Our projects

Design basis and preliminary design of two foundation structures (Monopile, Preliminary design of the jacket,2 types)according to BSH (German Federal Maritime and Hydrographic Agency) standard construction (Phase 1) as well as collision analyses.

PDF download: 06_OWP_KrFlak_DB-Vorentw_e.pdf

Design and dimensioning of two jacket foundation structures and two monopile foundation structures for offshore wind turbines with a capacity of 5 MW, 3.6 MW and 3.0 MW including secondary steel and Preparation of the tender documents

PDF download: 07_OWP_KrFlak_Entw-MP-J_e.pdf

Design of an unmanned 400 MW offshore substation with jacket foundation including the complete technical equipment as well as secondary steel

PDF download: 08_OWP_KrFlak_Entw-400-UW_e.pdf

Design and tender of a 400 MW offshore substation including the complete technical equipment and secondary steel as a modular or closed construction.

PDF download: 08_OWP_KrFlak_Entw-400-UW_e.pdf

Design basis according to the BSH standard construction (Phase 1) for a wind farm site in the North Sea with a water depth of about 20 m

PDF download: 02_OWP_Butendiek_DB_e.pdf

IMS has rendered the following services for the Dan Tysk offshore wind farm: 1. Investigation of alternatives for five different types of foundation for a water depth of 30 m, 2. Preliminary design of a monopile foundation structure for approval (Stage 1) by the BSH (German Federal Maritime and Hydrographic Agency), 3. Preliminary design of a jacket foundation structure for approval (Stage 1) by the BSH.

PDF download: 04_OWP_DanTysk_Variant_e.pdf

Design Basis and conceptual design of two different foundation struc-tures according BSH-Standard Design of Offshore-Wind Turbines (phase 1) incl. collision analyses for offshore wind farm Gode Wind II

PDF download: Gode-Wind-II_e.pdf

For the Butendiek offshore wind farm, IMS is commissioned to render the design of a 288 MW substation including the complete technical equipment as well as secondary steel (substation components excluded) also commissioned are the preparation of the tender documents and the construction logistics, as the load-out, transport and offshore installation. Design and tender of a 400 MW substation including the complete technical equipment and secondary steel as a modular and closed construction.

PDF download: 03_OWP_Butend_Entw-288-UW_e.pdf

IMS is commissioned to render the following services for the Butendiek offshore wind farm: Design and calculations for two alternative monopile foundations including secondary steel, Preparation of the tender documents,Building specifications, Bill of quantities, Determination of quantities

PDF download: 02_OWP_Butend_Entw-MP_e.pdf

IMS is commissioned to render the following services for the Butendiek offshore wind farm: 1. Comparative study of different foundation structures: – Preliminary designs (rough design) – Determination of quantities and costs – Installation costs – Comparison and assessment 2. Preliminary design of the monopile for approval (Stage 1) by the BSH 3. Collision analysis for approval (Stage 1) by the BSH 4. Pile driving analysis with GRLWEAP

PDF download: 01_OWP_Butend_Vorentw-MP_e.pdf

Final Basic Design including design basic for the 400 MW-AC-Offshore Transformer platform for the wind farm BARD Offshore 1 in the North sea with 40 m water depth.

PDF download: BARD_Offsh-1_400-MW-AC_USP_e.pdf

Final Design for Tripile Foundation Structures for the BARD Offshore 1 wind farm area in the North Sea northwest of isle of Borkum with water depth of 40 m

PDF download: BARD_Offsh-1_Tripile-40m_e.pdf

In July 2007, IMS received the contract from CNES to be a general contractor for the performance of the sea recovery of the Ariane 5 booster during the mission AR 537.

PDF download: Ariane_537_e.pdf

Final Design for the 60 MW Offshore-Transformer platform alpha ventus in the North Sea at location northwest near Borkum West with water depth of 30 m:

PDF download: DOTI_alpha-ventus__Ausf_e.pdf

Tender Design for the 60 MW Offshore-Transformer platform alpha ventus in the North Sea northwest of isle of Borkum with water depth of 30 m.

PDF download: DOTI_alpha-ventus_Ausschrei_e.pdf

Final Design for Tripile Foundation Structures for the BARD Offshore 1 wind farm area in the North Sea northwest of isle of Borkum with water depth of 40 m.

PDF download: BARD_Offsh-1_Tripile-40m_e.pdf

IMS - in joint venture with COWI Danmark - assisted the Aarsleff - Bilfinger Berger Joint Venture with tender design for a monopile founda-tion for 25 up to 30 wind turbines. The total production capacity of the wind turbine farm is about 90 MW up to 108 MW for 3,6 MW turbine size. The wind turbines are to be founded at 4 m - 12 m water depth.

PDF download: COWI-Rhyl-Flats_e.pdf

Tender design and further technical services for monopile foundations of 30 offshore wind energy turbines near the British West Coast (North Sea), water depths 5 to 16 m

PDF download: Scarweather Sands_e.pdf

Tender design and further technical services for monopile and gravity foundations of 54 offshore wind energy turbines 6 - 8 km off the British East Coast (North Sea), water depths 8 to 14 m

PDF download: Lynn-Inner-Dowsing_LOT6_e.pdf

Tender design for offshore foundations of 77 offshore wind energy turbines in water depths 23 to 29 m, 40 km off the German North Sea coast, development of alternative foundation types such as steel monopile, steel tripod, concrete gravity foundation, reinforced concrete tripod with anchor piles.

PDF download: COWI-Borkum-Riffgrund-I_e.pdf

tender design for two alternative foundation solutions: gravity foundations and mono piles, respectively, for 48 wind turbines and 1 trafo station. The total production capacity of the wind turbine farm is estimated to be at least 350 GWh annually. The wind turbines are to be founded at 6m - 12m water depth.

PDF download: COWI-Lillgrund_e.pdf

Final design of a gravity foundation onshore for Siemens/Bonus 2.3 MW mkII wind turbine with a hub height of 103 m near the city of Trier.

PDF download: SWP-Onshore_Kesfeld_e.pdf

Evaluation within Case studies on systematic investigations and concepts for Offshore implements for installation of foundations

Structural analysis and constructive engineering Implementation planning and design Design specifications and Design Basis Negotiation with certification body and Vestas Design of corrosion protection and scour protection

PDF download: OSB_F+Z_Bau-Ausf_e.pdf

Systematic analysis and conceptional design on offshore implements for installation of foundations, as well as optimization.

Drawing up tender documents and Assistance in awarding; selection process, technical project management and consulting services.

PDF download: OSButend_tech-UB_e.pdf

Investigation of different support structures for 240 MW offshore transformer substation (Multipile, Monopile, Tripod and Jacket), Specification of support structure (environmental data, loads, steel de-sign, etc.) as component of the tendering.

PDF download: OSB_Umspann_e.pdf

1.Implementation Planning of offshore installation: Assistance in planning of sea transport and offshore installation procedures for substructure, deck and wind measuring mast, Hydrostatic and hydrodynamic analyses for transportation of jetty and deck, Strength analyses, Coordination and facilitating authorizations. 2. Assistance during offshore operations

PDF download: FINO_1-Seeinstall_e.pdf

Evaluation of possible Offshore Windenergy locations; Predesign of Tripile foundations; Installation and dismantling concept; Preparation of a maintenance concept for offshore foundations

PDF download: Globaltec_e.pdf

Development and optimisation of a cost efficient Tripod support structure for offshore wind energy facilities in the range 3 to 5 MW with particular consideration of weight, materials, steel quality, available manufacturing technologies, manufacturing phases and costs

PDF download: OptimTripod_e.pdf

Preliminary investigation of Tripod support structure for a 5 MW off-shore wind facility in a water depth of 40 m.

PDF download: Windp-EOS_e.pdf

Preparation, Coordination and Execution of all neccessary works on recovering the Ariane 5 Booster from sea

PDF download: Ariane_517_e.pdf

Design and Implementation Planning Design and technical planning including health and safety aspects, Equipment specification and deck layout and Coordination and facilitating authorizations; Structural analysis; Electric and control engineering

PDF download: FINO1-Ausf_e.pdf

Tendering and assistance for offshore soil investigation. Investigation of environmental conditions in cooperation with BSH, DWD and GKSS

PDF download: OSB_Umwelt_e.pdf

Preliminary draft and design of support structures for offshore wind park Sky2000 with water depth of 22 m and very difficult soil conditions

PDF download: Sky2000_e.pdf

Market Analysis of the usability of the jack-up rig "Annegret" of F+Z Bau GmbH for Offshore Wind Energy Project and Modification of Platform; Assistance in the modification of the jack-up rig "Annegret" (leg extension to 52 m)

PDF download: Hubins-Anne_e.pdf

Verification and reconditioning of the submerged control facility MUWOST, construction supervision and site management

Preliminary design of appropriate support structures (Monopile and Jacket) for water depth of 20 m.

PDF download: OSB_Gruend_e.pdf

Tendering and assistance for offshore soil investigation, Investigation of environmental conditions in cooperation with BSH, DWD and GKSS.

PDF download: OSB_Umwelt_e.pdf

Development of a support structure for the prototype of the 5 MW Multi-brid Offshore wind energy facility of Pfleiderer AG for the off shore site Borkum Riff with a water depth of 30 m.

PDF download: WEA-MULTI_e.pdf

Design and tendering of the FINO 1 research platform Borkum Riff in a water depth of 28 m for the investigation of the meteorological, physical environment.

PDF download: FINO1-Plan_e.pdf

Evaluation of alternative systems for the offshore coal transshipment for a coal power station in Iskenderum/Turkey

PDF download: Iskend_e.pdf

Offshore site soil analysis of soil at Borkum Riff Site: Planning, tendering and contract award for soil investigations, Assistance and supervision of offshore operations with jack-up work-ing platform (under sea bed conditions at chart datum –28 m), Laboratory tests and expert soil analysis und recommendation, for design of support structures, Determination of soil parameters.

PDF download: FINO_1-Baugr_e.pdf

Preliminary investigation of a structure variant (Jacket) for a 5 MW Off-shore wind energy facility (N.O.K.5 Repower Systems AG) for the site at Windpark Schleswig-Holsteinische Nordsee at Helgoland with water depth of approx. 20 m (Plan area of Winkra)

PDF download: Unters-WEA_e.pdf

The feasibility study included the activities for the decommissioning of the offshore support structures for 3 MW wind energy facilities at the “Borkum Riffgrund” site in the North Sea.

PDF download: WEA-Bork-Rueck_e.pdf

In 2000 Energiekontor AG contracted IMS to do a feasibility study of de-tailed concepts for offshore foundations for 2.5 MW and 5 MW-wind en-ergy facilities at the “Nordergründe” and “Borkum Riffgrund” West sites in die North Sea:

PDF download: WEA-Nordgr_e.pdf

In 1992 IMS was commissioned by BMFT to prepare of tender docu-ments for the decommissioning of the Research Platform NORDSEE.

PDF download: FPN-Rueck_e.pdf

BMFT represented by GKSS contracted IMS in 1972 as main contractor for following functions for the project Research Platform NORDSEE: Concept development, design, Drawing up of tender documents, Contract negotiations, Supervision, Project coordination and Management, Operation of the platform.

PDF download: FPN_e.pdf