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Heating Pipeline System Solutions

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Proposal Overview

Heating Pipeline System Solutions

Transfer the heat generated by the heat source (usually in the form of hot water or steam) to the user end of heating, domestic hot water supply or industrial production process. To avoid heat loss of the conveying medium, insulated pipelines and distributed optical fiber leak detection systems are selected according to the hierarchical pipe network to reduce heat loss and improve overall energy efficiency.

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User challenge

Low energy efficiency

The density of the insulation layer is uneven, and the eccentric insulation layer of the insulation pipe causes large heat loss, resulting in substandard room temperature for end customers.

Short service life

Uneven thickness and improper interface treatment reduce the service life of steel pipes.

Difficult operation and maintenance

It is difficult to accurately find the leakage point when the pipeline leaks.

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Solution

The primary and secondary pipe networks use sprayed and wound insulated pipes (according to customer needs).

The primary and secondary pipe networks use two-step insulation pipes (according to customer needs).

For the tertiary pipe network, one-step insulation pipes are selected.

Distributed optical fiber leak detection is an advanced

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The primary and secondary pipe networks use sprayed and wound insulated pipes (according to customer needs).

It is composed of a working steel pipe, a sprayed polyurethane insulation layer, and an extruded polyethylene wound outer protective layer, forming a closely integrated trinity.

The primary and secondary pipe networks use two-step insulation pipes (according to customer needs).

The high-pressure foaming machine is used to inject the raw liquid of rigid polyurethane foam plastic into the cavity formed between the steel pipe and the outer protective layer in one time. That is, the commonly known "pipe-in-pipe foaming process".

For the tertiary pipe network, one-step insulation pipes are selected.

Through professional equipment, the production of the outer protective pipe by one-time coating and the pouring and forming of the insulation layer are carried out simultaneously. It is closely combined with the steel pipe to form a composite structure with both anti-corrosion and insulation properties inside and outside at one time.

Distributed optical fiber leak detection is an advanced

Pipeline leak detection technology that uses optical fibers as sensing elements to monitor and locate liquid or gas leaks in long-distance pipeline systems in real-time. It can detect temperature, vibration, and strain.

Program advantages

Sprayed and wound insulated pipe

1. It improves the uniformity of the overall insulation layer density of the pipeline, compressive strength, and mechanical properties of the outer casing. 2. Reduces the axial eccentricity of the insulated pipe. 3. Reduces the thermal conductivity of the insulation layer and reduces energy loss. 4. The thickness of the insulation layer and the outer casing can be customized according to customer needs.
Two-step insulation pipe

1. It is filled with rigid polyurethane foam to form a continuous and tight insulation layer, reducing heat loss, improving thermal transmission efficiency, and reducing energy consumption.
One-step insulation pipe

1. High production efficiency and can shorten the construction period. 2. High degree of mechanization and reduces human errors. 3. Reduces energy consumption and production costs and improves product quality.
Distributed optical fiber leak detection

1. Optical fiber can be used for detection and communication. 2. Long service life and simple maintenance. 3. Long detection distance, and a single host can cover more than 40 kilometers. 4. Optical fiber is a non-metallic conductor with strong anti-interference ability and high reliability. 5. Optical fiber detection is without electricity and is also suitable for special scenarios such as mines and fire protection.

Application scenario

Taian Shiheng waste heat is introduced into Jinan

Laiwu industrial waste heat is used to provide heat supply service for Tai 'an City.

Rongcheng nuclear heating supporting pipe network and facility construction project

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China
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Andorra
Angola
Antigua and Barbuda
Austria
Australia
Macau, China
Barbados
Papua New Guinea
Bahamas
Pakistan
Paraguay
Palestine
Bahrain
Panama
Brazil
Belarus
Bulgaria
Benin
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Iceland
Bolivia
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Poland
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Belize
Bhutan
Burkina Faso
Burundi
North Korea
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Denmark
Germany
Timor-Leste
Togo
Dominican Republic
Dominica
Russia
Ecuador
Eritrea
France
Faroe Islands
French Polynesia
Philippines
Finland
Cape Verde
Gambia
Congo
Colombia
Costa Rica
Grenada
Georgia
Cuba
Guadeloupe
Guyana
Kazakhstan
Haiti
South Korea
Netherlands
Montenegro
Honduras
Kiribati
Djibouti
Kyrgyzstan
Guinea
Guinea-Bissau
Canada
Ghana
Gabon
Cambodia
Czech Republic
Zimbabwe
Cameroon
Qatar
Cayman Islands
Comoros
Kosovo
Ivory Coast
Kuwait
Croatia
Kenya
Cook Islands
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Lesotho
Laos
Lebanon
Liberia
Libya
Lithuania
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Malta
Maldives
Malawi
Malaysia
Mali
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Mauritania
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Bangladesh
Peru
Micronesia
Myanmar
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Morocco
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Mozambique
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Nepal
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Nigeria
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Sweden
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Gibraltar
Chile
Central African Republic
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Nauru
Vatican City
Fiji
SectorPlease enter
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Water Service
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Gas field
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Government public construction projects
Construction of Factory building
Fire protection field
Mining field
Chemical field
Casting field
In the field of mechanical engineering
electrical/power field
water conservancy field
logistics park
thermoelectric field
 
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