significantly extended time for completion. C) The extent of connectedness of the contracts: — The processes represent an interconnected integrated waste handling system, comprising various complex mechanical-, electrical-, control- and monitoring interfaces, whereas the respective processes cannot be seen as a separate single standing systems. — If — hypothetically — the above mentioned processes were tendered as separate packages, the requirements for the process and media control at each interface would be unrealistically high. Each interface would require a fixed definition on media data, process parameters, monitoring, etc. This would cause an immediate impact on the project complexity and CAPEX, as the potential suppliers either would decline applying for the PQ, or alternatively increase the price capitalized by the risk, which potentially could compromise the project business case. Basically, tendering LOT 2 as one integrated system, is based on the fact that the scope is considered the core of the facility, where interfaces between sub-systems are crucial. It is important for the Contracting Entity to have clear system and process responsibility both in terms of responsibility of functionality during the contract and in terms of time during the construction phase. This can be ensured with a single contractor. Further, the innovative nature of the core of the facility supports that the contract can be tendered as a single contract. The Contracting entity consider the scope of the contract as being a single contract from a process, market and risk perspective. General info: Potential suppliers shall expect an explicit requirement from DONG Energy in relation to the system robustness and high degree of availability. Further specific requirements in relation to guarantees for the functionality, the power consumption, and warranty period relevant for this sort of equipment will apply. Specific demands for guarantees, bonds and warranties will be specified in the Call for Tender Material.

RSC Cure NL Lot 2 — January 2016.

DONG Energy Thermal Power A/S | Published January 27, 2016  -  Deadline February 8, 2016
cpvs
45223110, 45223210, 45223800, 45252210, 45253000, 42921000, 42920000, 42910000, 42993200, 42996000, 42996200, 42996300, 42996500, 42996700, 42996800, 71320000, 71300000

Cure DONG Energy REnescience B.V. has decided to establish a plant for a complete handling of unsorted

household waste (Municipal Solid Waste — MSW).

DONG Energy Thermal Power A/S will be responsible for the execution of the project on behalf of Cure DONG

Energy REnescience B.V.

The project, RSC Cure NL will be based on DONG Energy's REnescience Technology, which is a technology

for treatment of unsorted household waste. The purpose of the process is sorting and refining the waste for

utilization in the production of bioliquid for biogas production, 2D material such as folios of e.g. plastics for the

making of RDF and 3D materials such as bottles and cans for the purpose of re-cycling.

The plant will be established in Eindhoven, Holland, and will be designed with a capacity of 120 000 ton of

household waste per year, or 15 t/h.

This pre-qualification is specific to the REnescience core process internal referred to as Lot 2, which consists

of following main processes:

2.1 Waste inlet handling;

2.2 The REnescience reactor part;

2.3 Separation and Bioliquid Treatment;

2.4 2D Treatment;

2.5 3D Treatment.

The Processes 2.1 to 2.5 described above are to be connected to one functional unit, securing a handling, treatment and

separation of MSW to levels specified in the coming call for tender material.

Regarding 2.1) Waste inlet handling.

The delivery will consist of all electromechanical equipment required for handling the incoming municipal

household waste, and thus preparing it for readily treatment within the reactor part. This process will

comprise equipment enabling exposure of organic bagged MSW — such as a bag opening device — and a

number of conveying systems, enabling transport of MSW to the REnescience reactor part (refer to 2.2. below).

Regarding 2.2) The REnescience reactor part

The delivery will consist of all electromechanical equipment required for an enzymatic treatment of the exposed

MSW. This process will comprise two or more parallel reactor lines, each consisting of a reactor infeed, a

reactor, and a treated waste buffer section enabling pH adjustment / water supply and pH regulation, enzymatic

treatment and solid de-watering, respectively.

The reactor part basic design details will be provided by DONG Energy as a proposal for the final design. The

infeed section, and the reactor lines are to be manufactured in stainless steel due to high load (waste mixed with

process water), abrasion, and corrosive environment (each reactor are horizontal installed circular vessels with a diameter of app.

5 meters, and a length of 50 meters, which during operational conditions are heated to app. 50-60 oC, rotating 1

rpm).

Regarding 2.3) Separation and Bioliquid Treatment.

The delivery will comprise all electromechanical equipment required for a proper separation of the semi-wet

waste into the three fractions; bioliquid, 2D and 3D materials. In addition, a separation of batteries and other

unwanted rejects from the bioliquid will be required. Subsequent to the separation steps, the bioliquid will still

contain unwanted materials — such as sand and glass particles (inert material). These inert solid materials will

need to be separated from the bioliquid by means of an appropriate inert separator, before leading the bio liquid

to the anaerobic digester (AD-plant — which is a part of a seperate tender — referred to as Lot 3). Equipment relevant to the inert

separation process is included in this tender as an option, however it will also be included as an option to the tender for the AD-plant,

while it must be an integrated part of either this LOT or as a part of the connected AD Plant.

Regarding 2.4) 2D Treatment.

The delivery will comprise all electromechanical equipment required for a proper cleaning of 2D materials — e.g. plastic,

textiles etc. The plastic fraction will need a specific level of cleanliness. The 2D textiles are to be

separated from the plastic fraction, and led to the anaerobic digester (AD-plant — which is a part of a separate tender — referred to as Lot 3).

The entire REnescience process will recycle and clean the water used for the washing process to a level,

where accumulation of e.g. salts are prevented. The cleaning of water is taking place in the waste water

treatment (WWT-plant, part of a separate tender — referred to as Lot 4), however for the 2D treatment it is relevant to inform

that the washing process will take place using ‘dirty water’ (cleaned process water from the WWT-plant) in the beginning of the process and fresh

water at the end of the 2D washing process.

Regarding 2.5) 3D Treatment.

The delivery will consist of all electro mechanical equipment required for a proper cleaning of 3D materials made

out of plastic and metals. The metal 3D-fraction is to separated from the remaining 3D fraction. The remaining

3D materials will consist of plastic, which is to be washed to a specific level of cleanliness. The 3D

materials (plastic and metals) are to be stored at appropriate storage facilities (outside scope of this Lot).

Options.

Following items are expected to be tendered as an option:

— Gas fired boiler or Heat pump for supply of process heat;

— Compressed air supply;

Cleaning system;

— Service and maintenance contract.;

— Inert separation step (ref. sub-process 2.3 above);

— A 3rd reactor line incl. all required systems.

Justification for tendering the contract as a single contract, can be substantiated by addressing the three criteria that should be taken into account when contracts

are tendered as 1 tender in Netherlands (Lot 2 is only a part of the RSC Cure NL project, which is being tendered in

several lots):

A) The composition of the relevant market and the influence of the combination of the contacts on the access to

the contract for a sufficient number of (smaller and mid-sized) companies in that market:

— DONG Energy sets out no specific requirements to the financial capabilities of the applicant, whereas DONG

Energy also urge SME's to apply for Pre-Qualification. It is allowed for smaller and mid-sized companies to

form consortia, which will help them comply with the requirements to provide guarantees and bonds, as will be

prescribed in the commercial conditions of the contract.

B) The organisational consequences and risks of the combination of the contracts for the contracting entity and

the tenderers:

— Each of the mentioned processes, represent multiple cross-process related interfaces, relations, and exchange

of signals. Managing and controlling these — if tendered as separate lots — would be possible, however the

technical risk profile for the project execution would increase significantly, and the only way to mitigate this risk,

is to set out high requirements to resource allocation within the DONG Energy organization.

— In the project execution phase, due to the technical complexity and the overlap of the various processes,

systems and hardware, it would be extremely challenging coordinating the erection-, and commissioning phase.

Some processes/systems are physically located on top of each other, and some are statically, and process wise

dependent, whereas the time schedule would be affected, due to a significantly extended time for completion.

C) The extent of connectedness of the contracts.

— The processes represent an interconnected integrated waste handling system, comprising various complex

mechanical-, electrical-, control- and monitoring interfaces, whereas the respective processes cannot be seen

as a separate single standing systems.

— If — hypothetically — the above mentioned processes were tendered as separate packages, the requirements

for the process and media control at each interface would be unrealistically high. Each interface would require

a fixed definition on media data, process parameters, monitoring, etc. This would cause an immediate impact

on the project complexity and CAPEX, as the potential suppliers either would decline applying for the PQ, or

alternatively increase the price capitalized by the risk, which potentially could compromise the project business

case.

Basically, tendering Lot 2 as one integrated system, is based on the fact that the scope is considered the core

of the facility, where interfaces between sub-systems are crucial. It is important for the Contracting Entity to

have clear system and process responsibility both in terms of responsibility of functionality during the contract

and in terms of time during the construction phase. This can be ensured with a single contractor. Further, the

innovative nature of the core of the facility supports that the contract can be tendered as a single contract. The

Contracting entity consider the scope of the contract as being a single contract from a process, market and risk

perspective.

General info:

Potential suppliers shall expect an explicit requirement from DONG Energy in relation to the system robustness

and high degree of availability. Further specific requirements in relation to guarantees for the functionality, the

power consumption, and warrantee period relevant for this sort of equipment will apply. Specific demands for

guarantees, bonds and warrantees will be specified in the Call for Tender Material.

Opstilling af metalkonstruktioner 2016/S 027-044260

DONG Energy Thermal Power A/S | Published February 9, 2016  -  Deadline February 11, 2016
cpvs
45223110, 42910000, 42996000, 42996300, 42996500, 45223210, 45223800, 45252210, 71300000, 71320000, 45253000, 42920000, 42921000, 42993200, 42996200, 42996700, 42996800



Cure DONG Energy REnescience B.V. has decided to establish a plant for a complete handling of unsorted

household waste (Municipal Solid Waste — MSW).

DONG Energy Thermal Power A/S will be responsible for the execution of the project on behalf of Cure DONG

Energy REnescience B.V.

The project, RSC Cure NL will be based on DONG Energy's REnescience Technology, which is a technology

for treatment of unsorted household waste. The purpose of the process is sorting and refining the waste for

utilization in the production of bioliquid for biogas production, 2D material such as folios of e.g. plastics for the

making of RDF and 3D materials such as bottles and cans for the purpose of re-cycling.

The plant will be established in Eindhoven, Holland, and will be designed with a capacity of 120 000 ton of

household waste per year, or 15 t/h.

This pre-qualification is specific to the REnescience core process internal referred to as Lot 2, which consists

of following main processes:

2.1 Waste inlet handling;

2.2 The REnescience reactor part;

2.3 Separation and Bioliquid Treatment;

2.4 2D Treatment;

2.5 3D Treatment.

The Processes 2.1 to 2.5 described above are to be connected to one functional unit, securing a handling, treatment and

separation of MSW to levels specified in the coming call for tender material.

Regarding 2.1) Waste inlet handling.

The delivery will consist of all electromechanical equipment required for handling the incoming municipal

household waste, and thus preparing it for readily treatment within the reactor part. This process will

comprise equipment enabling exposure of organic bagged MSW — such as a bag opening device — and a

number of conveying systems, enabling transport of MSW to the REnescience reactor part (refer to 2.2. below).

Regarding 2.2) The REnescience reactor part

The delivery will consist of all electromechanical equipment required for an enzymatic treatment of the exposed

MSW. This process will comprise two or more parallel reactor lines, each consisting of a reactor infeed, a

reactor, and a treated waste buffer section enabling pH adjustment / water supply and pH regulation, enzymatic

treatment and solid de-watering, respectively.

The reactor part basic design details will be provided by DONG Energy as a proposal for the final design. The

infeed section, and the reactor lines are to be manufactured in stainless steel due to high load (waste mixed with

process water), abrasion, and corrosive environment (each reactor are horizontal installed circular vessels with a diameter of app.

5 meters, and a length of 50 meters, which during operational conditions are heated to app. 50-60 oC, rotating 1

rpm).

Regarding 2.3) Separation and Bioliquid Treatment.

The delivery will comprise all electromechanical equipment required for a proper separation of the semi-wet

waste into the three fractions; bioliquid, 2D and 3D materials. In addition, a separation of batteries and other

unwanted rejects from the bioliquid will be required. Subsequent to the separation steps, the bioliquid will still

contain unwanted materials — such as sand and glass particles (inert material). These inert solid materials will

need to be separated from the bioliquid by means of an appropriate inert separator, before leading the bio liquid

to the anaerobic digester (AD-plant — which is a part of a seperate tender — referred to as Lot 3). Equipment relevant to the inert

separation process is included in this tender as an option, however it will also be included as an option to the tender for the AD-plant,

while it must be an integrated part of either this LOT or as a part of the connected AD Plant.

Regarding 2.4) 2D Treatment.

The delivery will comprise all electromechanical equipment required for a proper cleaning of 2D materials — e.g. plastic,

textiles etc. The plastic fraction will need a specific level of cleanliness. The 2D textiles are to be

separated from the plastic fraction, and led to the anaerobic digester (AD-plant — which is a part of a separate tender — referred to as Lot 3).

The entire REnescience process will recycle and clean the water used for the washing process to a level,

where accumulation of e.g. salts are prevented. The cleaning of water is taking place in the waste water

treatment (WWT-plant, part of a separate tender — referred to as Lot 4), however for the 2D treatment it is relevant to inform

that the washing process will take place using ‘dirty water’ (cleaned process water from the WWT-plant) in the beginning of the process and fresh

water at the end of the 2D washing process.

Regarding 2.5) 3D Treatment.

The delivery will consist of all electro mechanical equipment required for a proper cleaning of 3D materials made

out of plastic and metals. The metal 3D-fraction is to separated from the remaining 3D fraction. The remaining

3D materials will consist of plastic, which is to be washed to a specific level of cleanliness. The 3D

materials (plastic and metals) are to be stored at appropriate storage facilities (outside scope of this Lot).

Options.

Following items are expected to be tendered as an option:

— Gas fired boiler or Heat pump for supply of process heat;

— Compressed air supply;

Cleaning system;

— Service and maintenance contract.;

— Inert separation step (ref. sub-process 2.3 above);

— A 3rd reactor line incl. all required systems.

Justification for tendering the contract as a single contract, can be substantiated by addressing the three criteria that should be taken into account when contracts

are tendered as 1 tender in Netherlands (Lot 2 is only a part of the RSC Cure NL project, which is being tendered in

several lots):

A) The composition of the relevant market and the influence of the combination of the contacts on the access to

the contract for a sufficient number of (smaller and mid-sized) companies in that market:

— DONG Energy sets out no specific requirements to the financial capabilities of the applicant, whereas DONG

Energy also urge SME's to apply for Pre-Qualification. It is allowed for smaller and mid-sized companies to

form consortia, which will help them comply with the requirements to provide guarantees and bonds, as will be

prescribed in the commercial conditions of the contract.

B) The organisational consequences and risks of the combination of the contracts for the contracting entity and

the tenderers:

— Each of the mentioned processes, represent multiple cross-process related interfaces, relations, and exchange

of signals. Managing and controlling these — if tendered as separate lots — would be possible, however the

technical risk profile for the project execution would increase significantly, and the only way to mitigate this risk,

is to set out high requirements to resource allocation within the DONG Energy organization.

— In the project execution phase, due to the technical complexity and the overlap of the various processes,

systems and hardware, it would be extremely challenging coordinating the erection-, and commissioning phase.

Some processes/systems are physically located on top of each other, and some are statically, and process wise

dependent, whereas the time schedule would be affected, due to a significantly extended time for completion.

C) The extent of connectedness of the contracts.

— The processes represent an interconnected integrated waste handling system, comprising various complex

mechanical-, electrical-, control- and monitoring interfaces, whereas the respective processes cannot be seen

as a separate single standing systems.

— If — hypothetically — the above mentioned processes were tendered as separate packages, the requirements

for the process and media control at each interface would be unrealistically high. Each interface would require

a fixed definition on media data, process parameters, monitoring, etc. This would cause an immediate impact

on the project complexity and CAPEX, as the potential suppliers either would decline applying for the PQ, or

alternatively increase the price capitalized by the risk, which potentially could compromise the project business

case.

Basically, tendering Lot 2 as one integrated system, is based on the fact that the scope is considered the core

of the facility, where interfaces between sub-systems are crucial. It is important for the Contracting Entity to

have clear system and process responsibility both in terms of responsibility of functionality during the contract

and in terms of time during the construction phase. This can be ensured with a single contractor. Further, the

innovative nature of the core of the facility supports that the contract can be tendered as a single contract. The

Contracting entity consider the scope of the contract as being a single contract from a process, market and risk

perspective.

General info:

Potential suppliers shall expect an explicit requirement from DONG Energy in relation to the system robustness

and high degree of availability. Further specific requirements in relation to guarantees for the functionality, the

power consumption, and warrantee period relevant for this sort of equipment will apply. Specific demands for

guarantees, bonds and warrantees will be specified in the Call for Tender Material.

Sheltered housing construction work

Boligkontoret Fredericia | Published April 29, 2016
Winner
Kingo Karlsen A/S
cpvs
45211200

The task is reconstruction of existing school buildings for housing (about 2 450 m 2 ), Conversion / renovation

of basement rooms (about 883 m 2 ) For common facilities and refurbishment / new build of existing gymnasium

with changing into common (about 1128 m 2 ). At the same time degrade 2 properties, and build 2 new

residential properties on the existing basement / foundation. A total of about 2 800 m 2 (Including approx. 642 m 2 existing building. basement).

The works offered in parallel offering in specialist and general contract after prior prequalification. Thus

can be both applied for participation in fagentreprise- and main contract offer. Competition basis will

be the lowest cost combination of fagentreprisetilbud versus main contract offer.

Offers are scheduled for presentation in mid-2015.

Work is expected to start around the turn of the year 2015/2016.

Offered the following contracts:

A. Råhusentreprisen containing:

Jordbelægnings-, sewer, concrete, masonry, stålaltan-, elementleverance- and assembly work.

B. Carpenter contract containing:

Carpentry, joinery, sealants, roofing and flooring work.

C. Vvs.-contract containing:

Plumbing, ventilation, plumbing and building work.

D. Elentreprisen containing:

Electrical work.

E. Painter contract containing:

Painting and cleaning.

F. Inventory contract containing:

Furniture and white goods.

G. Elevator contract containing:

Elevator work.

H. Degradation contract containing:

Demolition Works and debugging.

HE. Main contract

Includes all work in the hallway prices AH.

Main contract offer delivered as a collateral deals where the criterion is the 'lowest price'.

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