WASTEWATER TREATMENT PLANTS - THE FUTURE EXISTS

MISIONOur mission is to accept all the

challenges of today related to wastewater treatment using the

acquired knowledge and experience, and continuous investment in

human resources, increasing production capacity and developing

new technologies in close cooperation with the universities.

Responsibly and in accordance with legal regulations, respect

the principles of environmental protection and help build an

environmentally sustainable society, respect the company's vision and

become superior to the competition.

VISIONOur vision is to position itself as a

leader on the Croatian market in the field of wastewater treatment

and air purification and to be at the very top on the market of

Southeast Europe, as well as to become a recognizable company in

the Western European market in the near future.

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STRATEGYBy investing in

technology, product development, knowledge

and human resources and expanding capacity

to achieve the company's vision and become superior

to the competition.

CLIENT ORIENTATION

A professional workforce and a top development team ensure constant product improvement to meet client needs.

RELIABLE PARTNER● 23 years of experience,

● internal development,

● service team,

● presence in 5 countries on 2 continents.

STRATEGIC PARTNERSHIP

Cooperation with universities in the field of development and research.

Cooperation with strategic companies in the field of wastewater treatment from Europe.

Customer orientation.

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Application: treatment of wastewater from industrial plants, gas stations, car washes, agricultural farms, etc., or in cases

where there is contamination of rainwater or process water with oily liquids.

Classification:— gravitational,

— with coalescent filter,— with sorption filter,

— with coalescent and sorption filter,— with bypass.

Capacity: 0,5–300 l/s, or up to 200/1000 l/s (bypass separators).

Design in accordance with norm HRN EN 858-1.

Material: polyethylene, polypropylene.

Oil concentration at the outlet of the separator: 70-100 mg/l (gravitational), 5 mg/l (with coalescent filter), 0,2-0,5 mg/l

(with sorption filter).

OIL SEPARATORSBIOLOGICAL WASTEWATER TREATMENT PLANTS

Application: treatment of wastewater by using aerobic microorganisms located in activated sludge.

Classification:— batch SBR (Sequencing Batch Reactor),

— Activated Sludge Process (ASP),— Moving Bed Biofilm Reactor technology.

Capacity: 3 - 5000 PE.

Design in accordance with norms EN 12566-3, EN 12255, ATV-A131.

Material: polypropylene, polyethylene or concrete, can also be installed in a green or asphalt area.

The wastewater treatment plant is dimensioned on the basis of population equivalent (PE), which is the

estimated daily water consumption per capita of 150 l, 1 PE = 150 l/24h, as well an organic load of 60 g

BOD5/PE.

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DAF — Application: Continuous wastewater treatment using DAF - Dissolved Air Flotation. It is used to remove precipitated suspended particles, emulsions, fats

and dissolved coagulated particles, with the help of flocculants and coagulants. For this purpose, the coagulant, alkali/acid and flocculant are dosed into the

tubular mixer - flocculator.

Classification by form:— round,

— rectangular.

PHYSICO - CHEMICAL REACTOR — Application: Batch wastewater treatment. It is used to remove precipitated suspended particles, emulsions, fats and

dissolved coagulated particles, with the help of flocculants and coagulants. For this purpose, the coagulant, alkali/acid and flocculant are dosed directly into the

physico-chemical reactor.

Capacity: up to 20 m3/day. Material: polypropylene, polyethylene.

Use of screw pumps from the renowned manufacturer Netzsch.

HU NZCG

PHISICO – CHEMICAL TREATMENT

Capacity: up to 80 m3/h Material: polypropylene, polyethylene.

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LAMELLA CLARIFIER

Application: removal of suspended particles from wastewater by gravity separation.

Capacity: up to 100 m3/h.

Material: polypropylene, polyethylene.

It consists of inclined longitudinally stacked plates that increase the contact surface with the particles and in contact with them the particles are settled. After settling,

sludge is formed which is further transferred to a sludge

tank or to a dehydration system.

The angle of inclination of the flow elements is from 45° to

60°, the lamellar clarifier is dimensioned based on the flow

of wastewater and on the size of the particles thant needs to be

precipitated.

TECHNOLOGICAL WASTEWATER TREATMENT

Application: wastewater treatment using the following processes: coagulation, flocculation, flotation, sedimentation, microbiological degradation.

Classification:— batch type (physico-chemical reactor),

— continuous type (DAF flotation),— biological treatment.

Capacity: up to 80 m3/h.

Material: polypropylene, polyethylene.

Complete equipment is delivered in a container (engine room) or installed in an existing facility on site.

The treatment of technological wastewater can consist of several functional units: inlet pumping station, mechanical pretreatment, equalization tank,

polyelectrolyte preparation station, chemical treatment, biological treatment, sludge tank, sludge dehydration.

The recipient of purified water can be: public sewerage system, natural recipient.

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DEHYDRATION

Application: to reduce the water content of sludge generated in wastewater treatment plants in order to obtain solid sludge, and

reduced volume which as such is more suitable for further disposal.

Classification:— gravitational: discontinuous process, gravitational squeezing,

10 - 15% of dry matter, by pumping sludge, pore sizes allow water to flow through the bags, while keeping solids

in the bag,— mechanical: screw dehydrator — continuous process, compact design, fully

automatic mode, capacity: from 1 to 40 m3/h, 18 - 25% dry matter,

filter press — manual, semi-automatic, fully automatic mechanism of operation, dehydration characteristics: high filtrate

purity, high dehydration effect, different capacities (depending on the number and size of plates), 20 - 40% dry matter.

Application: for domestic, main and storm sewers and for various industrial waters.

Classification:— freestanding, buried,

— with single or double wall with prepared reinforcing mesh for concrete burial.

Capacity: according to customer needs, different dimensions.

Design in accordance with norm HR EN 12050.

Material: polypropylene, polyethylene, polyester (shaft body), polypropylene, polyethylene (shaft bottom and roof).

Overpump shafts are equipped according to customer requirements (service ladder, platform, openings, one or more submersible pumps, electrical control

cabinet, optical, audible and remote signaling, level probes).

HU NZCG

OVERPUMP SHAFTS

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MECHANICAL PRE-TREATMENT

Application: separation of all solid particles from wastewater larger than perforations on the pre-treatment device. The separated waste is collected

in a municipal bin/container and further disposed of in accordance with law regulations.

Classification:— fine perforation screen from 0,25 mm to 2 mm, coarse perforation screen from

2 mm to 10 mm,— gravitational or pressure,

— above ground or underground,— with or without automatic cleaning system.

Capacity from 2 m3/h - up to 1000 m3/h.

Material: AISI 304L or AISI 316L stainless steel.

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SCRUBBER

Application: „wet scrubbing“ with water and chemicals.

Classification:— single-stage or multi-stage,

— with filling (80 - 200 m2/m3), or without filling,— in vertical or horizontal design.

Capacity: up to 100,000 m3/h.

Material: polypropylene, polyethylene or polyvinyl chloride.

The optimal air flow speed is 1,5 – 2,0 m/s.

Components: measuring probe, recirculation and dosing pumps, droplet separator, filling, electrical control cabinet.

Advantages of the device: processing of flammable and explosive gases does not pose a risk, neutralization of

corrosive gases (H2S, SO2, NH3, Cl2, VOC, etc.), solid particles, odors, etc.

HU NZCG

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GALVANIZATION BATHS

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Application: containers for use in the food and chemical industry. Tanks for solutions, acids, alkalis and galvanizing baths.

Classification:— free standing or buried tanks,

— vertical and horizontal.

Capacity: up to 100 m3.

Product calculation and dimensioning in accordance with the DVS standard, as well as drafting in DWG format and 3-D modeling,

and are 100% waterproof.

Material: polyethylene, polypropylene, polyvinyl chloride.

INDUSTRIAL TANKS

PAINT REMOVAL LINE

Application: efficient and sustainable procedure for removing paint from hooks, brackets, rims, aluminium profiles and other products.

Material: polypropylene, a material that is resistant to chemicals and does not require additional corrosion protection.

The device consists of at least 3 baths: working baths, rinsing baths and squeezing baths, rectangular in shape, freestanding. Below the

tub is a security tank.

The process is controlled via a electrical control cabinet (temperature, mixer, bath liquid level, alarms, etc.), as well as

filtering of the solution from the working bath.

HU NZCG

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POLYELECTROLYTE PREPARATION DEVICE

Application: preparation of an aqueous solution of polyelectrolyte by mixing concentrated polyelectrolyte (powder or liquid) with

water, a polymer concentration of 0,01 – 1,5 % is obtained.

Classification:— single-chamber: the phase of dosing the concentrated

polyelectrolyte, mixing and maturing the polyelectrolyte solution takes place in one chamber.

— three-chamber: the first chamber is used for adding water and dosing the concentrated polyelectrolyte with mixing, the

second chamber is used for mixing the solution, and in the third chamber maturation takes place without mixing and from the

third chamber the solution is dosed.

Capacity: from 100 l/h to 10,000 l/h.

Material: polypropylene, polyethylene.

Components: tank, dry dispenser/dosing pump, measuring probes, mixer, control unit.

DRINKING WATER IMPROVEMENT

Application: drinking water improvement technology is based on adsorption filtration. Elements such as iron, manganese, arsenic

and ammonium salts are removed from the water.

Capacity: up to 165 m3/h.

Material: polyethylene, polypropylene.

Drinking water improvement technology can consist of: degassing, chlorination of water, iron oxidation tank, iron removal filter, activated

carbon filter to reduce COD (chemical oxygen demand), reactor, activated carbon filter, improved water tank.

The system is automated and regulated by a PLC.

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SERVICE

We offer long-term support for device management, regulation and service.

Ability of notification about the error and status of the device via SMS to selected mobile numbers, remote monitoring and access.

Quick response to the location.

Preventive, periodic inspection and optimization and service.

Operator training for independent work and consulting.

HU NZCG

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NEW ZEALAND

Sunnyvale

LjubljanaNovi Sad

Skopje

Pristina

Tuzla

KneževiVinogradi

Podgorica

Tirana

AUSTRIA

SLOVENIA

SRBIA

ROMANIA

MACEDONIA

HUNGARY

CROATIA

BOSNIA ANDHERZEGOVINA

ALBANIA

BULGARIA

GREECE

ITALY

SZECHIA

GERMANY

FRANCESWITZERLAND

SLOVAKIA

POLAND

UKRAINE

MOLDOVA

Vienna

Bucharest

MONTENEGRO

Pécs

KOSOVO

OUR RESPONSIBILITY TOWARDS YOU AND NATURE

PLC AND SCADA

We use modern PLC devices Siemens S7-1200 series in combination with Siemens or Weintek screens.

The cabinets are equipped with equipment from renowned manufacturers: Schrack, ABB, Siemens,

Schenider, Delta Electronics.

We offer the possibility of creating a SCADA system and connecting it to the device.

Ability to remotely access and manage devices using a 4G connection.

We do the complete design and manufacture of electrical cabinets for automatic control within Bor-

plastika d.o.o.

TEAM SPIRIT

CLIENT ORIENTATION

HONESTY

INOVATION

PERSEVERANCE AND PERSISTENCE

RESPONSIBILITY

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NEW ZEALAND

Sunnyvale

LjubljanaNovi Sad

Skopje

Pristina

Tuzla

KneževiVinogradi

Podgorica

Tirana

AUSTRIA

SLOVENIA

SRBIA

ROMANIA

MACEDONIA

HUNGARY

CROATIA

BOSNIA ANDHERZEGOVINA

ALBANIA

BULGARIA

GREECE

ITALY

SZECHIA

GERMANY

FRANCESWITZERLAND

SLOVAKIA

POLAND

UKRAINE

MOLDOVA

Vienna

Bucharest

MONTENEGRO

Pécs

KOSOVO

Bor-plastika d.o.o.

Glavna 2 • 31309 Kneževi VinogradiTelephone exchange: +385 31/730-881 • Commercial: +385 31/732-183 bor-plastika@bor-plastika.hrwww.bor-plastika.hr

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Bor-plastika d.o.o.

Glavna 2 • 31309 Kneževi Vinogradi • HrvatskaTelephone exchange: +385 31/730-881 Commercial: +385 31/732-183 bor-plastika@bor-plastika.hrwww.bor-plastika.hr

Borplastika eko d.o.o.Čerevićka 46D/2 • 21000 Novi Sad • SrbijaTel: +381 21/6312-299 • Mob: +381 65/9998-705E-mail: office@borplastikaeko.rswww.borplastikaeko.rs

Borplastika eko d.o.o.Aleja Alije Izetbegovića 31 • 75000 Tuzla • BiHTel: +387 35/279-122 • Fax:+387 35/279-071 Mob: +387 62/503-373 • +387 62/505-915E-mail: office@borplastikaeko.bawww.borplastikaeko.ba

Borplastika eko d.o.o.Kozaračka 21A • 81000 Podgorica • Crna GoraTel: +382 20/240-780 • Mob: +382 67/621-044E-mail: office@borplastikaeko.mewww.borplastikaeko.me

Borplastika MagyarországMegyeri út 26/1 1. em • 7632 Pécs • MagyarországMob: +36 70/884-1806E-mail: office@bor-plastika.euwww.borplastikaeko.hu

Borplastika 111 View Rd • Sunnyvale, Auckland 0612 • New ZealandTel./fax: +64 21/1931-777E-mail: info@bor-plastika.co.nzwww.bor-plastika.co.nz